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Revision as of 03:43, 12 February 2014
This page documents the Linux port to the Nspire calculator.
Status
New device tree kernel
A separate branch is being worked on for TI-Nspire support to be merged upstream to mainline. This version is a total rewrite of the original code to switch to device trees and currently only has basic support. The current kernel code is not being worked on and once everything is ported into the device tree kernel, it will not be maintained anymore.
You can find the new code in a branch called nspire-dt. Please note, there are currently no nightly builds for the DT branch.
People interested in using this branch also have to compile the device tree blobs in addition to the kernel by running:
make dtbs
and include it in their bootscripts with:
dtb linux/devicetree.tns
Ensure you are using a version of linuxloader2 with a build date after May 11 2013 (or commits later than 0503ca6) for stable device tree support. If your linuxloader2 does not report a build date on startup, you need to upgrade your copy. You can get an updated copy from the TI-Planet nightly builds site.
Hardware support
Classic
Hardware | Possible? | Implemented? | Notes |
---|---|---|---|
CPU | Yes | Yes | |
SDRAM | Yes | Yes | |
SRAM | Yes | Yes | |
GPIO | Yes | Yes | |
UART1 | Yes | Yes | |
I2C | Yes | Yes | |
Watchdog timer | Yes | Yes | |
RTC | Yes | Yes | |
Power management | Yes | WIP | Basic CPU frequency scaling has been implemented |
Timer 1 | Yes | No | |
Timer 2 | Yes | Yes | |
Keypad | Yes | Yes | |
Touchpad | Yes | Yes | |
LCD Contrast/Backlight | Yes | Basic | |
TI-84 Link port | Unknown | No | Do we really need this? |
LED | Yes | No | |
SPI | Yes | No | |
USB OTG | Yes | Yes | |
USB Host | Yes | Yes | |
NAND | Unknown | No | |
LCD | Yes | Yes | |
ADC | Yes | Yes | |
DES encryption/SHA generator | Yes | No | |
Interrupt controller | Yes | Yes |
CX
Hardware | Possible? | Implemented? | Notes |
---|---|---|---|
CPU | Yes | Yes | |
SDRAM | Yes | Yes | |
SRAM | Yes | Yes | |
GPIO | Yes | Yes | |
UART1 | Yes | Yes | |
I2C | Yes | Yes | |
Watchdog timer | Yes | Yes | |
RTC | Yes | Yes | |
Power management | Yes | WIP | Basic CPU frequency scaling has been implemented |
Timer 1 | Yes | No | |
Timer 2 | Yes | Yes | |
Keypad | Yes | Yes | |
Touchpad | Yes | Yes | |
LCD Contrast/Backlight | Yes | Yes | |
TI-84 Link port | Unknown | No | Do we really need this? |
LED | Yes | No | |
SPI | Yes | No | |
USB OTG | Yes | Yes | Current implementation breaks USB Host (see notes) |
USB Host | Yes | USB 1.1 | Uses a workaround but limits speed to USB 1.1 |
NAND | Yes | WIP | Needs a lot of testing. Unstable. Note - driver for a similar chip is available here |
LCD | Yes | Yes | |
ADC | Yes | Yes | |
DES encryption/SHA generator | Yes | No | |
Interrupt controller | Yes | Yes |
Booting
To have something useful running using Linux on the calculator, a bootloader, kernel and rootfs is needed.
Bootloader
Source code: On github
Nightly builds: None.
Binary: TI-Planet
The bootloader is run from the Nspire OS to load everything into memory and execute the kernel.
Usage instructions can be found in the readme
Copy linuxloader.tns to your calculator and run it. Valid commands are: kernel <filename>: Loads a kernel image into memory initrd <filename>: Loads a ramdisk into memory dump: Prints out the current internal state of the bootloader. Useful for debugging. free: Prints out the total amount of memory provided to the bootloader by the Nspire OS and amounts used by the kernel and ramdisks. cmdline [str]: Get/set the kernel command line parameters. mach [id]: Get/set the machine ID that will be provided to Linux upon booting. Useful for overriding the builtin default value without having to recompile. phys [<start> <size>]: Get/set the address and size of physical memory. Useful for overriding the builtin default value without having to recompile. rdsize [size]: Get/set the size of the ramdisk that Linux should create on boot. Leave at 0x0 for the kernel default. probemem: If this is run on an calculator model that isn't directly supported by the bootloader, you can use this to try and guess how much memory the system has. poke <addr> <value>: Write a word to an arbitrary location in the memory address space. peek <addr>: Read a word from an arbitrary location in the memory address space. boot: Boot kernel. The bootloader is also scriptable. Create a text file containing a list of commands to be executed and change the extension to .ll2.tns, and add the following line to your /documents/ndless/ndless.cfg.tns file. ext.ll2=linuxloader2 Then simply open your script file and the loader will execute all the commands in it. A sample one could look like this: kernel linux/zImage.tns initrd linux/initrd.tns cmdline root=/dev/ram boot This should save a lot of typing everytime you need to boot Linux.
Kernel
Source code: On github
Nightly builds: TI-Planet (WIP)
To compile the kernel with default options, first clone the github repo then run:
export ARCH=arm make nspire_defconfig make -j cp arch/arm/boot/zImage /path/to/folder/zImage.tns
Rootfs
Nightly builds: TI-Planet (WIP)
To have programs actually run on the kernel, you need a root filesystem of some sort containing the userspace programs.
For testing and mucking around, a initrd should be enough. It is possible to build one using Buildroot or look around the Omnimaga thread for a pre-built one.
For a larger root filesystem, you could put a filesystem on a USB drive and add root=/dev/sdaX to your kernel command line. You may also need to add rootdelay=10 to give the USB drive time to initialize.
Quirks and technical details
SRAM
When needing to allocate memory from SRAM when developing for the kernel, use the following functions:
void *sram_alloc(unsigned int size, dma_addr_t *dma_addr) void sram_free(dma_addr_t addr, unsigned int size)
UART
Add ,115200n8 to the end of your console= command line options to keep it the same as the Nspire OS.
Keypad
The keymaps can be found in arch/arm/mach-nspire/keypad.c. Each array element represents one bit in Keypads.
Touchpad
There are some weird issues with the Touchpad. After booting Linux, the Touchpad doesn't function correctly under Nspire OS and requires entering diags or a few hard resets to get it back to normal. The exact cause is unknown but it is possible that this behavior is caused by the bootloader not correctly resetting Touchpad controller when the device boots up again so the Nspire OS is still using a Linux-configured Touchpad controller.
It has been half solved by having the Touchpad driver reset the controller on a soft reboot. However, this doesn't happen on hard reboots and will still cause the Nspire OS to not function correctly. Whenever possible, perform a soft reboot in Nspire Linux by using Ctrl+Alt(Var)+Delete(Scratchpad) or using the reboot command.
LCD contrast/backlight
At the moment, contrast settings can be found at /proc/contrast for classic calculators though this will be deprecated soon. The CX already has a working driver for backlight control.
USB
USB support is mostly working. The only thing missing is a USB PHY driver. The USB controller driver is currently unable to switch seamlessly between USB host and USB device mode because of this. Unfortunately, nothing much is known about the USB PHY.
That's probably the same reason why sometimes USB devices aren't recognised in USB host mode - the USB PHY hasn't changed the USB hardware to host mode.
To work around this, we get the Nspire OS to set the right modes in the USB PHY before booting Linux.
For USB Host mode: insert a USB OTG cable's A end or a USB device into the calculator while still inside the Nspire OS before running the bootloader.
For USB Device mode: connect the Nspire to a computer while in Nspire OS before running the bootloader.
The USB hardware on the calculators also provide very little power (something in the double digit milliamps). For anything other than a basic USB drive or a keyboard, a powered USB hub might be required to supply enough power.
Extra notes for CX
Both OTG and USB host work on the CX but since it needs a workaround that can't be integrated into the OTG driver, only one will work at a time. To maintain compatibility, the default is to use the USB host only driver. If you wish to use USB OTG on the CX, simply add cx_usb_otg to your kernel command line arguments.
USB PHY developer notes
On the CX, GPIO 2 is driven low during USB host mode and high during USB peripheral mode. Seems to be GPIO 5 on the classic but untested.
ADC
ADC values can be read at /sys/bus/iio/devices/iio:device0 (310 = 1V).
Newer device tree kernel status
Hardware | Classic | CX | In mainline | Notes |
---|---|---|---|---|
CPU | Yes | Yes | Yes | |
SRAM | Yes | Yes | No | Matter of adding a few lines to the device tree |
GPIO | Yes | Yes | No | Waiting on driver being mainlined |
UART1 | Yes | Yes | Yes | |
I2C | No | No | No | Difficult to cleanly implement on CX |
Watchdog timer | No | No | Should be a matter of adding a few lines to the device tree | |
RTC | No | No | No | Should be a matter of adding a few lines to the device tree |
Power management | No | No | No | Difficult to cleanly implement |
Timer 1 | Yes | Yes | Yes | |
Timer 2 | Yes | Yes | Yes | |
Keypad | Yes | Yes | ||
Touchpad | No | No | Will be possible once I2C is cleared | |
LCD Contrast/Backlight | No | No | No | Should be a matter of adding a few lines to the device tree |
LED | WIP | No | Unlocking the LED is already possible | |
USB OTG | Yes | WIP | Automatic switching between host/device not working | |
NAND | WIP | WIP | No | Dammit, why does the TI-Nspire have such weird NAND controllers to work with? |
LCD | Yes | Yes | ||
ADC | No | No | No | |
DES encryption/SHA generator | No | No | No | |
Interrupt controller | Yes | Yes | Yes |