Design and manufacture systems with flash memory

The tools can be used to target xCORE devices that use SPI flash memory for booting and persistent storage. The xCORE flash format is shown in Flash format diagram.


Flash format diagram

The flash memory is logically split between a boot and data partition. The boot partition consists of a flash loader followed by a “factory image” and zero or more optional “upgrade images.” Each image starts with a descriptor that contains a unique version number, a header that contains a table of code/data segments for each tile used by the program and a CRC. By default, the flash loader boots the image with the highest version with a valid CRC.

Boot a program from flash memory

To load a program into an SPI flash memory device on your development board, start the tools and enter the following commands:

  1. xflash -l

    XFLASH prints an enumerated list of all JTAG adapters connected to your PC and the devices on each JTAG chain, in the form:

    ID        Name        Adapter ID        Devices

    --        ----        ----------        -------

  2. xflash --id ID *program*.xe

    XFLASH generates an image in the xCORE flash format that contains a first stage loader and factory image comprising the binary and data segments from your compiled program. It then writes this image to flash memory using the xCORE device.


    The XN file used to compile your program must define an SPI flash device and specify the four ports of the xCORE device to which it is connected.

Generate a flash image for manufacture

In manufacturing environments, the same program is typically programmed into multiple flash devices.

To generate an image file in the xCORE flash format, which can be subsequently programmed into flash devices, start the tools and enter the following command:

xflash *program*.xe -o image-file

XFLASH generates an image comprising a first stage loader and your program as the factory image, which it writes to the specified file.

Perform an in-field upgrade

The tools and the libflash library let you manage multiple firmware upgrades over the life cycle of your product. You can use XFLASH to create an upgrade image and, from within your program, use libflash to write this image to the boot partition. Using libflash, updates are robust against partially complete writes, for example due to power failure: if the CRC of the upgrade image fails during boot, the previous image is loaded instead.

Write a program that upgrades itself

The example program below uses the libflash library to upgrade itself.

#include <platform.h>
#include <flash.h>

#define MAX_PSIZE 256

/* initializers defined in XN file
* and available via platform.h */

                   XS1_CLKBLK_1 };

int upgrade(chanend c, int usize) {

 /* obtain an upgrade image and write
  * it to flash memory
  * error checking omitted */

 fl_BootImageInfo b;
 int page[MAX_PSIZE];
 int psize;


 psize = fl_getPageSize();

 while(fl_startImageReplace(b, usize))
 for (int i=0; i page[j];)



return 0;

int main() {
 /* main application - calls upgrade
  * to perform an in-field upgrade */

The call to fl_connect opens a connection between the xCORE and SPI devices, and the call to fl_getPageSize determines the SPI device’s page size. All read and write operations occur at the page level.

The first upgrade image is located by calling fl_getFactoryImage and then getNextBootImage. Once located, fl_startImageReplace prepares this image for replacement by a new image with the specified (maximum) size. fl_startImageReplace must be called until it returns 0, signifying that the preparation is complete.

The function fl_writeImagePage writes the next page of data to the SPI device. Calls to this function return after the data is output to the device but may return before the device has written the data to its flash memory. This increases the amount of time available to the processor to fetch the next page of data. The function fl_endWriteImage waits for the SPI device to write the last page of data to its flash memory. To simplify the writing operation, XFLASH adds padding to the upgrade image to ensure that its size is a multiple of the page size.

The call fl_disconnect closes the connection between the xCORE and SPI devices.

Build and deploy the upgrader

To build and deploy the first release of your program, start the tools and enter the following commands:

  1. xcc *file*.xc -target=*boardname* -lflash -o first-release.xe

    XCC compiles your program and links it against libflash. Alternatively add the option -lflash to your Makefile.

  2. xflash first-release.xe -o manufacture-image

    XFLASH generates an image in the xCORE flash format that contains a first stage loader and the first release of your program as the factory image.

To build and deploy an upgraded version of your program, enter the following commands:

  1. xcc *file*.xc -target=*boardname* -lflash -o latest-release.xe

    XCC compiles your program and links it against libflash.

  2. xflash --upgrade *version* latest-release.xe --factory-version *tools-version* -o upgrade-image

    XFLASH generates an upgrade image with the specified version number, which must be greater than 0. Your program should obtain this image to upgrade itself.

If the upgrade operation succeeds, upon resetting the device the loader boots the upgrade image, otherwise it boots the factory image.