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Full Speed USB DFU interface for FPGA and ASIC designs

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USB_DFU verilog module

USB_DFU is a Verilog implementation of the USB Device Class Specification for Device Firmware Upgrade (DFU), version 1.1.

There are two functional device modes:

  • Run-time. The device starts in this mode and implements the primary CDC/ACM function and a secondary DFU function that allows switching to DFU Mode through the only available DFU_DETACH class request.
  • DFU Mode. The device implements only the DFU function with all its class requests but the DFU_DETACH one.

Windows 10/11, macOS, and Linux provide built-in drivers for CDC/ACM and DFU functions. These OSs automatically recognize them. Only Linux requires administrative intervention to grant permissions for a user account to access USB peripherals. DFU function can be accessed by using dfu-util.

USB_DFU is derived from USB_CDC by adding the DFU function.

Applications

  • Flash programming and RAM read/write capability for microcontrollers and soft cores. USB_DFU takes little gate resources and no memories, leaving them for the CPU.
  • Bootloaders. See the bootloader example for completely replacing the original TinyFPGA bootloader with one fully compatible with the tinyprog programmer and with DFU capability added.
  • Etc, it is up to your imagination.

Block Diagram and Pinout

Clocks

  • clk_i: clock with a frequency of 12MHz*BIT_SAMPLES
  • app_clk_i: asynchronous clock used if parameter USE_APP_CLK = 1

Reset

  • rstn_i: asynchronous reset, active low

CDC/ACM FIFO out (from the USB host)

  • out_data_o: data (1 byte if CHANNELS=1, n bytes if CHANNELS=n)
  • out_valid_o: valid control signal (1 bit if CHANNEL=1, n bits if CHANNELS=n)
  • out_ready_i: ready control signal (1 bit if CHANNEL=1, n bits if CHANNELS=n)

CDC/ACM FIFO in (to the USB host)

  • in_data_i: data (1 byte if CHANNELS=1, n bytes if CHANNELS=n)
  • in_valid_i: valid control signal (1 bit if CHANNEL=1, n bits if CHANNELS=n)
  • in_ready_o: ready control signal (1 bit if CHANNEL=1, n bits if CHANNELS=n)

DFU FIFO out (from the USB host)

  • dfu_out_data_o: data byte
  • dfu_out_valid_o: valid control signal
  • dfu_out_ready_i: ready control signal

DFU FIFO in (to the USB host)

  • dfu_in_data_i: data byte
  • dfu_in_valid_i: valid control signal
  • dfu_in_ready_o: ready control signal

DFU related signals

  • dfu_mode_o: 1 if device is in DFU Mode, 0 otherwise (app_clk_i sync-ed)
  • dfu_alt_o: alternate interface setting (clk_i sync-ed)
  • dfu_out_en_o: 1 during image download transfer, 0 otherwise (app_clk_i sync-ed)
  • dfu_in_en_o: 1 during image upload transfer, 0 otherwise (app_clk_i sync-ed)
  • dfu_clear_status_o: 1 to clear dfu_status_i (app_clk_i sync-ed)
  • dfu_blocknum_o: wValue field of DFU_DNLOAD/DFU_UPLOAD requests (clk_i sync-ed)
  • dfu_busy_i: 1 to make the USB Host wait for Poll Timeout (app_clk_i sync-ed)
  • dfu_status_i: status resulting from the execution of DFU requests (app_clk_i sync-ed):
    • 0x0. DFU request execution is still running.
    • 0xF. DFU request execution finished without error.
    • DFU error code. DFU request execution finished with error (see table at page 21 of DFU 1.1 standard).

USB I/O buffers

  • dp_rx_i: D+ input bit stream
  • dn_rx_i: D- input bit stream
  • dp_tx_o: D+ output bit stream
  • dn_tx_o: D- output bit stream
  • tx_en_o: D+/D- output enable
  • dp_up_o: 1.5kΩ D+ pullup enable

USB device status

  • frame_o: last received USB frame number (clk_i sync-ed)
  • configured_o: 1 if USB device is in configured state, 0 otherwise (clk_i sync-ed)

FIFO interface

USB_DFU provides two FIFO interfaces to transfer data to/from FPGA application. One for the CDC/ACM function and the other for the DFU function. All in_* and out_* channels use the same transmission protocol.

Data is consumed on rising app_clk when both valid and ready signals are high (red up arrows on the picture). Tsetup and Thold depend on FPGA/ASIC technology.

The valid signal is high only when new data is available. After data is consumed and there is no new data available, the valid signal is asserted low.

Verilog Configuration Parameters

USB_DFU has few Verilog parameters that allow customizing some module features.

VENDORID and PRODUCTID

VENDORID and PRODUCTID define USB vendor ID (VID) and product ID (PID).
For TinyFPGA: VID=0x1D50 and PID=0x6130.
By default, they are not defined (VENDORID=0x0000 and PRODUCTID=0x0000).

RTI_STRING

Run-time DFU interface string. This will appear as "name" on dfu-util.

SN_STRING

Serial number string. This will appear as "serial" on dfu-util.

ALT_STRINGS

Concatenation of DFU Mode strings separated by "\000" or by "\n". These will appear as "name" for the various alternate interfaces on dfu-util. The number of these strings defines the number of available alternate settings.

TRANSFER_SIZE

Maximum number of bytes that the device can accept for DFU_DNLOAD/DFU_UPLOAD requests.

POLLTIMEOUT

Minimum time, in milliseconds, that the host should wait before sending a subsequent DFU_GETSTATUS request. This is enforced when dfu_busy_i is high, otherwise it is internally set to 1ms.

MS20

If 0 Microsoft OS 2.0 Descriptors are disabled, otherwise they are enabled for Run-time mode.

WCID

If 0 Microsoft OS 1.0 Descriptors are disabled, otherwise they are enabled for DFU Mode.

MAXPACKETSIZE

MAXPACKETSIZE defines maximum data payload size for IN and OUT control/bulk transactions. The allowable full-speed values are only 8, 16, 32, and 64 bytes. The default value is 8.

CHANNELS

CHANNELS defines how many CDC channels to implement. It is possible to implement from a minimum of 1 (default) to a maximum of 7 channels.

BIT_SAMPLES

BIT_SAMPLES defines the number of samples taken on USB dp/dn lines for each bit. Full Speed USB has a bit rate of 12MHz, so the clk clock has to be BIT_SAMPLES times faster. For example, the default value of 4 needs a clk frequency of 48MHz (see the picture below). BIT_SAMPLES has to be ≥ 4.

USE_APP_CLK and APP_CLK_FREQ

USE_APP_CLK parameter configures if the FPGA application uses the same USB_CDC internal stuff clock (USE_APP_CLK = 0) or a different asynchronous one (USE_APP_CLK = 1). If USE_APP_CLK = 0 then app_clk input is not used and can be connected to a constant value such as 1'b0.

When USE_APP_CLK = 1, APP_CLK_FREQ parameter defines the app_clk frequency in MHz.

To improve data throughput for lower app_clk frequencies, APP_CLK_FREQ parameter selects one of two different approaches to synchronize data that cross the two clock domains:

  • APP_CLK_FREQ ≤ 12. FPGA application can exchange data at every 1 or 2 app_clk cycles.

  • APP_CLK_FREQ > 12. FPGA application can exchange data at an average of 2*2.5 app_clk cycles + 2*2.5 clk cycles.

Overall, the USB Full-speed protocol caps data throughput to 1.5MB/s. So, with freq(clk) ≥ 48MHz, data throughput is 1.5MB/s if freq(app_clk) > 1.5MHz, otherwise it is freq(app_clk) bytes.

Examples

A few examples with complete implementation on TinyFPGA-BX are present in the examples directory. In addition, simulation testbenches are provided for each one.

Directory Structure

.
├── README.md                            --> This file
├── usb_dfu                              --> USB_DFU verilog files
│   ├── ctrl_endp.v
│   ├── fifo.v
│   ├── in_fifo.v
│   ├── out_fifo.v
│   ├── phy_rx.v
│   ├── phy_tx.v
│   ├── sie.v
│   └── usb_dfu.v
└── examples                             --> Example designs
    └── TinyFPGA-BX
        ├── hdl
        │   ├── bootloader
        │   │   ├── bootloader.v         --> Top level (verilog)
        │   │   :
        │   │
        │   └── loopback
        │       ├── loopback.v           --> Top level (verilog)
        │       :
        │
        ├── iCEcube2                     --> iCEcube2 projects
        │   ├── bootloader
        │   │   ├── usb_dfu_sbt.project  --> iCEcube2 project file
        │   │   :
        │   │
        │   └── loopback
        │       ├── usb_dfu_sbt.project  --> iCEcube2 project file
        │       :
        │
        ├── OSS_CAD_Suite                --> OSS CAD Suite projects
        │   ├── Makefile
        │   ├── input
        │   │   ├── bootloader
        │   │   │   :
        │   │   └── loopback
        │   │       :
        │   │
        │   └── output
        │       :
        │
        └── python                       --> test files
            └── bootloader
                ├── run.py
                :

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