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Linux | |||
Prerequisites | |||
avr-gcc / avr-libc / git | |||
Under Gentoo: | Under Gentoo: | ||
emerge -av portage-utils crossdev git | |||
USE="-openmp" crossdev -t avr --without-headers | USE="-openmp" crossdev -t avr --without-headers | ||
Under Ubuntu: | Under Ubuntu: | ||
sudo apt-get install gcc-avr avr-libc git-core | |||
dfu-programmer (for installing) | |||
Download here: http://sourceforge.net/projects/dfu-programmer/files/ | Download here: http://sourceforge.net/projects/dfu-programmer/files/ | ||
Older version available in the Ubuntu repository. | Older version available in the Ubuntu repository. | ||
sudo apt-get install dfu-programmerCloning the repository | |||
The repository uses the LUFA library as a submodule. To clone, use something like: | The repository uses the LUFA library as a submodule. To clone, use something like: | ||
git clone git://github.com/psgroove/psgroove.git | |||
cd psgroove | cd psgroove | ||
git submodule init | git submodule init | ||
git submodule update | git submodule update | ||
Configuring | |||
Chip and board selection can usually be handled in the Makefile. In particular, update the MCU, BOARD, and F_CPU lines. Suggested values: | Chip and board selection can usually be handled in the Makefile. In particular, update the MCU, BOARD, and F_CPU lines. Suggested values: | ||
Teensy 1.0: | Teensy 1.0: | ||
MCU = at90usb162 | |||
BOARD = TEENSY | |||
F_CLOCK = 16000000 | |||
Teensy++ 1.0: | Teensy++ 1.0: | ||
MCU = at90usb646 | |||
BOARD = TEENSY | |||
F_CLOCK = 16000000 | |||
Teensy 2.0: | Teensy 2.0: | ||
MCU = atmega32u4 | |||
BOARD = TEENSY | |||
F_CLOCK = 16000000 | |||
Teensy++ 2.0: | Teensy++ 2.0: | ||
MCU = at90usb1286 | |||
BOARD = TEENSY | |||
F_CLOCK = 16000000 | |||
AT90USBKEY / AT90USBKEY2: | AT90USBKEY / AT90USBKEY2: | ||
MCU = at90usb1287 | |||
BOARD = USBKEY | |||
F_CLOCK = 8000000 | |||
AVROpendous v1.1: | AVROpendous v1.1: | ||
MCU = at90usb162 | |||
BOARD = USER (need to manually attribute LED pins in Board/LEDs.h) | |||
F_CLOCK = 8000000 | |||
ATAVRXPLAIN: | ATAVRXPLAIN: | ||
MCU = at90usb1287 | |||
BOARD = XPLAIN | |||
F_CLOCK = 8000000 | |||
Minimus AVR USB: | Minimus AVR USB: | ||
MCU = at90usb162 | |||
BOARD = USBKEY | |||
F_CLOCK = 16000000 | |||
Building | |||
On Linux, use the AVR GCC toolchain (Debian/Ubuntu package: gcc-avr). | On Linux, use the AVR GCC toolchain (Debian/Ubuntu package: gcc-avr). | ||
make clean | |||
make | make | ||
Programming | |||
Now program psgroove.hex into your board and you're ready to go. For the AT90USBKEY and other chips with a DFU bootloader preinstalled, you can get the dfu-programmer tool, put your board in programming mode, and run | Now program psgroove.hex into your board and you're ready to go. For the AT90USBKEY and other chips with a DFU bootloader preinstalled, you can get the dfu-programmer tool, put your board in programming mode, and run | ||
make dfu | |||
For the Teensy boards, you probably have to use the [Teensy Loader](http://www.pjrc.com/teensy/loader.html) software. | For the Teensy boards, you probably have to use the [Teensy Loader](http://www.pjrc.com/teensy/loader.html) software. | ||
Windows | |||
Download and install WinAVR . | Download and install WinAVR . | ||
Download and install msysgit | Download and install msysgit | ||
After installing msysgit, follow the Cloning the repository, Configuring and Building instructions listed for the Linux section. | After installing msysgit, follow the Cloning the repository, Configuring and Building instructions listed for the Linux section. | ||
Upload the hex to the appropriate device using the appropriate software. | Upload the hex to the appropriate device using the appropriate software. | ||
OSX | |||
Once the prerequisites are installed, this is pretty much the same as the Linux process listed above. | Once the prerequisites are installed, this is pretty much the same as the Linux process listed above. | ||
Prerequisites | |||
Install the following to get started : | Install the following to get started : | ||
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Open a new terminal window and enter the following: | Open a new terminal window and enter the following: | ||
sudo port install git-core dfu-programmer | |||
Everything else | |||
# get the source | # get the source | ||
git clone git://github.com/psgroove/psgroove.git | git clone git://github.com/psgroove/psgroove.git | ||
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# put the board into programming mode | # put the board into programming mode | ||
make dfu | make dfu | ||
Notes | |||
MacPorts includes a portfile for the AVR toolchain, however, the included version of avr-gcc(4.0.2) does not support the AT90USB1287, it may be suitable for other boards. | MacPorts includes a portfile for the AVR toolchain, however, the included version of avr-gcc(4.0.2) does not support the AT90USB1287, it may be suitable for other boards. | ||
Haven't tested the programming part yet, still waiting for a board to arrive. The programming command is likely to be "sudo make dfu". | Haven't tested the programming part yet, still waiting for a board to arrive. The programming command is likely to be "sudo make dfu". | ||
Using | |||
To use this exploit: | To use this exploit: | ||
Hard power cycle your PS3 (using the switch in back, or unplug it) | |||
Plug the dongle into your PS3. | |||
Press the PS3 power button, followed quickly by the eject button. | |||
After a few seconds, the first LED on your dongle should light up. After about 5 seconds, the second LED will light up (or the LED will just go off, if you only have one). This means the exploit worked! You can see the new "Install Package Files" menu option in the game menu. | |||
After a few seconds, the first LED on your dongle should light up. After about 5 seconds, the second LED will light up (or the LED will just go off, if you only have one). This means the exploit worked! You can see the new "Install Package Files" menu option in the game menu. | |||
Board-specific notes | |||
Teensy boards only have one LED, so it will turn off when the exploit succeeds rather than turn green. Older Teensy 1.0 boards also have the polarity inverted. In general, a LED should do something when the board is powered, and do something different when the exploit works. | Teensy boards only have one LED, so it will turn off when the exploit succeeds rather than turn green. Older Teensy 1.0 boards also have the polarity inverted. In general, a LED should do something when the board is powered, and do something different when the exploit works. | ||
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Links | |||
Github Page | Github Page | ||
Retrieved from "http://ps3wiki.lan.st/index.php/PSGroove" | Retrieved from "http://ps3wiki.lan.st/index.php/PSGroove" | ||