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m1-labels.fig | ||
Makefile | ||
README | ||
ubb-jtag-m1.pro | ||
ubb-jtag-m1.sch |
JTAG with UBB ============= JTAG [1] typically uses 4 to 6 signals between the host and the target, making it perfectly suitable for UBB. UBB can be either used with just a cable or with minimum circuitry if level shifting is needed. If the level difference is small enough, simple resistive dividers that can be soldered directly to UBB will be sufficient. If using the "gpio" cable driver of UrTAG, we don't even need new code for this. [1] http://en.wikipedia.org/wiki/Jtag [2] http://urjtag.org/ Overview -------- This is an example of using UBB to communicate via JTAG with the Xilinx XC6SLX45 FPGA of a Milkymist One. We first describe the hardware setup, then configuration and installation of UrJTAG, and finally changes to the kernel configuration. The whole setup looks like this: http://downloads.qi-hardware.com/people/werner/ubb/jtag/ubb-jtag-m1-all.jpg UBB-JTAG-M1 hardware: 2.5 V level adaptation -------------------------------------------- Note that this is target-specifc. No level adaptation is necessary if the target's JTAG interface runs at 3.3 V. Milkymist One uses 2.5 V for its JTAG interface while the Ben's IO runs at 3.3 V. The difference is small enough that we need no special provisions for going from 2.5 V to 3.3 V, but we have to adapt the level in the opposite direction. Since we will run the interface at fairly low speeds, simple resistive dividers will be sufficient. A 220/680 Ohm divider reduces the Ben's nominal 3.3 V to a nominal 2.5 V. Small through-hole resistors can be soldered directly to UBB. ubb-jtag-m1.sch shows the configuration. Since CLK is used as input and has no pull-up inside the Ben, no resistor is needed. However, it may be advisable to add a 220 Ohm series resistor as protection in case of misconfiguration. This is what UBB with voltage dividers (without series resistor on CLK) looks like: http://downloads.qi-hardware.com/people/werner/ubb/jtag/ubb-jtag-m1-card.jpg UBB-JTAG-M1 hardware: connector ------------------------------- Milkymist One uses a shrouded 14 pin male connector with a 2 mm pitch for JTAG. While suitable connectors for ribbon cables are available, e.g., Molex 087568-1493, one can also improvise with female contacts designed for the ubiquitous 2.54 mm headers. If building a UBB-JTAG board with individual wires, the labels in m1-labels.fig can be used to identify them. Each label has the name of the JTAG signal and the position in the J6 connector of the Milkymist One. Building UrJTAG --------------- Prequisite: the OpenWRT cross-compilation toolchain for the Ben has to be installed. I.e., mipsel-openwrt-linux-gcc and friends must be in PATH. git clone git://urjtag.git.sourceforge.net/gitroot/urjtag/urjtag cd urjtag/urjtag ./autogen.sh --host=mipsel-openwrt-linux --enable-cable=gpio \ --enable-lowlevel= --without-libusb --without-libftdi make Installing UrJTAG ----------------- Prerequisites: the Ben must be reachable via TCP/IP. We assume we can reach it under the name "ben". ldconfig must be installed (*). (*) E.g., with wget http://downloads.qi-hardware.com/software/packages/NanoNote/Ben/2012-10-24/ldconfig_0.9.33.2-1_xburst.ipk opkg install ldconfig_0.9.33.2-1_xburst.ipk scp src/apps/jtag/.libs/jtag ben:/usr/bin/ scp src/.libs/liburjtag.so.0.0.0 ben:/usr/lib/ ssh ben mkdir -p /usr/local/share/urjtag scp -r data/* ben:/usr/local/share/urjtag/ ssh ben ldconfig Enabling the /sys/class/gpio/... interface ------------------------------------------ For simplicity, we use the "gpio" cable driver of UrTAG. This driver requires the Ben kernel to be compiled with CONFIG_GPIO_SYSFS (this option is not available as a module). If /sys/class/gpio does not exist, we need to rebuild the kernel. Prerequisite: you have checked out and set up the openwrt-xburst repository from Qi-Hardware. make kernel_menuconfig Then go to "Device Drivers" > "GPIO Support" and enable "/sys/class/gpio/... (sysfs interface)" (GPIO_SYSFS) Enabling ZRAM ------------- UrTAG spends memory fairly generously and loading a bitstream for the XC6LX45 of Milkymist One is likely to exceed the memory available on the Ben. Since we can't swap on ubifs and we can't use an SD card for swap since the 8:10 card slot is already occupied, the next best choice is to use ZRAM. Note that this is not necessary if the driver for the respective target isn't quite as memory-hungry as the one for Xilinx FPGAs, or if the bitstream is smaller. make kernel_menuconfig Then go to "Device Drivers" and enable "Staging drivers" (STAGING). After that, enter "Staging drivers" and enable "Compressed RAM block device support" (ZRAM). Building and installing the OpenWRT kernel ------------------------------------------ make -j5 scp bin/xburst/openwrt-xburst-qi_lb60-uImage.bin ben: ssh ben flash_eraseall /dev/mtd1 ssh ben nandwrite -p /dev/mtd1 openwrt-xburst-qi_lb60-uImage.bin Using UBB-JTAG-M1 ----------------- First connect UBB-JTAG-M1 to the Milkymist One (powered off) but without inserting UBB into the Ben. This should look like this: http://downloads.qi-hardware.com/people/werner/ubb/jtag/ubb-jtag-m1-j6.jpg Then boot the Ben and disable the MMC driver with echo jz4740-mmc.0 >/sys/bus/platform/drivers/jz4740-mmc/unbind Now UBB-JTAG-M1 can be safely connected to the Ben. After connecting power to the Milkymist One, we can probe it with ben# jtag jtag> cable gpio tdi=107 tdo=105 tck=109 tms=108 jtag> detect For the next step, we need fjmem.bit, e.g., available here: http://milkymist.org/updates/fjmem.bit.bz2 We also need to enable swap space on ZRAM. 32 MB should be sufficient: ben# echo 33554432 >/sys/block/zram0/disksize ben# mkswap /dev/zram0 ben# swapon /dev/zram0 Now fjmem.bit can be loaded and executed: jtag> instruction CFG_OUT 000100 BYPASS jtag> instruction CFG_IN 000101 BYPASS jtag> pld load "fjmem.bit" jtag> initbus fjmem opcode=000010 jtag> detectflash 0 Since the sysfs GPIO interface is rather slow and we make things worse by swapping to compressed RAM, the loading of fjmem.bit takes about four or five minutes. Going faster ------------ In many applications, UrJTAG will be able to run without compressed swap and thus faster. Smaller amounts of data will also make even slow transfers more bearable. To further increase the speed, a Ben-specific GPIO driver could be written that accesses registers directly without the very long detour through sysfs. Finally, even higher speeds could be reached by using the MMC controller to send data, similar to UBB-VGA. For this purpose, CMD and DAT0 have been left unconnected. When connecting them to each other, they could be used to generate fake start bits, signaling the MMC controller to begin a transfer. (See ubb-vga for details.)