a5150c83a2
* STM32F1 HAL Adding files for STM32F1 HAL based on libmaple/stm32duino core. Current persistent_store uses cardreader changes to be sent in separate commit, but could be changed to use i2c eeprom. There is another persistent_store implementation that uses the MCU flash memory to emulate eeprom Adding readme with some information about the stm32 HAL. * Switch to Timer4 to avoid a hard reset on STM32F103C6 boards On bluepill STM32F103C6 boards, using Timer5 results in a error() vector call. Switch to 4 since these are both general purpose, 16 bit timers. * Add support for EEPROM emulation using Flash Some low end machines doe not have EEPROM support. Simulate it using the last two pages of flash. Flash does not allow rewrite between erases, so skip writing the working version if that's enabled. * Basic Pins for a malyan M200 This is a work in progress to go hand in hand with the STM32 work. * Add support for ADC with DMA. This work has exposed a problem with the pin enumerations in STM boards vs what marlin expects (i.e, try defining PA0 as a temp pin). The hack can be removed with we go to fastio completely. To see this work, set something in adc_pins to a value like PA0 and connect your pullup resistor'd thermistor. * Missing file - change HAL_adc_init to actually do something We have an actual ADC init function now. * Remove pinmode hack Remove the pin mode hack that I was using to init PA0. Updated Readme.md * Several changes to timers and GPIO Faster GPIO, and faster timer functions by accesing registers and libmaple. Still more changes pending for the Timer's code to skip using the HardwareTimer class altogether. Switch all enums to be within #defines This change allows a user to have, for instance, TEMP_4 and TEMP_BED definied but nothing else. The enums which are not defined move "out", allowing the first ones to take the slots in the enum, and since the array is sized on ADC_PIN_COUNT, we always have the right size data and in order. * Update Malyan M200 pins Update Malyan M200 pins with correct fan values. * Test all pins on actual hardware, update definitions Some of the pin definitions were from knowlege base/pdfs. Now they've been tested against actual hardware. This should be very close to final. * Update HAL_timers_Stm32f1.cpp * Add sample configurations for Malyan M200 Add sample configuration for Malyan M200 without bed leveling, and move fan to auto cool E0 since this printer by default has only one fan. Choose the timer based on MCU defintion. Timer5 is not valid on C8/CB class boards, so use Timer4 for the step timer. readme.md update * Updates to timers, and some stm32 boards definitiions * Correct pin toggle macro. * Remove duplicated Malyan M200 entry from pins.h * Update configuration_store.cpp * Formatting, indentation * Formatting in HAL_Stm32f1.cpp |
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.github | 8 years ago | |
Marlin | 7 years ago | |
buildroot | 7 years ago | |
frameworks/CMSIS | 7 years ago | |
.gitattributes | 7 years ago | |
.gitignore | 7 years ago | |
.travis.yml | 7 years ago | |
LICENSE | 9 years ago | |
README.md | 7 years ago | |
platformio.ini | 7 years ago |
README.md
Marlin 3D Printer Firmware
Additional documentation can be found at the Marlin Home Page. Please test this firmware and let us know if it misbehaves in any way. Volunteers are standing by!
Marlin 2.0 Bugfix Branch
Not for production use. Use with caution!
Marlin 2.0 is bringing open source RepRap firmware to the next level with support of much faster 32-bit processor boards.
This branch is for patches to the latest 2.0.x release version. Periodically this branch will form the basis for the next minor 2.0.x release.
Download earlier versions of Marlin on the Releases page.
Hardware Abstraction Layer (HAL)
Marlin 2.0 adds a new abstraction layer so that Marlin can build and run on 32-bit boards while still retaining the ability to build and run on 8-bit AVR. In this way, new features can be enhanced for more powerful platforms while still supporting AVR, whereas splitting up the code makes it hard to follow these changes and keep them in sync.
Current HALs
name | processor | speed | flash | sram | logic | fpu |
---|---|---|---|---|---|---|
Arduino AVR | ATmega, ATTiny, etc. | 16-20MHz | 64-256k | 2-8k | 5V | no |
Teensy++ 2.0 | AT90USB1286 | 16MHz | 128k | 8k | 5V | no |
Due, RAMPS-FD, etc. | SAM3X8E ARM-Cortex M3 | 84MHz | 512k | 64+32k | 3.3V | no |
Re-ARM | LPC1768 ARM-Cortex M3 | 100MHz | 512k | 32+16+16k | 3.3-5V | no |
MKS SBASE | LPC1768 ARM-Cortex M3 | 100MHz | 512k | 32+16+16k | 3.3-5V | no |
Azteeg X5 GT | LPC1769 ARM-Cortex M3 | 120MHz | 512k | 32+16+16k | 3.3-5V | no |
Teensy 3.5 | ARM-Cortex M4 | 120MHz | 512k | 192k | 3.3-5V | yes |
Teensy 3.6 | ARM-Cortex M4 | 180MHz | 1M | 256k | 3.3V | yes |
HALs in Development
name | processor | speed | flash | sram | logic | fpu |
---|---|---|---|---|---|---|
STEVAL-3DP001V1 | STM32F401VE Arm-Cortex M4 | 84MHz | 512k | 64+32k | 3.3-5V | yes |
Smoothieboard | LPC1769 ARM-Cortex M3 | 120MHz | 512k | 64k | 3.3-5V | no |
Submitting Patches
Proposed patches should be submitted as a Pull Request against the (bugfix-2.0.x) branch.
- This branch is for fixing bugs and integrating any new features for the duration of the Marlin 2.0.x life-cycle.
- Follow the Coding Standards to gain points with the maintainers.
- Please submit your questions and concerns to the Issue Queue.
RepRap.org Wiki Page
Credits
The current Marlin dev team consists of:
- Roxanne Neufeld [@Roxy-3D] - English
- Scott Lahteine [@thinkyhead] - English
- Bob Kuhn [@Bob-the-Kuhn] - English
- Chris Pepper [@p3p] - English
- João Brazio [@jbrazio] - Portuguese, English
License
Marlin is published under the GPL license because we believe in open development. The GPL comes with both rights and obligations. Whether you use Marlin firmware as the driver for your open or closed-source product, you must keep Marlin open, and you must provide your compatible Marlin source code to end users upon request. The most straightforward way to comply with the Marlin license is to make a fork of Marlin on Github, perform your modifications, and direct users to your modified fork.
While we can't prevent the use of this code in products (3D printers, CNC, etc.) that are closed source or crippled by a patent, we would prefer that you choose another firmware or, better yet, make your own.