adding noah keyboard (#7432)

* adding noah keyboard

* Update keyboards/matrix/noah/config.h

Co-Authored-By: Drashna Jaelre <drashna@live.com>

* Update keyboards/matrix/noah/noah.c

Co-Authored-By: Drashna Jaelre <drashna@live.com>
master
yulei 2019-11-27 23:54:02 +08:00 committed by MechMerlin
parent 2b318ba01b
commit 265c415f5e
21 changed files with 5464 additions and 0 deletions

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/*
ChibiOS - Copyright (C) 2006..2016 Giovanni Di Sirio
Licensed under the Apache License, Version 2.0 (the "License");
you may not use this file except in compliance with the License.
You may obtain a copy of the License at
http://www.apache.org/licenses/LICENSE-2.0
Unless required by applicable law or agreed to in writing, software
distributed under the License is distributed on an "AS IS" BASIS,
WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
See the License for the specific language governing permissions and
limitations under the License.
*/
/*
* This file has been automatically generated using ChibiStudio board
* generator plugin. Do not edit manually.
*/
#include "hal.h"
#if HAL_USE_PAL || defined(__DOXYGEN__)
/**
* @brief PAL setup.
* @details Digital I/O ports static configuration as defined in @p board.h.
* This variable is used by the HAL when initializing the PAL driver.
*/
const PALConfig pal_default_config = {
#if STM32_HAS_GPIOA
{VAL_GPIOA_MODER, VAL_GPIOA_OTYPER, VAL_GPIOA_OSPEEDR, VAL_GPIOA_PUPDR,
VAL_GPIOA_ODR, VAL_GPIOA_AFRL, VAL_GPIOA_AFRH},
#endif
#if STM32_HAS_GPIOB
{VAL_GPIOB_MODER, VAL_GPIOB_OTYPER, VAL_GPIOB_OSPEEDR, VAL_GPIOB_PUPDR,
VAL_GPIOB_ODR, VAL_GPIOB_AFRL, VAL_GPIOB_AFRH},
#endif
#if STM32_HAS_GPIOC
{VAL_GPIOC_MODER, VAL_GPIOC_OTYPER, VAL_GPIOC_OSPEEDR, VAL_GPIOC_PUPDR,
VAL_GPIOC_ODR, VAL_GPIOC_AFRL, VAL_GPIOC_AFRH},
#endif
#if STM32_HAS_GPIOD
{VAL_GPIOD_MODER, VAL_GPIOD_OTYPER, VAL_GPIOD_OSPEEDR, VAL_GPIOD_PUPDR,
VAL_GPIOD_ODR, VAL_GPIOD_AFRL, VAL_GPIOD_AFRH},
#endif
#if STM32_HAS_GPIOE
{VAL_GPIOE_MODER, VAL_GPIOE_OTYPER, VAL_GPIOE_OSPEEDR, VAL_GPIOE_PUPDR,
VAL_GPIOE_ODR, VAL_GPIOE_AFRL, VAL_GPIOE_AFRH},
#endif
#if STM32_HAS_GPIOF
{VAL_GPIOF_MODER, VAL_GPIOF_OTYPER, VAL_GPIOF_OSPEEDR, VAL_GPIOF_PUPDR,
VAL_GPIOF_ODR, VAL_GPIOF_AFRL, VAL_GPIOF_AFRH},
#endif
#if STM32_HAS_GPIOG
{VAL_GPIOG_MODER, VAL_GPIOG_OTYPER, VAL_GPIOG_OSPEEDR, VAL_GPIOG_PUPDR,
VAL_GPIOG_ODR, VAL_GPIOG_AFRL, VAL_GPIOG_AFRH},
#endif
#if STM32_HAS_GPIOH
{VAL_GPIOH_MODER, VAL_GPIOH_OTYPER, VAL_GPIOH_OSPEEDR, VAL_GPIOH_PUPDR,
VAL_GPIOH_ODR, VAL_GPIOH_AFRL, VAL_GPIOH_AFRH},
#endif
#if STM32_HAS_GPIOI
{VAL_GPIOI_MODER, VAL_GPIOI_OTYPER, VAL_GPIOI_OSPEEDR, VAL_GPIOI_PUPDR,
VAL_GPIOI_ODR, VAL_GPIOI_AFRL, VAL_GPIOI_AFRH}
#endif
};
#endif
void enter_bootloader_mode_if_requested(void);
/**
* @brief Early initialization code.
* @details This initialization must be performed just after stack setup
* and before any other initialization.
*/
void __early_init(void) {
enter_bootloader_mode_if_requested();
stm32_clock_init();
}
#if HAL_USE_SDC || defined(__DOXYGEN__)
/**
* @brief SDC card detection.
*/
bool sdc_lld_is_card_inserted(SDCDriver *sdcp) {
(void)sdcp;
/* TODO: Fill the implementation.*/
return true;
}
/**
* @brief SDC card write protection detection.
*/
bool sdc_lld_is_write_protected(SDCDriver *sdcp) {
(void)sdcp;
/* TODO: Fill the implementation.*/
return false;
}
#endif /* HAL_USE_SDC */
#if HAL_USE_MMC_SPI || defined(__DOXYGEN__)
/**
* @brief MMC_SPI card detection.
*/
bool mmc_lld_is_card_inserted(MMCDriver *mmcp) {
(void)mmcp;
/* TODO: Fill the implementation.*/
return true;
}
/**
* @brief MMC_SPI card write protection detection.
*/
bool mmc_lld_is_write_protected(MMCDriver *mmcp) {
(void)mmcp;
/* TODO: Fill the implementation.*/
return false;
}
#endif
/**
* @brief Board-specific initialization code.
* @todo Add your board-specific code, if any.
*/
void boardInit(void) {
}

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# List of all the board related files.
BOARDSRC = $(BOARD_PATH)/boards/noah_bd/board.c
# Required include directories
BOARDINC = $(BOARD_PATH)/boards/noah_bd

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/* Address for jumping to bootloader on STM32 chips. */
/* It is chip dependent, the correct number can be looked up here:
* http://www.st.com/web/en/resource/technical/document/application_note/CD00167594.pdf
* This also requires a patch to chibios:
* <tmk_dir>/tmk_core/tool/chibios/ch-bootloader-jump.patch
*/
#define STM32_BOOTLOADER_ADDRESS 0x1FFF0000

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/*
ChibiOS - Copyright (C) 2006..2016 Giovanni Di Sirio
Licensed under the Apache License, Version 2.0 (the "License");
you may not use this file except in compliance with the License.
You may obtain a copy of the License at
http://www.apache.org/licenses/LICENSE-2.0
Unless required by applicable law or agreed to in writing, software
distributed under the License is distributed on an "AS IS" BASIS,
WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
See the License for the specific language governing permissions and
limitations under the License.
*/
/**
* @file templates/chconf.h
* @brief Configuration file template.
* @details A copy of this file must be placed in each project directory, it
* contains the application specific kernel settings.
*
* @addtogroup config
* @details Kernel related settings and hooks.
* @{
*/
#ifndef CHCONF_H
#define CHCONF_H
#define _CHIBIOS_RT_CONF_
/*===========================================================================*/
/**
* @name System timers settings
* @{
*/
/*===========================================================================*/
/**
* @brief System time counter resolution.
* @note Allowed values are 16 or 32 bits.
*/
#define CH_CFG_ST_RESOLUTION 32
/**
* @brief System tick frequency.
* @details Frequency of the system timer that drives the system ticks. This
* setting also defines the system tick time unit.
*/
#define CH_CFG_ST_FREQUENCY 10000
/**
* @brief Time delta constant for the tick-less mode.
* @note If this value is zero then the system uses the classic
* periodic tick. This value represents the minimum number
* of ticks that is safe to specify in a timeout directive.
* The value one is not valid, timeouts are rounded up to
* this value.
*/
#define CH_CFG_ST_TIMEDELTA 2
/** @} */
/*===========================================================================*/
/**
* @name Kernel parameters and options
* @{
*/
/*===========================================================================*/
/**
* @brief Round robin interval.
* @details This constant is the number of system ticks allowed for the
* threads before preemption occurs. Setting this value to zero
* disables the preemption for threads with equal priority and the
* round robin becomes cooperative. Note that higher priority
* threads can still preempt, the kernel is always preemptive.
* @note Disabling the round robin preemption makes the kernel more compact
* and generally faster.
* @note The round robin preemption is not supported in tickless mode and
* must be set to zero in that case.
*/
#define CH_CFG_TIME_QUANTUM 0
/**
* @brief Managed RAM size.
* @details Size of the RAM area to be managed by the OS. If set to zero
* then the whole available RAM is used. The core memory is made
* available to the heap allocator and/or can be used directly through
* the simplified core memory allocator.
*
* @note In order to let the OS manage the whole RAM the linker script must
* provide the @p __heap_base__ and @p __heap_end__ symbols.
* @note Requires @p CH_CFG_USE_MEMCORE.
*/
#define CH_CFG_MEMCORE_SIZE 0
/**
* @brief Idle thread automatic spawn suppression.
* @details When this option is activated the function @p chSysInit()
* does not spawn the idle thread. The application @p main()
* function becomes the idle thread and must implement an
* infinite loop.
*/
#define CH_CFG_NO_IDLE_THREAD FALSE
/* Use __WFI in the idle thread for waiting. Does lower the power
* consumption. */
#define CORTEX_ENABLE_WFI_IDLE TRUE
/** @} */
/*===========================================================================*/
/**
* @name Performance options
* @{
*/
/*===========================================================================*/
/**
* @brief OS optimization.
* @details If enabled then time efficient rather than space efficient code
* is used when two possible implementations exist.
*
* @note This is not related to the compiler optimization options.
* @note The default is @p TRUE.
*/
#define CH_CFG_OPTIMIZE_SPEED TRUE
/** @} */
/*===========================================================================*/
/**
* @name Subsystem options
* @{
*/
/*===========================================================================*/
/**
* @brief Time Measurement APIs.
* @details If enabled then the time measurement APIs are included in
* the kernel.
*
* @note The default is @p TRUE.
*/
#define CH_CFG_USE_TM TRUE
/**
* @brief Threads registry APIs.
* @details If enabled then the registry APIs are included in the kernel.
*
* @note The default is @p TRUE.
*/
#define CH_CFG_USE_REGISTRY TRUE
/**
* @brief Threads synchronization APIs.
* @details If enabled then the @p chThdWait() function is included in
* the kernel.
*
* @note The default is @p TRUE.
*/
#define CH_CFG_USE_WAITEXIT TRUE
/**
* @brief Semaphores APIs.
* @details If enabled then the Semaphores APIs are included in the kernel.
*
* @note The default is @p TRUE.
*/
#define CH_CFG_USE_SEMAPHORES TRUE
/**
* @brief Semaphores queuing mode.
* @details If enabled then the threads are enqueued on semaphores by
* priority rather than in FIFO order.
*
* @note The default is @p FALSE. Enable this if you have special
* requirements.
* @note Requires @p CH_CFG_USE_SEMAPHORES.
*/
#define CH_CFG_USE_SEMAPHORES_PRIORITY FALSE
/**
* @brief Mutexes APIs.
* @details If enabled then the mutexes APIs are included in the kernel.
*
* @note The default is @p TRUE.
*/
#define CH_CFG_USE_MUTEXES TRUE
/**
* @brief Enables recursive behavior on mutexes.
* @note Recursive mutexes are heavier and have an increased
* memory footprint.
*
* @note The default is @p FALSE.
* @note Requires @p CH_CFG_USE_MUTEXES.
*/
#define CH_CFG_USE_MUTEXES_RECURSIVE FALSE
/**
* @brief Conditional Variables APIs.
* @details If enabled then the conditional variables APIs are included
* in the kernel.
*
* @note The default is @p TRUE.
* @note Requires @p CH_CFG_USE_MUTEXES.
*/
#define CH_CFG_USE_CONDVARS TRUE
/**
* @brief Conditional Variables APIs with timeout.
* @details If enabled then the conditional variables APIs with timeout
* specification are included in the kernel.
*
* @note The default is @p TRUE.
* @note Requires @p CH_CFG_USE_CONDVARS.
*/
#define CH_CFG_USE_CONDVARS_TIMEOUT TRUE
/**
* @brief Events Flags APIs.
* @details If enabled then the event flags APIs are included in the kernel.
*
* @note The default is @p TRUE.
*/
#define CH_CFG_USE_EVENTS TRUE
/**
* @brief Events Flags APIs with timeout.
* @details If enabled then the events APIs with timeout specification
* are included in the kernel.
*
* @note The default is @p TRUE.
* @note Requires @p CH_CFG_USE_EVENTS.
*/
#define CH_CFG_USE_EVENTS_TIMEOUT TRUE
/**
* @brief Synchronous Messages APIs.
* @details If enabled then the synchronous messages APIs are included
* in the kernel.
*
* @note The default is @p TRUE.
*/
#define CH_CFG_USE_MESSAGES TRUE
/**
* @brief Synchronous Messages queuing mode.
* @details If enabled then messages are served by priority rather than in
* FIFO order.
*
* @note The default is @p FALSE. Enable this if you have special
* requirements.
* @note Requires @p CH_CFG_USE_MESSAGES.
*/
#define CH_CFG_USE_MESSAGES_PRIORITY FALSE
/**
* @brief Mailboxes APIs.
* @details If enabled then the asynchronous messages (mailboxes) APIs are
* included in the kernel.
*
* @note The default is @p TRUE.
* @note Requires @p CH_CFG_USE_SEMAPHORES.
*/
#define CH_CFG_USE_MAILBOXES TRUE
/**
* @brief Core Memory Manager APIs.
* @details If enabled then the core memory manager APIs are included
* in the kernel.
*
* @note The default is @p TRUE.
*/
#define CH_CFG_USE_MEMCORE TRUE
/**
* @brief Heap Allocator APIs.
* @details If enabled then the memory heap allocator APIs are included
* in the kernel.
*
* @note The default is @p TRUE.
* @note Requires @p CH_CFG_USE_MEMCORE and either @p CH_CFG_USE_MUTEXES or
* @p CH_CFG_USE_SEMAPHORES.
* @note Mutexes are recommended.
*/
#define CH_CFG_USE_HEAP TRUE
/**
* @brief Memory Pools Allocator APIs.
* @details If enabled then the memory pools allocator APIs are included
* in the kernel.
*
* @note The default is @p TRUE.
*/
#define CH_CFG_USE_MEMPOOLS TRUE
/**
* @brief Dynamic Threads APIs.
* @details If enabled then the dynamic threads creation APIs are included
* in the kernel.
*
* @note The default is @p TRUE.
* @note Requires @p CH_CFG_USE_WAITEXIT.
* @note Requires @p CH_CFG_USE_HEAP and/or @p CH_CFG_USE_MEMPOOLS.
*/
#define CH_CFG_USE_DYNAMIC TRUE
/** @} */
/*===========================================================================*/
/**
* @name Debug options
* @{
*/
/*===========================================================================*/
/**
* @brief Debug option, kernel statistics.
*
* @note The default is @p FALSE.
*/
#define CH_DBG_STATISTICS FALSE
/**
* @brief Debug option, system state check.
* @details If enabled the correct call protocol for system APIs is checked
* at runtime.
*
* @note The default is @p FALSE.
*/
#define CH_DBG_SYSTEM_STATE_CHECK FALSE
/**
* @brief Debug option, parameters checks.
* @details If enabled then the checks on the API functions input
* parameters are activated.
*
* @note The default is @p FALSE.
*/
#define CH_DBG_ENABLE_CHECKS FALSE
/**
* @brief Debug option, consistency checks.
* @details If enabled then all the assertions in the kernel code are
* activated. This includes consistency checks inside the kernel,
* runtime anomalies and port-defined checks.
*
* @note The default is @p FALSE.
*/
#define CH_DBG_ENABLE_ASSERTS FALSE
/**
* @brief Debug option, trace buffer.
* @details If enabled then the trace buffer is activated.
*
* @note The default is @p CH_DBG_TRACE_MASK_DISABLED.
*/
#define CH_DBG_TRACE_MASK CH_DBG_TRACE_MASK_DISABLED
/**
* @brief Trace buffer entries.
* @note The trace buffer is only allocated if @p CH_DBG_TRACE_MASK is
* different from @p CH_DBG_TRACE_MASK_DISABLED.
*/
#define CH_DBG_TRACE_BUFFER_SIZE 128
/**
* @brief Debug option, stack checks.
* @details If enabled then a runtime stack check is performed.
*
* @note The default is @p FALSE.
* @note The stack check is performed in a architecture/port dependent way.
* It may not be implemented or some ports.
* @note The default failure mode is to halt the system with the global
* @p panic_msg variable set to @p NULL.
*/
#define CH_DBG_ENABLE_STACK_CHECK FALSE
/**
* @brief Debug option, stacks initialization.
* @details If enabled then the threads working area is filled with a byte
* value when a thread is created. This can be useful for the
* runtime measurement of the used stack.
*
* @note The default is @p FALSE.
*/
#define CH_DBG_FILL_THREADS FALSE
/**
* @brief Debug option, threads profiling.
* @details If enabled then a field is added to the @p thread_t structure that
* counts the system ticks occurred while executing the thread.
*
* @note The default is @p FALSE.
* @note This debug option is not currently compatible with the
* tickless mode.
*/
#define CH_DBG_THREADS_PROFILING FALSE
/** @} */
/*===========================================================================*/
/**
* @name Kernel hooks
* @{
*/
/*===========================================================================*/
/**
* @brief Threads descriptor structure extension.
* @details User fields added to the end of the @p thread_t structure.
*/
#define CH_CFG_THREAD_EXTRA_FIELDS \
/* Add threads custom fields here.*/
/**
* @brief Threads initialization hook.
* @details User initialization code added to the @p chThdInit() API.
*
* @note It is invoked from within @p chThdInit() and implicitly from all
* the threads creation APIs.
*/
#define CH_CFG_THREAD_INIT_HOOK(tp) { \
/* Add threads initialization code here.*/ \
}
/**
* @brief Threads finalization hook.
* @details User finalization code added to the @p chThdExit() API.
*/
#define CH_CFG_THREAD_EXIT_HOOK(tp) { \
/* Add threads finalization code here.*/ \
}
/**
* @brief Context switch hook.
* @details This hook is invoked just before switching between threads.
*/
#define CH_CFG_CONTEXT_SWITCH_HOOK(ntp, otp) { \
/* Context switch code here.*/ \
}
/**
* @brief ISR enter hook.
*/
#define CH_CFG_IRQ_PROLOGUE_HOOK() { \
/* IRQ prologue code here.*/ \
}
/**
* @brief ISR exit hook.
*/
#define CH_CFG_IRQ_EPILOGUE_HOOK() { \
/* IRQ epilogue code here.*/ \
}
#define ARM_WFI_IMPL __WFI
/**
* @brief Idle thread enter hook.
* @note This hook is invoked within a critical zone, no OS functions
* should be invoked from here.
* @note This macro can be used to activate a power saving mode.
*/
#define CH_CFG_IDLE_ENTER_HOOK() { \
/* Idle-enter code here.*/ \
}
/**
* @brief Idle thread leave hook.
* @note This hook is invoked within a critical zone, no OS functions
* should be invoked from here.
* @note This macro can be used to deactivate a power saving mode.
*/
#define CH_CFG_IDLE_LEAVE_HOOK() { \
/* Idle-leave code here.*/ \
}
/**
* @brief Idle Loop hook.
* @details This hook is continuously invoked by the idle thread loop.
*/
#define CH_CFG_IDLE_LOOP_HOOK() { \
/* Idle loop code here.*/ \
}
/**
* @brief System tick event hook.
* @details This hook is invoked in the system tick handler immediately
* after processing the virtual timers queue.
*/
#define CH_CFG_SYSTEM_TICK_HOOK() { \
/* System tick event code here.*/ \
}
/**
* @brief System halt hook.
* @details This hook is invoked in case to a system halting error before
* the system is halted.
*/
#define CH_CFG_SYSTEM_HALT_HOOK(reason) { \
/* System halt code here.*/ \
}
/**
* @brief Trace hook.
* @details This hook is invoked each time a new record is written in the
* trace buffer.
*/
#define CH_CFG_TRACE_HOOK(tep) { \
/* Trace code here.*/ \
}
/** @} */
/*===========================================================================*/
/* Port-specific settings (override port settings defaulted in chcore.h). */
/*===========================================================================*/
#endif /* CHCONF_H */
/** @} */

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/**
* config.h
*
*/
#pragma once
/* USB Device descriptor parameter */
#define VENDOR_ID 0x4D58 // MX
#define PRODUCT_ID 0x0065 // noah 65
#define DEVICE_VER 0x0001
#define MANUFACTURER matrix
#define PRODUCT NOAH
#define DESCRIPTION 65% keybaord of the Matrix abel family
/* key matrix size */
#define MATRIX_ROWS 5
#define MATRIX_COLS 15
#define DIODE_DIRECTION COL2ROW
#define DEBOUNCING_DELAY 5
// i2c setting
#define USE_I2CV1
#define I2C1_SCL 8
#define I2C1_SDA 9
#define I2C1_CLOCK_SPEED 400000
#define I2C1_DUTY_CYCLE FAST_DUTY_CYCLE_2
#define PAL_MODE_STM32_ALTERNATE_OPENDRAIN (PAL_MODE_ALTERNATE(4) | PAL_STM32_OTYPE_OPENDRAIN)
// rgb matrix setting
#define DRIVER_ADDR_1 0b1110100
#define DRIVER_ADDR_2 0b1110110
#define DRIVER_COUNT 2
#define DRIVER_1_LED_TOTAL 36
#define DRIVER_2_LED_TOTAL 36
#define DRIVER_LED_TOTAL (DRIVER_1_LED_TOTAL + DRIVER_2_LED_TOTAL)
/* indicator rgb */
#define WS2812_LED_N 7
#define RGBLED_NUM WS2812_LED_N
#define WS2812_TIM_N 3
#define WS2812_TIM_CH 3
#define PORT_WS2812 GPIOB
#define PIN_WS2812 1
#define WS2812_DMA_STREAM STM32_DMA1_STREAM2 // DMA stream for TIMx_UP (look up in reference manual under DMA Channel selection)
#define WS2812_DMA_CHANNEL 5 // DMA channel for TIMx_UP
#define RGBLIGHT_ANIMATIONS
//#define WS2812_EXTERNAL_PULLUP
// tapping setting
#define TAPPING_TERM 200
#define RETRO_TAPPING
#define PERMISSIVE_HOLD

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/**
******************************************************************************
* @file EEPROM/EEPROM_Emulation/src/eeprom.c
* @author MCD Application Team
* @brief This file provides all the EEPROM emulation firmware functions.
******************************************************************************
* @attention
*
* <h2><center>&copy; Copyright <EFBFBD> 2017 STMicroelectronics International N.V.
* All rights reserved.</center></h2>
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted, provided that the following conditions are met:
*
* 1. Redistribution of source code must retain the above copyright notice,
* this list of conditions and the following disclaimer.
* 2. Redistributions in binary form must reproduce the above copyright notice,
* this list of conditions and the following disclaimer in the documentation
* and/or other materials provided with the distribution.
* 3. Neither the name of STMicroelectronics nor the names of other
* contributors to this software may be used to endorse or promote products
* derived from this software without specific written permission.
* 4. This software, including modifications and/or derivative works of this
* software, must execute solely and exclusively on microcontroller or
* microprocessor devices manufactured by or for STMicroelectronics.
* 5. Redistribution and use of this software other than as permitted under
* this license is void and will automatically terminate your rights under
* this license.
*
* THIS SOFTWARE IS PROVIDED BY STMICROELECTRONICS AND CONTRIBUTORS "AS IS"
* AND ANY EXPRESS, IMPLIED OR STATUTORY WARRANTIES, INCLUDING, BUT NOT
* LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY, FITNESS FOR A
* PARTICULAR PURPOSE AND NON-INFRINGEMENT OF THIRD PARTY INTELLECTUAL PROPERTY
* RIGHTS ARE DISCLAIMED TO THE FULLEST EXTENT PERMITTED BY LAW. IN NO EVENT
* SHALL STMICROELECTRONICS OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT,
* INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
* LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA,
* OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF
* LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING
* NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE,
* EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
*
******************************************************************************
*/
/** @addtogroup EEPROM_Emulation
* @{
*/
/* Includes ------------------------------------------------------------------*/
#include "eeprom_f4.h"
/* Private typedef -----------------------------------------------------------*/
/* Private define ------------------------------------------------------------*/
/* Private macro -------------------------------------------------------------*/
/* Private variables ---------------------------------------------------------*/
/* Global variable used to store variable value in read sequence */
uint16_t DataVar = 0;
/* Virtual address defined by the user: 0xFFFF value is prohibited */
extern uint16_t VirtAddVarTab[NB_OF_VAR];
/* Private function prototypes -----------------------------------------------*/
/* Private functions ---------------------------------------------------------*/
static HAL_StatusTypeDef EE_Format(void);
static uint16_t EE_FindValidPage(uint8_t Operation);
static uint16_t EE_VerifyPageFullWriteVariable(uint16_t VirtAddress, uint16_t Data);
static uint16_t EE_PageTransfer(uint16_t VirtAddress, uint16_t Data);
static uint16_t EE_VerifyPageFullyErased(uint32_t Address);
/**
* @brief Restore the pages to a known good state in case of page's status
* corruption after a power loss.
* @param None.
* @retval - Flash error code: on write Flash error
* - FLASH_COMPLETE: on success
*/
uint16_t EE_Init(void)
{
uint16_t PageStatus0 = 6, PageStatus1 = 6;
uint16_t VarIdx = 0;
uint16_t EepromStatus = 0, ReadStatus = 0;
int16_t x = -1;
HAL_StatusTypeDef FlashStatus;
FLASH_UnlockF4();
/* Get Page0 status */
PageStatus0 = (*(__IO uint16_t*)PAGE0_BASE_ADDRESS);
/* Get Page1 status */
PageStatus1 = (*(__IO uint16_t*)PAGE1_BASE_ADDRESS);
/* Check for invalid header states and repair if necessary */
switch (PageStatus0)
{
case ERASED:
if (PageStatus1 == VALID_PAGE) /* Page0 erased, Page1 valid */
{
/* Erase Page0 */
if(!EE_VerifyPageFullyErased(PAGE0_BASE_ADDRESS))
{
FlashStatus = FLASH_EraseSectorF4(PAGE0_ID);
/* If erase operation was failed, a Flash error code is returned */
if (FlashStatus != HAL_OK)
{
return FlashStatus;
}
}
}
else if (PageStatus1 == RECEIVE_DATA) /* Page0 erased, Page1 receive */
{
/* Erase Page0 */
if(!EE_VerifyPageFullyErased(PAGE0_BASE_ADDRESS))
{
FlashStatus = FLASH_EraseSectorF4(PAGE1_ID);
/* If erase operation was failed, a Flash error code is returned */
if (FlashStatus != HAL_OK)
{
return FlashStatus;
}
}
/* Mark Page1 as valid */
FlashStatus = FLASH_ProgramHalfWordF4(PAGE1_BASE_ADDRESS, VALID_PAGE);
/* If program operation was failed, a Flash error code is returned */
if (FlashStatus != HAL_OK)
{
return FlashStatus;
}
}
else /* First EEPROM access (Page0&1 are erased) or invalid state -> format EEPROM */
{
/* Erase both Page0 and Page1 and set Page0 as valid page */
FlashStatus = EE_Format();
/* If erase/program operation was failed, a Flash error code is returned */
if (FlashStatus != HAL_OK)
{
return FlashStatus;
}
}
break;
case RECEIVE_DATA:
if (PageStatus1 == VALID_PAGE) /* Page0 receive, Page1 valid */
{
/* Transfer data from Page1 to Page0 */
for (VarIdx = 0; VarIdx < NB_OF_VAR; VarIdx++)
{
if (( *(__IO uint16_t*)(PAGE0_BASE_ADDRESS + 6)) == VirtAddVarTab[VarIdx])
{
x = VarIdx;
}
if (VarIdx != x)
{
/* Read the last variables' updates */
ReadStatus = EE_ReadVariable(VirtAddVarTab[VarIdx], &DataVar);
/* In case variable corresponding to the virtual address was found */
if (ReadStatus != 0x1)
{
/* Transfer the variable to the Page0 */
EepromStatus = EE_VerifyPageFullWriteVariable(VirtAddVarTab[VarIdx], DataVar);
/* If program operation was failed, a Flash error code is returned */
if (EepromStatus != HAL_OK)
{
return EepromStatus;
}
}
}
}
/* Mark Page0 as valid */
FlashStatus = FLASH_ProgramHalfWordF4(PAGE0_BASE_ADDRESS, VALID_PAGE);
/* If program operation was failed, a Flash error code is returned */
if (FlashStatus != HAL_OK)
{
return FlashStatus;
}
/* Erase Page1 */
if(!EE_VerifyPageFullyErased(PAGE1_BASE_ADDRESS))
{
FlashStatus = FLASH_EraseSectorF4(PAGE1_ID);
/* If erase operation was failed, a Flash error code is returned */
if (FlashStatus != HAL_OK)
{
return FlashStatus;
}
}
}
else if (PageStatus1 == ERASED) /* Page0 receive, Page1 erased */
{
/* Erase Page1 */
if(!EE_VerifyPageFullyErased(PAGE1_BASE_ADDRESS))
{
FlashStatus = FLASH_EraseSectorF4(PAGE1_ID);
/* If erase operation was failed, a Flash error code is returned */
if (FlashStatus != HAL_OK)
{
return FlashStatus;
}
}
/* Mark Page0 as valid */
FlashStatus = FLASH_ProgramHalfWordF4(PAGE0_BASE_ADDRESS, VALID_PAGE);
/* If program operation was failed, a Flash error code is returned */
if (FlashStatus != HAL_OK)
{
return FlashStatus;
}
}
else /* Invalid state -> format eeprom */
{
/* Erase both Page0 and Page1 and set Page0 as valid page */
FlashStatus = EE_Format();
/* If erase/program operation was failed, a Flash error code is returned */
if (FlashStatus != HAL_OK)
{
return FlashStatus;
}
}
break;
case VALID_PAGE:
if (PageStatus1 == VALID_PAGE) /* Invalid state -> format eeprom */
{
/* Erase both Page0 and Page1 and set Page0 as valid page */
FlashStatus = EE_Format();
/* If erase/program operation was failed, a Flash error code is returned */
if (FlashStatus != HAL_OK)
{
return FlashStatus;
}
}
else if (PageStatus1 == ERASED) /* Page0 valid, Page1 erased */
{
/* Erase Page1 */
if(!EE_VerifyPageFullyErased(PAGE1_BASE_ADDRESS))
{
FlashStatus = FLASH_EraseSectorF4(PAGE1_ID);
/* If erase operation was failed, a Flash error code is returned */
if (FlashStatus != HAL_OK)
{
return FlashStatus;
}
}
}
else /* Page0 valid, Page1 receive */
{
/* Transfer data from Page0 to Page1 */
for (VarIdx = 0; VarIdx < NB_OF_VAR; VarIdx++)
{
if ((*(__IO uint16_t*)(PAGE1_BASE_ADDRESS + 6)) == VirtAddVarTab[VarIdx])
{
x = VarIdx;
}
if (VarIdx != x)
{
/* Read the last variables' updates */
ReadStatus = EE_ReadVariable(VirtAddVarTab[VarIdx], &DataVar);
/* In case variable corresponding to the virtual address was found */
if (ReadStatus != 0x1)
{
/* Transfer the variable to the Page1 */
EepromStatus = EE_VerifyPageFullWriteVariable(VirtAddVarTab[VarIdx], DataVar);
/* If program operation was failed, a Flash error code is returned */
if (EepromStatus != HAL_OK)
{
return EepromStatus;
}
}
}
}
/* Mark Page1 as valid */
FlashStatus = FLASH_ProgramHalfWordF4(PAGE1_BASE_ADDRESS, VALID_PAGE);
/* If program operation was failed, a Flash error code is returned */
if (FlashStatus != HAL_OK)
{
return FlashStatus;
}
/* Erase Page0 */
if(!EE_VerifyPageFullyErased(PAGE0_BASE_ADDRESS))
{
FlashStatus = FLASH_EraseSectorF4(PAGE0_ID);
/* If erase operation was failed, a Flash error code is returned */
if (FlashStatus != HAL_OK)
{
return FlashStatus;
}
}
}
break;
default: /* Any other state -> format eeprom */
/* Erase both Page0 and Page1 and set Page0 as valid page */
FlashStatus = EE_Format();
/* If erase/program operation was failed, a Flash error code is returned */
if (FlashStatus != HAL_OK)
{
return FlashStatus;
}
break;
}
return HAL_OK;
}
/**
* @brief Verify if specified page is fully erased.
* @param Address: page address
* This parameter can be one of the following values:
* @arg PAGE0_BASE_ADDRESS: Page0 base address
* @arg PAGE1_BASE_ADDRESS: Page1 base address
* @retval page fully erased status:
* - 0: if Page not erased
* - 1: if Page erased
*/
uint16_t EE_VerifyPageFullyErased(uint32_t Address)
{
uint32_t ReadStatus = 1;
uint16_t AddressValue = 0x5555;
/* Check each active page address starting from end */
while (Address <= PAGE0_END_ADDRESS)
{
/* Get the current location content to be compared with virtual address */
AddressValue = (*(__IO uint16_t*)Address);
/* Compare the read address with the virtual address */
if (AddressValue != ERASED)
{
/* In case variable value is read, reset ReadStatus flag */
ReadStatus = 0;
break;
}
/* Next address location */
Address = Address + 4;
}
/* Return ReadStatus value: (0: Page not erased, 1: Sector erased) */
return ReadStatus;
}
/**
* @brief Returns the last stored variable data, if found, which correspond to
* the passed virtual address
* @param VirtAddress: Variable virtual address
* @param Data: Global variable contains the read variable value
* @retval Success or error status:
* - 0: if variable was found
* - 1: if the variable was not found
* - NO_VALID_PAGE: if no valid page was found.
*/
uint16_t EE_ReadVariable(uint16_t VirtAddress, uint16_t* Data)
{
uint16_t ValidPage = PAGE0;
uint16_t AddressValue = 0x5555, ReadStatus = 1;
uint32_t Address = EEPROM_START_ADDRESS, PageStartAddress = EEPROM_START_ADDRESS;
/* Get active Page for read operation */
ValidPage = EE_FindValidPage(READ_FROM_VALID_PAGE);
/* Check if there is no valid page */
if (ValidPage == NO_VALID_PAGE)
{
return NO_VALID_PAGE;
}
/* Get the valid Page start Address */
PageStartAddress = (uint32_t)(EEPROM_START_ADDRESS + (uint32_t)(ValidPage * PAGE_SIZE));
/* Get the valid Page end Address */
Address = (uint32_t)((EEPROM_START_ADDRESS - 2) + (uint32_t)((1 + ValidPage) * PAGE_SIZE));
/* Check each active page address starting from end */
while (Address > (PageStartAddress + 2))
{
/* Get the current location content to be compared with virtual address */
AddressValue = (*(__IO uint16_t*)Address);
/* Compare the read address with the virtual address */
if (AddressValue == VirtAddress)
{
/* Get content of Address-2 which is variable value */
*Data = (*(__IO uint16_t*)(Address - 2));
/* In case variable value is read, reset ReadStatus flag */
ReadStatus = 0;
break;
}
else
{
/* Next address location */
Address = Address - 4;
}
}
/* Return ReadStatus value: (0: variable exist, 1: variable doesn't exist) */
return ReadStatus;
}
/**
* @brief Writes/upadtes variable data in EEPROM.
* @param VirtAddress: Variable virtual address
* @param Data: 16 bit data to be written
* @retval Success or error status:
* - FLASH_COMPLETE: on success
* - PAGE_FULL: if valid page is full
* - NO_VALID_PAGE: if no valid page was found
* - Flash error code: on write Flash error
*/
uint16_t EE_WriteVariable(uint16_t VirtAddress, uint16_t Data)
{
uint16_t Status = 0;
/* Write the variable virtual address and value in the EEPROM */
Status = EE_VerifyPageFullWriteVariable(VirtAddress, Data);
/* In case the EEPROM active page is full */
if (Status == PAGE_FULL)
{
/* Perform Page transfer */
Status = EE_PageTransfer(VirtAddress, Data);
}
/* Return last operation status */
return Status;
}
/**
* @brief Erases PAGE and PAGE1 and writes VALID_PAGE header to PAGE
* @param None
* @retval Status of the last operation (Flash write or erase) done during
* EEPROM formating
*/
static HAL_StatusTypeDef EE_Format(void)
{
HAL_StatusTypeDef FlashStatus = HAL_OK;
/* Erase Page0 */
if(!EE_VerifyPageFullyErased(PAGE0_BASE_ADDRESS))
{
FlashStatus = FLASH_EraseSectorF4(PAGE0_ID);
/* If erase operation was failed, a Flash error code is returned */
if (FlashStatus != HAL_OK)
{
return FlashStatus;
}
}
/* Set Page0 as valid page: Write VALID_PAGE at Page0 base address */
FlashStatus = FLASH_ProgramHalfWordF4(PAGE0_BASE_ADDRESS, VALID_PAGE);
/* If program operation was failed, a Flash error code is returned */
if (FlashStatus != HAL_OK)
{
return FlashStatus;
}
/* Erase Page1 */
if(!EE_VerifyPageFullyErased(PAGE1_BASE_ADDRESS))
{
FlashStatus = FLASH_EraseSectorF4(PAGE1_ID);
/* If erase operation was failed, a Flash error code is returned */
if (FlashStatus != HAL_OK)
{
return FlashStatus;
}
}
return HAL_OK;
}
/**
* @brief Find valid Page for write or read operation
* @param Operation: operation to achieve on the valid page.
* This parameter can be one of the following values:
* @arg READ_FROM_VALID_PAGE: read operation from valid page
* @arg WRITE_IN_VALID_PAGE: write operation from valid page
* @retval Valid page number (PAGE or PAGE1) or NO_VALID_PAGE in case
* of no valid page was found
*/
static uint16_t EE_FindValidPage(uint8_t Operation)
{
uint16_t PageStatus0 = 6, PageStatus1 = 6;
/* Get Page0 actual status */
PageStatus0 = (*(__IO uint16_t*)PAGE0_BASE_ADDRESS);
/* Get Page1 actual status */
PageStatus1 = (*(__IO uint16_t*)PAGE1_BASE_ADDRESS);
/* Write or read operation */
switch (Operation)
{
case WRITE_IN_VALID_PAGE: /* ---- Write operation ---- */
if (PageStatus1 == VALID_PAGE)
{
/* Page0 receiving data */
if (PageStatus0 == RECEIVE_DATA)
{
return PAGE0; /* Page0 valid */
}
else
{
return PAGE1; /* Page1 valid */
}
}
else if (PageStatus0 == VALID_PAGE)
{
/* Page1 receiving data */
if (PageStatus1 == RECEIVE_DATA)
{
return PAGE1; /* Page1 valid */
}
else
{
return PAGE0; /* Page0 valid */
}
}
else
{
return NO_VALID_PAGE; /* No valid Page */
}
case READ_FROM_VALID_PAGE: /* ---- Read operation ---- */
if (PageStatus0 == VALID_PAGE)
{
return PAGE0; /* Page0 valid */
}
else if (PageStatus1 == VALID_PAGE)
{
return PAGE1; /* Page1 valid */
}
else
{
return NO_VALID_PAGE ; /* No valid Page */
}
default:
return PAGE0; /* Page0 valid */
}
}
/**
* @brief Verify if active page is full and Writes variable in EEPROM.
* @param VirtAddress: 16 bit virtual address of the variable
* @param Data: 16 bit data to be written as variable value
* @retval Success or error status:
* - FLASH_COMPLETE: on success
* - PAGE_FULL: if valid page is full
* - NO_VALID_PAGE: if no valid page was found
* - Flash error code: on write Flash error
*/
static uint16_t EE_VerifyPageFullWriteVariable(uint16_t VirtAddress, uint16_t Data)
{
HAL_StatusTypeDef FlashStatus = HAL_OK;
uint16_t ValidPage = PAGE0;
uint32_t Address = EEPROM_START_ADDRESS, PageEndAddress = EEPROM_START_ADDRESS+PAGE_SIZE;
/* Get valid Page for write operation */
ValidPage = EE_FindValidPage(WRITE_IN_VALID_PAGE);
/* Check if there is no valid page */
if (ValidPage == NO_VALID_PAGE)
{
return NO_VALID_PAGE;
}
/* Get the valid Page start Address */
Address = (uint32_t)(EEPROM_START_ADDRESS + (uint32_t)(ValidPage * PAGE_SIZE));
/* Get the valid Page end Address */
PageEndAddress = (uint32_t)((EEPROM_START_ADDRESS - 1) + (uint32_t)((ValidPage + 1) * PAGE_SIZE));
/* Check each active page address starting from begining */
while (Address < PageEndAddress)
{
/* Verify if Address and Address+2 contents are 0xFFFFFFFF */
if ((*(__IO uint32_t*)Address) == 0xFFFFFFFF)
{
/* Set variable data */
FlashStatus = FLASH_ProgramHalfWordF4(Address, Data);
/* If program operation was failed, a Flash error code is returned */
if (FlashStatus != HAL_OK)
{
return FlashStatus;
}
/* Set variable virtual address */
FlashStatus = FLASH_ProgramHalfWordF4(Address + 2, VirtAddress);
/* Return program operation status */
return FlashStatus;
}
else
{
/* Next address location */
Address = Address + 4;
}
}
/* Return PAGE_FULL in case the valid page is full */
return PAGE_FULL;
}
/**
* @brief Transfers last updated variables data from the full Page to
* an empty one.
* @param VirtAddress: 16 bit virtual address of the variable
* @param Data: 16 bit data to be written as variable value
* @retval Success or error status:
* - FLASH_COMPLETE: on success
* - PAGE_FULL: if valid page is full
* - NO_VALID_PAGE: if no valid page was found
* - Flash error code: on write Flash error
*/
static uint16_t EE_PageTransfer(uint16_t VirtAddress, uint16_t Data)
{
HAL_StatusTypeDef FlashStatus = HAL_OK;
uint32_t NewPageAddress = EEPROM_START_ADDRESS;
uint16_t OldPageId=0;
uint16_t ValidPage = PAGE0, VarIdx = 0;
uint16_t EepromStatus = 0, ReadStatus = 0;
/* Get active Page for read operation */
ValidPage = EE_FindValidPage(READ_FROM_VALID_PAGE);
if (ValidPage == PAGE1) /* Page1 valid */
{
/* New page address where variable will be moved to */
NewPageAddress = PAGE0_BASE_ADDRESS;
/* Old page ID where variable will be taken from */
OldPageId = PAGE1_ID;
}
else if (ValidPage == PAGE0) /* Page0 valid */
{
/* New page address where variable will be moved to */
NewPageAddress = PAGE1_BASE_ADDRESS;
/* Old page ID where variable will be taken from */
OldPageId = PAGE0_ID;
}
else
{
return NO_VALID_PAGE; /* No valid Page */
}
/* Set the new Page status to RECEIVE_DATA status */
FlashStatus = FLASH_ProgramHalfWordF4(NewPageAddress, RECEIVE_DATA);
/* If program operation was failed, a Flash error code is returned */
if (FlashStatus != HAL_OK)
{
return FlashStatus;
}
/* Write the variable passed as parameter in the new active page */
EepromStatus = EE_VerifyPageFullWriteVariable(VirtAddress, Data);
/* If program operation was failed, a Flash error code is returned */
if (EepromStatus != HAL_OK)
{
return EepromStatus;
}
/* Transfer process: transfer variables from old to the new active page */
for (VarIdx = 0; VarIdx < NB_OF_VAR; VarIdx++)
{
if (VirtAddVarTab[VarIdx] != VirtAddress) /* Check each variable except the one passed as parameter */
{
/* Read the other last variable updates */
ReadStatus = EE_ReadVariable(VirtAddVarTab[VarIdx], &DataVar);
/* In case variable corresponding to the virtual address was found */
if (ReadStatus != 0x1)
{
/* Transfer the variable to the new active page */
EepromStatus = EE_VerifyPageFullWriteVariable(VirtAddVarTab[VarIdx], DataVar);
/* If program operation was failed, a Flash error code is returned */
if (EepromStatus != HAL_OK)
{
return EepromStatus;
}
}
}
}
/* Erase the old Page: Set old Page status to ERASED status */
FlashStatus = FLASH_EraseSectorF4(OldPageId);
/* If erase operation was failed, a Flash error code is returned */
if (FlashStatus != HAL_OK)
{
return FlashStatus;
}
/* Set new Page status to VALID_PAGE status */
FlashStatus = FLASH_ProgramHalfWordF4(NewPageAddress, VALID_PAGE);
/* If program operation was failed, a Flash error code is returned */
if (FlashStatus != HAL_OK)
{
return FlashStatus;
}
/* Return last operation flash status */
return FlashStatus;
}
/* flash operation */
#define EraseTimeout ((uint32_t)0x00000FFF)
#define ProgramTimeout ((uint32_t)0x0000001F)
#define FLASH_PSIZE_BYTE 0
#define FLASH_PSIZE_HFWORD FLASH_CR_PSIZE_0
#define FLASH_PSIZE_WORD FLASH_CR_PSIZE_1
#define FLASH_CR_SNB_Pos 3
#define FLASH_KEY1_F4 0x45670123
#define FLASH_KEY2_F4 0xCDEF89AB
#define ASSERT(exp) (void)((0))
static void Flash_Delay(void)
{
__IO uint32_t i = 0;
for(i = 0xFF; i != 0; i--) { }
}
static HAL_StatusTypeDef FLASH_GetStatus(void)
{
if ((FLASH->SR & FLASH_SR_BSY) == FLASH_SR_BSY)
return HAL_BUSY;
if ((FLASH->SR & (FLASH_SR_PGSERR|FLASH_SR_PGPERR|FLASH_SR_PGAERR)) != 0)
return HAL_ERROR;
if ((FLASH->SR & FLASH_SR_WRPERR) != 0 )
return HAL_ERROR;
if ((FLASH->SR & FLASH_SR_SOP) != 0 )
return HAL_ERROR;
return HAL_OK;
}
static HAL_StatusTypeDef FLASH_WaitForLastOperation(uint32_t timeout)
{
/* Check for the Flash Status */
HAL_StatusTypeDef status = FLASH_GetStatus();
/* Wait for a Flash operation to complete or a TIMEOUT to occur */
while ((status == HAL_BUSY) && (timeout != 0x00))
{
Flash_Delay();
status = FLASH_GetStatus();
timeout--;
}
if (timeout == 0)
status = HAL_TIMEOUT;
return status;
}
HAL_StatusTypeDef FLASH_UnlockF4(void)
{
FLASH->KEYR = FLASH_KEY1_F4;
FLASH->KEYR = FLASH_KEY2_F4;
return HAL_OK;
}
HAL_StatusTypeDef FLASH_EraseSectorF4(uint32_t sector)
{
HAL_StatusTypeDef status = HAL_OK;
/* Wait for last operation to be completed */
status = FLASH_WaitForLastOperation(EraseTimeout);
if(status == HAL_OK) {
/* if the previous operation is completed, proceed to erase the page */
CLEAR_BIT(FLASH->CR, FLASH_CR_PSIZE);
FLASH->CR |= FLASH_PSIZE_WORD;
CLEAR_BIT(FLASH->CR, FLASH_CR_SNB);
FLASH->CR |= FLASH_CR_SER | (sector << FLASH_CR_SNB_Pos);
FLASH->CR |= FLASH_CR_STRT;
/* Wait for last operation to be completed */
status = FLASH_WaitForLastOperation(EraseTimeout);
if(status != HAL_TIMEOUT)
{
/* if the erase operation is completed, disable the PER Bit */
FLASH->CR &= ~FLASH_CR_SNB;
FLASH->CR &= ~FLASH_CR_SER;
}
FLASH->SR = (FLASH_SR_EOP | FLASH_SR_SOP | FLASH_SR_WRPERR);
}
/* Return the Erase Status */
return status;
}
HAL_StatusTypeDef FLASH_ProgramHalfWordF4(uint32_t address, uint16_t data)
{
HAL_StatusTypeDef status = HAL_ERROR;
if (IS_FLASH_ADDRESS(address))
{
/* Wait for last operation to be completed */
status = FLASH_WaitForLastOperation(ProgramTimeout);
if(status == HAL_OK) {
// set size to byte
FLASH->CR &= ~FLASH_CR_PSIZE;
FLASH->CR |= FLASH_PSIZE_HFWORD;
FLASH->CR |= FLASH_CR_PG;
*(__IO uint16_t*)address = data;
/* Wait for last operation to be completed */
status = FLASH_WaitForLastOperation(ProgramTimeout);
if(status != HAL_TIMEOUT)
{
/* if the program operation is completed, disable the PG Bit */
FLASH->CR &= ~FLASH_CR_PG;
}
FLASH->SR = (FLASH_SR_EOP | FLASH_SR_SOP | FLASH_SR_PGSERR | FLASH_SR_PGPERR | FLASH_SR_PGAERR | FLASH_SR_WRPERR);
}
}
return status;
}
/**
* @}
*/
/******************* (C) COPYRIGHT 2017 STMicroelectronics *****END OF FILE****/

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@ -0,0 +1,130 @@
/**
******************************************************************************
* @file EEPROM/EEPROM_Emulation/inc/eeprom.h
* @author MCD Application Team
* @brief This file contains all the functions prototypes for the EEPROM
* emulation firmware library.
******************************************************************************
* @attention
*
* <h2><center>&copy; Copyright <EFBFBD> 2017 STMicroelectronics International N.V.
* All rights reserved.</center></h2>
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted, provided that the following conditions are met:
*
* 1. Redistribution of source code must retain the above copyright notice,
* this list of conditions and the following disclaimer.
* 2. Redistributions in binary form must reproduce the above copyright notice,
* this list of conditions and the following disclaimer in the documentation
* and/or other materials provided with the distribution.
* 3. Neither the name of STMicroelectronics nor the names of other
* contributors to this software may be used to endorse or promote products
* derived from this software without specific written permission.
* 4. This software, including modifications and/or derivative works of this
* software, must execute solely and exclusively on microcontroller or
* microprocessor devices manufactured by or for STMicroelectronics.
* 5. Redistribution and use of this software other than as permitted under
* this license is void and will automatically terminate your rights under
* this license.
*
* THIS SOFTWARE IS PROVIDED BY STMICROELECTRONICS AND CONTRIBUTORS "AS IS"
* AND ANY EXPRESS, IMPLIED OR STATUTORY WARRANTIES, INCLUDING, BUT NOT
* LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY, FITNESS FOR A
* PARTICULAR PURPOSE AND NON-INFRINGEMENT OF THIRD PARTY INTELLECTUAL PROPERTY
* RIGHTS ARE DISCLAIMED TO THE FULLEST EXTENT PERMITTED BY LAW. IN NO EVENT
* SHALL STMICROELECTRONICS OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT,
* INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
* LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA,
* OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF
* LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING
* NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE,
* EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
*
******************************************************************************
*/
/* Define to prevent recursive inclusion -------------------------------------*/
#ifndef __EEPROM_H
#define __EEPROM_H
/* Includes ------------------------------------------------------------------*/
#include "hal.h"
typedef enum
{
HAL_OK = 0x00U,
HAL_ERROR = 0x01U,
HAL_BUSY = 0x02U,
HAL_TIMEOUT = 0x03U
} HAL_StatusTypeDef;
/* Exported constants --------------------------------------------------------*/
/* EEPROM emulation firmware error codes */
#define EE_OK (uint32_t)HAL_OK
#define EE_ERROR (uint32_t)HAL_ERROR
#define EE_BUSY (uint32_t)HAL_BUSY
#define EE_TIMEOUT (uint32_t)HAL_TIMEOUT
/* Define the size of the sectors to be used */
#define PAGE_SIZE (uint32_t)0x4000 /* Page size = 16KByte */
/* Device voltage range supposed to be [2.7V to 3.6V], the operation will
be done by word */
#define VOLTAGE_RANGE (uint8_t)VOLTAGE_RANGE_3
/* EEPROM start address in Flash */
#define EEPROM_START_ADDRESS ((uint32_t)0x08008000) /* EEPROM emulation start address:
from sector2 : after 16KByte of used
Flash memory */
/* Pages 0 and 1 base and end addresses */
#define PAGE0_BASE_ADDRESS ((uint32_t)(EEPROM_START_ADDRESS + 0x0000))
#define PAGE0_END_ADDRESS ((uint32_t)(EEPROM_START_ADDRESS + (PAGE_SIZE - 1)))
#define PAGE0_ID 2//FLASH_SECTOR_2
#define PAGE1_BASE_ADDRESS ((uint32_t)(EEPROM_START_ADDRESS + 0x4000))
#define PAGE1_END_ADDRESS ((uint32_t)(EEPROM_START_ADDRESS + (2 * PAGE_SIZE - 1)))
#define PAGE1_ID 3//FLASH_SECTOR_3
/* Used Flash pages for EEPROM emulation */
#define PAGE0 ((uint16_t)0x0000)
#define PAGE1 ((uint16_t)0x0001) /* Page nb between PAGE0_BASE_ADDRESS & PAGE1_BASE_ADDRESS*/
/* No valid page define */
#define NO_VALID_PAGE ((uint16_t)0x00AB)
/* Page status definitions */
#define ERASED ((uint16_t)0xFFFF) /* Page is empty */
#define RECEIVE_DATA ((uint16_t)0xEEEE) /* Page is marked to receive data */
#define VALID_PAGE ((uint16_t)0x0000) /* Page containing valid data */
/* Valid pages in read and write defines */
#define READ_FROM_VALID_PAGE ((uint8_t)0x00)
#define WRITE_IN_VALID_PAGE ((uint8_t)0x01)
/* Page full define */
#define PAGE_FULL ((uint8_t)0x80)
/* Variables' number */
#define NB_OF_VAR ((uint8_t)0x16)
/* Exported types ------------------------------------------------------------*/
/* Exported macro ------------------------------------------------------------*/
/* Exported functions ------------------------------------------------------- */
HAL_StatusTypeDef FLASH_UnlockF4(void);
HAL_StatusTypeDef FLASH_EraseSectorF4(uint32_t sector);
HAL_StatusTypeDef FLASH_ProgramHalfWordF4(uint32_t address, uint16_t data);
uint16_t EE_Init(void);
uint16_t EE_ReadVariable(uint16_t VirtAddress, uint16_t* Data);
uint16_t EE_WriteVariable(uint16_t VirtAddress, uint16_t Data);
#define IS_FLASH_ADDRESS(ADDRESS) (((ADDRESS) >= EEPROM_START_ADDRESS) && ((ADDRESS) < PAGE1_END_ADDRESS))
#define IS_FLASH_SECTOR(SECTOR) (((SECTOR) >= PAGE0_ID) && ((SECTOR) <= PAGE1_ID))
#endif /* __EEPROM_H */
/************************ (C) COPYRIGHT STMicroelectronics *****END OF FILE****/

View File

@ -0,0 +1,388 @@
/*
ChibiOS - Copyright (C) 2006..2016 Giovanni Di Sirio
Licensed under the Apache License, Version 2.0 (the "License");
you may not use this file except in compliance with the License.
You may obtain a copy of the License at
http://www.apache.org/licenses/LICENSE-2.0
Unless required by applicable law or agreed to in writing, software
distributed under the License is distributed on an "AS IS" BASIS,
WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
See the License for the specific language governing permissions and
limitations under the License.
*/
/**
* @file templates/halconf.h
* @brief HAL configuration header.
* @details HAL configuration file, this file allows to enable or disable the
* various device drivers from your application. You may also use
* this file in order to override the device drivers default settings.
*
* @addtogroup HAL_CONF
* @{
*/
#ifndef HALCONF_H
#define HALCONF_H
#include "mcuconf.h"
/**
* @brief Enables the PAL subsystem.
*/
#if !defined(HAL_USE_PAL) || defined(__DOXYGEN__)
#define HAL_USE_PAL TRUE
#endif
/**
* @brief Enables the ADC subsystem.
*/
#if !defined(HAL_USE_ADC) || defined(__DOXYGEN__)
#define HAL_USE_ADC FALSE
#endif
/**
* @brief Enables the CAN subsystem.
*/
#if !defined(HAL_USE_CAN) || defined(__DOXYGEN__)
#define HAL_USE_CAN FALSE
#endif
/**
* @brief Enables the DAC subsystem.
*/
#if !defined(HAL_USE_DAC) || defined(__DOXYGEN__)
#define HAL_USE_DAC FALSE
#endif
/**
* @brief Enables the EXT subsystem.
*/
#if !defined(HAL_USE_EXT) || defined(__DOXYGEN__)
#define HAL_USE_EXT FALSE
#endif
/**
* @brief Enables the GPT subsystem.
*/
#if !defined(HAL_USE_GPT) || defined(__DOXYGEN__)
#define HAL_USE_GPT TRUE
#endif
/**
* @brief Enables the I2C subsystem.
*/
#if !defined(HAL_USE_I2C) || defined(__DOXYGEN__)
#define HAL_USE_I2C TRUE
#endif
/**
* @brief Enables the I2S subsystem.
*/
#if !defined(HAL_USE_I2S) || defined(__DOXYGEN__)
#define HAL_USE_I2S FALSE
#endif
/**
* @brief Enables the ICU subsystem.
*/
#if !defined(HAL_USE_ICU) || defined(__DOXYGEN__)
#define HAL_USE_ICU FALSE
#endif
/**
* @brief Enables the MAC subsystem.
*/
#if !defined(HAL_USE_MAC) || defined(__DOXYGEN__)
#define HAL_USE_MAC FALSE
#endif
/**
* @brief Enables the MMC_SPI subsystem.
*/
#if !defined(HAL_USE_MMC_SPI) || defined(__DOXYGEN__)
#define HAL_USE_MMC_SPI FALSE
#endif
/**
* @brief Enables the PWM subsystem.
*/
#if !defined(HAL_USE_PWM) || defined(__DOXYGEN__)
#define HAL_USE_PWM TRUE
#endif
/**
* @brief Enables the QSPI subsystem.
*/
#if !defined(HAL_USE_QSPI) || defined(__DOXYGEN__)
#define HAL_USE_QSPI FALSE
#endif
/**
* @brief Enables the RTC subsystem.
*/
#if !defined(HAL_USE_RTC) || defined(__DOXYGEN__)
#define HAL_USE_RTC FALSE
#endif
/**
* @brief Enables the SDC subsystem.
*/
#if !defined(HAL_USE_SDC) || defined(__DOXYGEN__)
#define HAL_USE_SDC FALSE
#endif
/**
* @brief Enables the SERIAL subsystem.
*/
#if !defined(HAL_USE_SERIAL) || defined(__DOXYGEN__)
#define HAL_USE_SERIAL FALSE
#endif
/**
* @brief Enables the SERIAL over USB subsystem.
*/
#if !defined(HAL_USE_SERIAL_USB) || defined(__DOXYGEN__)
#define HAL_USE_SERIAL_USB FALSE
#endif
/**
* @brief Enables the SPI subsystem.
*/
#if !defined(HAL_USE_SPI) || defined(__DOXYGEN__)
#define HAL_USE_SPI TRUE
#endif
/**
* @brief Enables the UART subsystem.
*/
#if !defined(HAL_USE_UART) || defined(__DOXYGEN__)
#define HAL_USE_UART FALSE
#endif
/**
* @brief Enables the USB subsystem.
*/
#if !defined(HAL_USE_USB) || defined(__DOXYGEN__)
#define HAL_USE_USB TRUE
#endif
/**
* @brief Enables the WDG subsystem.
*/
#if !defined(HAL_USE_WDG) || defined(__DOXYGEN__)
#define HAL_USE_WDG FALSE
#endif
/*===========================================================================*/
/* ADC driver related settings. */
/*===========================================================================*/
/**
* @brief Enables synchronous APIs.
* @note Disabling this option saves both code and data space.
*/
#if !defined(ADC_USE_WAIT) || defined(__DOXYGEN__)
#define ADC_USE_WAIT TRUE
#endif
/**
* @brief Enables the @p adcAcquireBus() and @p adcReleaseBus() APIs.
* @note Disabling this option saves both code and data space.
*/
#if !defined(ADC_USE_MUTUAL_EXCLUSION) || defined(__DOXYGEN__)
#define ADC_USE_MUTUAL_EXCLUSION TRUE
#endif
/*===========================================================================*/
/* CAN driver related settings. */
/*===========================================================================*/
/**
* @brief Sleep mode related APIs inclusion switch.
*/
#if !defined(CAN_USE_SLEEP_MODE) || defined(__DOXYGEN__)
#define CAN_USE_SLEEP_MODE TRUE
#endif
/*===========================================================================*/
/* I2C driver related settings. */
/*===========================================================================*/
/**
* @brief Enables the mutual exclusion APIs on the I2C bus.
*/
#if !defined(I2C_USE_MUTUAL_EXCLUSION) || defined(__DOXYGEN__)
#define I2C_USE_MUTUAL_EXCLUSION TRUE
#endif
/*===========================================================================*/
/* MAC driver related settings. */
/*===========================================================================*/
/**
* @brief Enables an event sources for incoming packets.
*/
#if !defined(MAC_USE_ZERO_COPY) || defined(__DOXYGEN__)
#define MAC_USE_ZERO_COPY FALSE
#endif
/**
* @brief Enables an event sources for incoming packets.
*/
#if !defined(MAC_USE_EVENTS) || defined(__DOXYGEN__)
#define MAC_USE_EVENTS TRUE
#endif
/*===========================================================================*/
/* MMC_SPI driver related settings. */
/*===========================================================================*/
/**
* @brief Delays insertions.
* @details If enabled this options inserts delays into the MMC waiting
* routines releasing some extra CPU time for the threads with
* lower priority, this may slow down the driver a bit however.
* This option is recommended also if the SPI driver does not
* use a DMA channel and heavily loads the CPU.
*/
#if !defined(MMC_NICE_WAITING) || defined(__DOXYGEN__)
#define MMC_NICE_WAITING TRUE
#endif
/*===========================================================================*/
/* SDC driver related settings. */
/*===========================================================================*/
/**
* @brief Number of initialization attempts before rejecting the card.
* @note Attempts are performed at 10mS intervals.
*/
#if !defined(SDC_INIT_RETRY) || defined(__DOXYGEN__)
#define SDC_INIT_RETRY 100
#endif
/**
* @brief Include support for MMC cards.
* @note MMC support is not yet implemented so this option must be kept
* at @p FALSE.
*/
#if !defined(SDC_MMC_SUPPORT) || defined(__DOXYGEN__)
#define SDC_MMC_SUPPORT FALSE
#endif
/**
* @brief Delays insertions.
* @details If enabled this options inserts delays into the MMC waiting
* routines releasing some extra CPU time for the threads with
* lower priority, this may slow down the driver a bit however.
*/
#if !defined(SDC_NICE_WAITING) || defined(__DOXYGEN__)
#define SDC_NICE_WAITING TRUE
#endif
/*===========================================================================*/
/* SERIAL driver related settings. */
/*===========================================================================*/
/**
* @brief Default bit rate.
* @details Configuration parameter, this is the baud rate selected for the
* default configuration.
*/
#if !defined(SERIAL_DEFAULT_BITRATE) || defined(__DOXYGEN__)
#define SERIAL_DEFAULT_BITRATE 38400
#endif
/**
* @brief Serial buffers size.
* @details Configuration parameter, you can change the depth of the queue
* buffers depending on the requirements of your application.
* @note The default is 16 bytes for both the transmission and receive
* buffers.
*/
#if !defined(SERIAL_BUFFERS_SIZE) || defined(__DOXYGEN__)
#define SERIAL_BUFFERS_SIZE 16
#endif
/*===========================================================================*/
/* SERIAL_USB driver related setting. */
/*===========================================================================*/
/**
* @brief Serial over USB buffers size.
* @details Configuration parameter, the buffer size must be a multiple of
* the USB data endpoint maximum packet size.
* @note The default is 256 bytes for both the transmission and receive
* buffers.
*/
#if !defined(SERIAL_USB_BUFFERS_SIZE) || defined(__DOXYGEN__)
#define SERIAL_USB_BUFFERS_SIZE 256
#endif
/**
* @brief Serial over USB number of buffers.
* @note The default is 2 buffers.
*/
#if !defined(SERIAL_USB_BUFFERS_NUMBER) || defined(__DOXYGEN__)
#define SERIAL_USB_BUFFERS_NUMBER 2
#endif
/*===========================================================================*/
/* SPI driver related settings. */
/*===========================================================================*/
/**
* @brief Enables synchronous APIs.
* @note Disabling this option saves both code and data space.
*/
#if !defined(SPI_USE_WAIT) || defined(__DOXYGEN__)
#define SPI_USE_WAIT TRUE
#endif
/**
* @brief Enables the @p spiAcquireBus() and @p spiReleaseBus() APIs.
* @note Disabling this option saves both code and data space.
*/
#if !defined(SPI_USE_MUTUAL_EXCLUSION) || defined(__DOXYGEN__)
#define SPI_USE_MUTUAL_EXCLUSION FALSE
#endif
/*===========================================================================*/
/* UART driver related settings. */
/*===========================================================================*/
/**
* @brief Enables synchronous APIs.
* @note Disabling this option saves both code and data space.
*/
#if !defined(UART_USE_WAIT) || defined(__DOXYGEN__)
#define UART_USE_WAIT FALSE
#endif
/**
* @brief Enables the @p uartAcquireBus() and @p uartReleaseBus() APIs.
* @note Disabling this option saves both code and data space.
*/
#if !defined(UART_USE_MUTUAL_EXCLUSION) || defined(__DOXYGEN__)
#define UART_USE_MUTUAL_EXCLUSION FALSE
#endif
/*===========================================================================*/
/* USB driver related settings. */
/*===========================================================================*/
/**
* @brief Enables synchronous APIs.
* @note Disabling this option saves both code and data space.
*/
#if !defined(USB_USE_WAIT) || defined(__DOXYGEN__)
#define USB_USE_WAIT TRUE
#endif
#endif /* HALCONF_H */
/** @} */

View File

@ -0,0 +1,721 @@
{
"keyboard_name": "NOAH",
"url": "",
"maintainer": "astro",
"width": 16,
"height": 5,
"layouts": {
"LAYOUT_default": {
"key_count": 68,
"layout": [
{
"label": "~",
"x": 0,
"y": 0
},
{
"label": "!",
"x": 1,
"y": 0
},
{
"label": "@",
"x": 2,
"y": 0
},
{
"label": "#",
"x": 3,
"y": 0
},
{
"label": "$",
"x": 4,
"y": 0
},
{
"label": "%",
"x": 5,
"y": 0
},
{
"label": "^",
"x": 6,
"y": 0
},
{
"label": "&",
"x": 7,
"y": 0
},
{
"label": "*",
"x": 8,
"y": 0
},
{
"label": "(",
"x": 9,
"y": 0
},
{
"label": ")",
"x": 10,
"y": 0
},
{
"label": "_",
"x": 11,
"y": 0
},
{
"label": "+",
"x": 12,
"y": 0
},
{
"label": "|",
"x": 13,
"y": 0
},
{
"label":"Backspace",
"x": 14,
"y": 0
},
{
"label":"Print Screen",
"x": 15,
"y": 0
},
{
"label": "Tab",
"x": 0,
"y": 1,
"w": 1.5
},
{
"label": "Q",
"x": 1.5,
"y": 1
},
{
"label": "W",
"x": 2.5,
"y": 1
},
{
"label": "E",
"x": 3.5,
"y": 1
},
{
"label": "R",
"x": 4.5,
"y": 1
},
{
"label": "T",
"x": 5.5,
"y": 1
},
{
"label": "Y",
"x": 6.5,
"y": 1
},
{
"label": "U",
"x": 7.5,
"y": 1
},
{
"label": "I",
"x": 8.5,
"y": 1
},
{
"label": "O",
"x": 9.5,
"y": 1
},
{
"label": "P",
"x": 10.5,
"y": 1
},
{
"label": "{",
"x": 11.5,
"y": 1
},
{
"label": "}",
"x": 12.5,
"y": 1
},
{
"label": "|",
"x": 13.5,
"y": 1,
"w": 1.5
},
{ "label": "Page Up",
"x": 15,
"y": 1
},
{
"label": "Caps Lock",
"x": 0,
"y": 2,
"w": 1.75
},
{
"label": "A",
"x": 1.75,
"y": 2
},
{
"label": "S",
"x": 2.75,
"y": 2
},
{
"label": "D",
"x": 3.75,
"y": 2
},
{
"label": "F",
"x": 4.75,
"y": 2
},
{
"label": "G",
"x": 5.75,
"y": 2
},
{
"label": "H",
"x": 6.75,
"y": 2
},
{
"label": "J",
"x": 7.75,
"y": 2
},
{
"label": "K",
"x": 8.75,
"y": 2
},
{
"label": "L",
"x": 9.75,
"y": 2
},
{
"label": ":",
"x": 10.75,
"y": 2
},
{
"label": "\"",
"x": 11.75,
"y": 2
},
{
"label": "Enter",
"x": 12.75,
"y": 2,
"w": 2.25
},
{
"label": "Page Down",
"x": 15,
"y": 2
},
{
"label": "Shift",
"x": 0,
"y": 3,
"w": 2.25
},
{
"label": "Z",
"x": 2.25,
"y": 3
},
{
"label": "X",
"x": 3.25,
"y": 3
},
{
"label": "C",
"x": 4.25,
"y": 3
},
{
"label": "V",
"x": 5.25,
"y": 3
},
{
"label": "B",
"x": 6.25,
"y": 3
},
{
"label": "N",
"x": 7.25,
"y": 3
},
{
"label": "M",
"x": 8.25,
"y": 3
},
{
"label": "<",
"x": 9.25,
"y": 3
},
{
"label": ">",
"x": 10.25,
"y": 3
},
{
"label": "?",
"x": 11.25,
"y": 3
},
{
"label": "Shift",
"x": 12.25,
"y": 3,
"w": 1.75
},
{
"label": "Up",
"x": 14,
"y": 3
},
{
"label": "End"
"x": 15,
"y": 3
},
{
"label": "Ctrl",
"x": 0,
"y": 4,
"w": 1.25
},
{
"label": "Win",
"x": 1.25,
"y": 4,
"w": 1.25
},
{
"label": "Alt",
"x": 2.5,
"y": 4,
"w": 1.25
},
{
"x": 3.75,
"y": 4,
"w": 6.25
},
{
"label": "Alt",
"x": 10,
"y": 4,
"w": 1.25
},
{
"label": "Win",
"x": 11.25,
"y": 4,
"w": 1.25
},
{
"label": "Left",
"x": 13,
"y": 4
},
{
"label": "Down",
"x": 14,
"y": 4
},
{
"label": "Right",
"x": 15,
"y": 4
}
]
},
"LAYOUT_iso": {
"key_count": 68,
"layout": [
{
"label": "~",
"x": 0,
"y": 0
},
{
"label": "!",
"x": 1,
"y": 0
},
{
"label": "@",
"x": 2,
"y": 0
},
{
"label": "#",
"x": 3,
"y": 0
},
{
"label": "$",
"x": 4,
"y": 0
},
{
"label": "%",
"x": 5,
"y": 0
},
{
"label": "^",
"x": 6,
"y": 0
},
{
"label": "&",
"x": 7,
"y": 0
},
{
"label": "*",
"x": 8,
"y": 0
},
{
"label": "(",
"x": 9,
"y": 0
},
{
"label": ")",
"x": 10,
"y": 0
},
{
"label": "_",
"x": 11,
"y": 0
},
{
"label": "+",
"x": 12,
"y": 0
},
{
"label": "Backspace",
"x": 13,
"y": 0,
"w": 2
},
{
"label": "Print Screen",
"x": 15,
"y": 0
},
{
"label": "Tab",
"x": 0,
"y": 1,
"w": 1.5
},
{
"label": "Q",
"x": 1.5,
"y": 1
},
{
"label": "W",
"x": 2.5,
"y": 1
},
{
"label": "E",
"x": 3.5,
"y": 1
},
{
"label": "R",
"x": 4.5,
"y": 1
},
{
"label": "T",
"x": 5.5,
"y": 1
},
{
"label": "Y",
"x": 6.5,
"y": 1
},
{
"label": "U",
"x": 7.5,
"y": 1
},
{
"label": "I",
"x": 8.5,
"y": 1
},
{
"label": "O",
"x": 9.5,
"y": 1
},
{
"label": "P",
"x": 10.5,
"y": 1
},
{
"label": "{",
"x": 11.5,
"y": 1
},
{
"label": "}",
"x": 12.5,
"y": 1
},
{
"label": "Enter",
"x": 13.75,
"y": 1,
"w": 1.25,
"h": 2
},
{
"label": "Page Up",
"x": 15,
"y": 1
},
{
"label": "Caps Lock",
"x": 0,
"y": 2,
"w": 1.75
},
{
"label": "A",
"x": 1.75,
"y": 2
},
{
"label": "S",
"x": 2.75,
"y": 2
},
{
"label": "D",
"x": 3.75,
"y": 2
},
{
"label": "F",
"x": 4.75,
"y": 2
},
{
"label": "G",
"x": 5.75,
"y": 2
},
{
"label": "H",
"x": 6.75,
"y": 2
},
{
"label": "J",
"x": 7.75,
"y": 2
},
{
"label": "K",
"x": 8.75,
"y": 2
},
{
"label": "L",
"x": 9.75,
"y": 2
},
{
"label": ":",
"x": 10.75,
"y": 2
},
{
"label": "\"",
"x": 11.75,
"y": 2
},
{
"label": "|",
"x": 12.75,
"y": 2
},
{
"label": "Page Down",
"x": 15,
"y": 2
},
{
"label": "Shift",
"x": 0,
"y": 3,
"w": 1.25
},
{
"label":"Win",
"x": 1.25,
"y": 3
},
{
"label": "Z",
"x": 2.25,
"y": 3
},
{
"label": "X",
"x": 3.25,
"y": 3
},
{
"label": "C",
"x": 4.25,
"y": 3
},
{
"label": "V",
"x": 5.25,
"y": 3
},
{
"label": "B",
"x": 6.25,
"y": 3
},
{
"label": "N",
"x": 7.25,
"y": 3
},
{
"label": "M",
"x": 8.25,
"y": 3
},
{
"label": "<",
"x": 9.25,
"y": 3
},
{
"label": ">",
"x": 10.25,
"y": 3
},
{
"label": "?",
"x": 11.25,
"y": 3
},
{
"label": "Shift",
"x": 12.25,
"y": 3,
"w": 1.75
},
{
"label": "Up",
"x": 14,
"y": 3
},
{
"label": "End",
"x": 15,
"y": 3
},
{
"label": "Ctrl",
"x": 0,
"y": 4,
"w": 1.25
},
{
"label": "Win",
"x": 1.25,
"y": 4,
"w": 1.25
},
{
"label": "Alt",
"x": 2.5,
"y": 4,
"w": 1.25
},
{
"x": 3.75,
"y": 4,
"w": 6.25
},
{
"label": "Alt",
"x": 10,
"y": 4,
"w": 1.25
},
{
"label": "Win",
"x": 11.25,
"y": 4,
"w": 1.25
},
{
"label": "Left",
"x": 13,
"y": 4
},
{
"label": "Down",
"x": 14,
"y": 4
},
{
"label": "Right",
"x": 15,
"y": 4
}
]
}
}
}

View File

@ -0,0 +1,20 @@
/**
* keymap.c
*/
#include QMK_KEYBOARD_H
const uint16_t PROGMEM keymaps[][MATRIX_ROWS][MATRIX_COLS] = {
[0] = LAYOUT_default(
KC_ESC, KC_1, KC_2, KC_3, KC_4, KC_5, KC_6, KC_7, KC_8, KC_9, KC_0, KC_MINS, KC_EQL, KC_BSLS, KC_GRV, KC_PSCR,
KC_TAB, KC_Q, KC_W, KC_E, KC_R, KC_T, KC_Y, KC_U, KC_I, KC_O, KC_P, KC_LBRC, KC_RBRC, KC_BSPC, KC_PGUP,
KC_LCTRL, KC_A, KC_S, KC_D, KC_F, KC_G, KC_H, KC_J, KC_K, KC_L, KC_SCLN, KC_QUOT, KC_ENT, KC_PGDN,
KC_LSFT, KC_Z, KC_X, KC_C, KC_V, KC_B, KC_N, KC_M, KC_COMM, KC_DOT, KC_SLSH, KC_RSFT, KC_UP, KC_END,
KC_CAPS, KC_LGUI, KC_LALT, KC_SPC, KC_RALT, MO(1), KC_LEFT, KC_DOWN, KC_RIGHT),
[1] = LAYOUT_default(
KC_BSLS, KC_F1, KC_F2, KC_F3, KC_F4, KC_F5, KC_F6, KC_F7, KC_F8, KC_F9, KC_F10, KC_F11, KC_F12, _______, _______, _______,
RESET, RGB_TOG, RGB_MOD, _______, KC_F13, KC_F14, KC_F24, _______, _______, _______, _______, _______, _______, _______, _______,
_______, _______, _______, _______, _______, _______, KC_LEFT, KC_DOWN, KC_UP,KC_RIGHT, _______, _______, _______, _______,
_______, _______, _______, _______, _______, _______, _______, _______, _______, _______, _______, _______, _______, _______,
_______, _______, _______, _______, _______,_______, _______, _______, _______),
};

View File

@ -0,0 +1,20 @@
/**
* keymap.c
*/
#include QMK_KEYBOARD_H
const uint16_t PROGMEM keymaps[][MATRIX_ROWS][MATRIX_COLS] = {
[0] = LAYOUT_default_splitspace(
KC_ESC, KC_1, KC_2, KC_3, KC_4, KC_5, KC_6, KC_7, KC_8, KC_9, KC_0, KC_MINS, KC_EQL, KC_BSLS, KC_GRV, KC_PSCR,
KC_TAB, KC_Q, KC_W, KC_E, KC_R, KC_T, KC_Y, KC_U, KC_I, KC_O, KC_P, KC_LBRC, KC_RBRC, KC_BSPC, KC_PGUP,
KC_LCTRL, KC_A, KC_S, KC_D, KC_F, KC_G, KC_H, KC_J, KC_K, KC_L, KC_SCLN, KC_QUOT, KC_ENT, KC_PGDN,
KC_LSFT, KC_Z, KC_X, KC_C, KC_V, KC_B, KC_N, KC_M, KC_COMM, KC_DOT, KC_SLSH, KC_RSFT, KC_UP, KC_END,
KC_CAPS, KC_LGUI, KC_LALT, KC_SPC, KC_SPC, KC_SPC, KC_RALT, MO(1), KC_LEFT, KC_DOWN, KC_RIGHT),
[1] = LAYOUT_default_splitspace(
KC_BSLS, KC_F1, KC_F2, KC_F3, KC_F4, KC_F5, KC_F6, KC_F7, KC_F8, KC_F9, KC_F10, KC_F11, KC_F12, _______, _______, _______,
RESET, RGB_TOG, RGB_MOD, _______, KC_F13, KC_F14, KC_F24, _______, _______, _______, _______, _______, _______, _______, _______,
_______, _______, _______, _______, _______, _______, KC_LEFT, KC_DOWN, KC_UP,KC_RIGHT, _______, _______, _______, _______,
_______, _______, _______, _______, _______, _______, _______, _______, _______, _______, _______, _______, _______, _______,
_______, _______, _______, _______, _______, _______, _______, _______, _______, _______, _______),
};

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/*
ChibiOS - Copyright (C) 2006..2016 Giovanni Di Sirio
Licensed under the Apache License, Version 2.0 (the "License");
you may not use this file except in compliance with the License.
You may obtain a copy of the License at
http://www.apache.org/licenses/LICENSE-2.0
Unless required by applicable law or agreed to in writing, software
distributed under the License is distributed on an "AS IS" BASIS,
WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
See the License for the specific language governing permissions and
limitations under the License.
*/
/*
* STM32F411xE memory setup.
*/
MEMORY
{
flash0 : org = 0x08020000, len = 512k-128k
flash1 : org = 0x00000000, len = 0
flash2 : org = 0x00000000, len = 0
flash3 : org = 0x00000000, len = 0
flash4 : org = 0x00000000, len = 0
flash5 : org = 0x00000000, len = 0
flash6 : org = 0x00000000, len = 0
flash7 : org = 0x00000000, len = 0
ram0 : org = 0x20000000, len = 128k
ram1 : org = 0x00000000, len = 0
ram2 : org = 0x00000000, len = 0
ram3 : org = 0x00000000, len = 0
ram4 : org = 0x00000000, len = 0
ram5 : org = 0x00000000, len = 0
ram6 : org = 0x00000000, len = 0
ram7 : org = 0x00000000, len = 0
}
/* For each data/text section two region are defined, a virtual region
and a load region (_LMA suffix).*/
/* Flash region to be used for exception vectors.*/
REGION_ALIAS("VECTORS_FLASH", flash0);
REGION_ALIAS("VECTORS_FLASH_LMA", flash0);
/* Flash region to be used for constructors and destructors.*/
REGION_ALIAS("XTORS_FLASH", flash0);
REGION_ALIAS("XTORS_FLASH_LMA", flash0);
/* Flash region to be used for code text.*/
REGION_ALIAS("TEXT_FLASH", flash0);
REGION_ALIAS("TEXT_FLASH_LMA", flash0);
/* Flash region to be used for read only data.*/
REGION_ALIAS("RODATA_FLASH", flash0);
REGION_ALIAS("RODATA_FLASH_LMA", flash0);
/* Flash region to be used for various.*/
REGION_ALIAS("VARIOUS_FLASH", flash0);
REGION_ALIAS("VARIOUS_FLASH_LMA", flash0);
/* Flash region to be used for RAM(n) initialization data.*/
REGION_ALIAS("RAM_INIT_FLASH_LMA", flash0);
/* RAM region to be used for Main stack. This stack accommodates the processing
of all exceptions and interrupts.*/
REGION_ALIAS("MAIN_STACK_RAM", ram0);
/* RAM region to be used for the process stack. This is the stack used by
the main() function.*/
REGION_ALIAS("PROCESS_STACK_RAM", ram0);
/* RAM region to be used for data segment.*/
REGION_ALIAS("DATA_RAM", ram0);
REGION_ALIAS("DATA_RAM_LMA", flash0);
/* RAM region to be used for BSS segment.*/
REGION_ALIAS("BSS_RAM", ram0);
/* RAM region to be used for the default heap.*/
REGION_ALIAS("HEAP_RAM", ram0);
/* Generic rules inclusion.*/
INCLUDE rules.ld

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/**
* matrix.c
*/
#include <stdint.h>
#include <stdbool.h>
#include <string.h>
#include "hal.h"
#include "quantum.h"
#include "timer.h"
#include "wait.h"
#include "printf.h"
#include "matrix.h"
/**
*
* Row pins are input with internal pull-down.
* Column pins are output and strobe with high.
* Key is high or 1 when it turns on.
*
*/
/* matrix state(1:on, 0:off) */
static matrix_row_t matrix[MATRIX_ROWS];
static matrix_row_t matrix_debouncing[MATRIX_COLS];
static bool debouncing = false;
static uint16_t debouncing_time = 0;
void matrix_init(void)
{
//debug_enable = true;
palSetLineMode(LINE_COL_1, PAL_MODE_OUTPUT_PUSHPULL);
palSetLineMode(LINE_COL_2, PAL_MODE_OUTPUT_PUSHPULL);
palSetLineMode(LINE_COL_3, PAL_MODE_OUTPUT_PUSHPULL);
palSetLineMode(LINE_COL_4, PAL_MODE_OUTPUT_PUSHPULL);
palSetLineMode(LINE_COL_5, PAL_MODE_OUTPUT_PUSHPULL);
palSetLineMode(LINE_COL_6, PAL_MODE_OUTPUT_PUSHPULL);
palSetLineMode(LINE_COL_7, PAL_MODE_OUTPUT_PUSHPULL);
palSetLineMode(LINE_COL_8, PAL_MODE_OUTPUT_PUSHPULL);
palSetLineMode(LINE_COL_9, PAL_MODE_OUTPUT_PUSHPULL);
palSetLineMode(LINE_COL_10, PAL_MODE_OUTPUT_PUSHPULL);
palSetLineMode(LINE_COL_11, PAL_MODE_OUTPUT_PUSHPULL);
palSetLineMode(LINE_COL_12, PAL_MODE_OUTPUT_PUSHPULL);
palSetLineMode(LINE_COL_13, PAL_MODE_OUTPUT_PUSHPULL);
palSetLineMode(LINE_COL_14, PAL_MODE_OUTPUT_PUSHPULL);
palSetLineMode(LINE_COL_15, PAL_MODE_OUTPUT_PUSHPULL);
palSetLineMode(LINE_ROW_1, PAL_MODE_INPUT_PULLDOWN);
palSetLineMode(LINE_ROW_2, PAL_MODE_INPUT_PULLDOWN);
palSetLineMode(LINE_ROW_3, PAL_MODE_INPUT_PULLDOWN);
palSetLineMode(LINE_ROW_4, PAL_MODE_INPUT_PULLDOWN);
palSetLineMode(LINE_ROW_5, PAL_MODE_INPUT_PULLDOWN);
palClearLine(LINE_COL_1);
palClearLine(LINE_COL_2);
palClearLine(LINE_COL_3);
palClearLine(LINE_COL_4);
palClearLine(LINE_COL_5);
palClearLine(LINE_COL_6);
palClearLine(LINE_COL_7);
palClearLine(LINE_COL_8);
palClearLine(LINE_COL_9);
palClearLine(LINE_COL_10);
palClearLine(LINE_COL_11);
palClearLine(LINE_COL_12);
palClearLine(LINE_COL_13);
palClearLine(LINE_COL_14);
palClearLine(LINE_COL_15);
memset(matrix, 0, MATRIX_ROWS * sizeof(matrix_row_t));
memset(matrix_debouncing, 0, MATRIX_COLS * sizeof(matrix_row_t));
matrix_init_quantum();
}
uint8_t matrix_scan(void)
{
for (int col = 0; col < MATRIX_COLS; col++) {
matrix_row_t data = 0;
switch (col) {
case 0: palSetLine(LINE_COL_1); break;
case 1: palSetLine(LINE_COL_2); break;
case 2: palSetLine(LINE_COL_3); break;
case 3: palSetLine(LINE_COL_4); break;
case 4: palSetLine(LINE_COL_5); break;
case 5: palSetLine(LINE_COL_6); break;
case 6: palSetLine(LINE_COL_7); break;
case 7: palSetLine(LINE_COL_8); break;
case 8: palSetLine(LINE_COL_9); break;
case 9: palSetLine(LINE_COL_10); break;
case 10: palSetLine(LINE_COL_11); break;
case 11: palSetLine(LINE_COL_12); break;
case 12: palSetLine(LINE_COL_13); break;
case 13: palSetLine(LINE_COL_14); break;
case 14: palSetLine(LINE_COL_15); break;
}
// need wait to settle pin state
wait_us(20);
data = (
(palReadLine(LINE_ROW_1) << 0 ) |
(palReadLine(LINE_ROW_2) << 1 ) |
(palReadLine(LINE_ROW_3) << 2 ) |
(palReadLine(LINE_ROW_4) << 3 ) |
(palReadLine(LINE_ROW_5) << 4 )
);
switch (col) {
case 0: palClearLine(LINE_COL_1); break;
case 1: palClearLine(LINE_COL_2); break;
case 2: palClearLine(LINE_COL_3); break;
case 3: palClearLine(LINE_COL_4); break;
case 4: palClearLine(LINE_COL_5); break;
case 5: palClearLine(LINE_COL_6); break;
case 6: palClearLine(LINE_COL_7); break;
case 7: palClearLine(LINE_COL_8); break;
case 8: palClearLine(LINE_COL_9); break;
case 9: palClearLine(LINE_COL_10); break;
case 10: palClearLine(LINE_COL_11); break;
case 11: palClearLine(LINE_COL_12); break;
case 12: palClearLine(LINE_COL_13); break;
case 13: palClearLine(LINE_COL_14); break;
case 14: palClearLine(LINE_COL_15); break;
}
if (matrix_debouncing[col] != data) {
matrix_debouncing[col] = data;
debouncing = true;
debouncing_time = timer_read();
}
}
if (debouncing && timer_elapsed(debouncing_time) > DEBOUNCING_DELAY) {
for (int row = 0; row < MATRIX_ROWS; row++) {
matrix[row] = 0;
for (int col = 0; col < MATRIX_COLS; col++) {
matrix[row] |= ((matrix_debouncing[col] & (1 << row) ? 1 : 0) << col);
}
}
debouncing = false;
}
matrix_scan_quantum();
return 1;
}
bool matrix_is_on(uint8_t row, uint8_t col) { return (matrix[row] & (1<<col)); }
matrix_row_t matrix_get_row(uint8_t row) { return matrix[row]; }
void matrix_print(void)
{
printf("\nr/c 01234567\n");
for (uint8_t row = 0; row < MATRIX_ROWS; row++) {
printf("%X0: ", row);
matrix_row_t data = matrix_get_row(row);
for (int col = 0; col < MATRIX_COLS; col++) {
if (data & (1<<col))
printf("1");
else
printf("0");
}
printf("\n");
}
}

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/*
ChibiOS - Copyright (C) 2006..2016 Giovanni Di Sirio
Licensed under the Apache License, Version 2.0 (the "License");
you may not use this file except in compliance with the License.
You may obtain a copy of the License at
http://www.apache.org/licenses/LICENSE-2.0
Unless required by applicable law or agreed to in writing, software
distributed under the License is distributed on an "AS IS" BASIS,
WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
See the License for the specific language governing permissions and
limitations under the License.
*/
#ifndef MCUCONF_H
#define MCUCONF_H
/*
* STM32F4xx drivers configuration.
* The following settings override the default settings present in
* the various device driver implementation headers.
* Note that the settings for each driver only have effect if the whole
* driver is enabled in halconf.h.
*
* IRQ priorities:
* 15...0 Lowest...Highest.
*
* DMA priorities:
* 0...3 Lowest...Highest.
*/
#define STM32F4xx_MCUCONF
/*
* HAL driver system settings.
*/
#define STM32_NO_INIT FALSE
#define STM32_HSI_ENABLED TRUE
#define STM32_LSI_ENABLED TRUE
#define STM32_HSE_ENABLED TRUE
#define STM32_LSE_ENABLED FALSE
#define STM32_CLOCK48_REQUIRED TRUE
#define STM32_SW STM32_SW_PLL
#define STM32_PLLSRC STM32_PLLSRC_HSE
#define STM32_PLLM_VALUE 8
#define STM32_PLLN_VALUE 192
#define STM32_PLLP_VALUE 2
#define STM32_PLLQ_VALUE 4
#define STM32_HPRE STM32_HPRE_DIV1
#define STM32_PPRE1 STM32_PPRE1_DIV2
#define STM32_PPRE2 STM32_PPRE2_DIV2
#define STM32_RTCSEL STM32_RTCSEL_LSI
#define STM32_RTCPRE_VALUE 8
#define STM32_MCO1SEL STM32_MCO1SEL_HSI
#define STM32_MCO1PRE STM32_MCO1PRE_DIV1
#define STM32_MCO2SEL STM32_MCO2SEL_SYSCLK
#define STM32_MCO2PRE STM32_MCO2PRE_DIV5
#define STM32_I2SSRC STM32_I2SSRC_PLLI2S
#define STM32_PLLI2SN_VALUE 192
#define STM32_PLLI2SR_VALUE 2
#define STM32_PVD_ENABLE FALSE
#define STM32_PLS STM32_PLS_LEV0
#define STM32_BKPRAM_ENABLE FALSE
/*
* ADC driver system settings.
*/
#define STM32_ADC_ADCPRE ADC_CCR_ADCPRE_DIV4
#define STM32_ADC_USE_ADC1 FALSE
#define STM32_ADC_ADC1_DMA_STREAM STM32_DMA_STREAM_ID(2, 4)
#define STM32_ADC_ADC1_DMA_PRIORITY 2
#define STM32_ADC_IRQ_PRIORITY 6
#define STM32_ADC_ADC1_DMA_IRQ_PRIORITY 6
/*
* EXT driver system settings.
*/
#define STM32_EXT_EXTI0_IRQ_PRIORITY 6
#define STM32_EXT_EXTI1_IRQ_PRIORITY 6
#define STM32_EXT_EXTI2_IRQ_PRIORITY 6
#define STM32_EXT_EXTI3_IRQ_PRIORITY 6
#define STM32_EXT_EXTI4_IRQ_PRIORITY 6
#define STM32_EXT_EXTI5_9_IRQ_PRIORITY 6
#define STM32_EXT_EXTI10_15_IRQ_PRIORITY 6
#define STM32_EXT_EXTI16_IRQ_PRIORITY 6
#define STM32_EXT_EXTI17_IRQ_PRIORITY 15
#define STM32_EXT_EXTI18_IRQ_PRIORITY 6
#define STM32_EXT_EXTI19_IRQ_PRIORITY 6
#define STM32_EXT_EXTI22_IRQ_PRIORITY 15
/*
* GPT driver system settings.
*/
#define STM32_GPT_USE_TIM1 FALSE
#define STM32_GPT_USE_TIM2 FALSE
#define STM32_GPT_USE_TIM3 FALSE
#define STM32_GPT_USE_TIM4 TRUE
#define STM32_GPT_USE_TIM5 FALSE
#define STM32_GPT_USE_TIM9 FALSE
#define STM32_GPT_USE_TIM11 FALSE
#define STM32_GPT_TIM1_IRQ_PRIORITY 7
#define STM32_GPT_TIM2_IRQ_PRIORITY 7
#define STM32_GPT_TIM3_IRQ_PRIORITY 7
#define STM32_GPT_TIM4_IRQ_PRIORITY 7
#define STM32_GPT_TIM5_IRQ_PRIORITY 7
#define STM32_GPT_TIM9_IRQ_PRIORITY 7
#define STM32_GPT_TIM11_IRQ_PRIORITY 7
/*
* I2C driver system settings.
*/
#define STM32_I2C_USE_I2C1 TRUE
#define STM32_I2C_USE_I2C2 FALSE
#define STM32_I2C_USE_I2C3 FALSE
#define STM32_I2C_BUSY_TIMEOUT 50
#define STM32_I2C_I2C1_RX_DMA_STREAM STM32_DMA_STREAM_ID(1, 0)
#define STM32_I2C_I2C1_TX_DMA_STREAM STM32_DMA_STREAM_ID(1, 6)
#define STM32_I2C_I2C2_RX_DMA_STREAM STM32_DMA_STREAM_ID(1, 2)
#define STM32_I2C_I2C2_TX_DMA_STREAM STM32_DMA_STREAM_ID(1, 7)
#define STM32_I2C_I2C3_RX_DMA_STREAM STM32_DMA_STREAM_ID(1, 2)
#define STM32_I2C_I2C3_TX_DMA_STREAM STM32_DMA_STREAM_ID(1, 4)
#define STM32_I2C_I2C1_IRQ_PRIORITY 5
#define STM32_I2C_I2C2_IRQ_PRIORITY 5
#define STM32_I2C_I2C3_IRQ_PRIORITY 5
#define STM32_I2C_I2C1_DMA_PRIORITY 3
#define STM32_I2C_I2C2_DMA_PRIORITY 3
#define STM32_I2C_I2C3_DMA_PRIORITY 3
#define STM32_I2C_DMA_ERROR_HOOK(i2cp) osalSysHalt("DMA failure")
/*
* I2S driver system settings.
*/
#define STM32_I2S_USE_SPI2 FALSE
#define STM32_I2S_USE_SPI3 FALSE
#define STM32_I2S_SPI2_IRQ_PRIORITY 10
#define STM32_I2S_SPI3_IRQ_PRIORITY 10
#define STM32_I2S_SPI2_DMA_PRIORITY 1
#define STM32_I2S_SPI3_DMA_PRIORITY 1
#define STM32_I2S_SPI2_RX_DMA_STREAM STM32_DMA_STREAM_ID(1, 3)
#define STM32_I2S_SPI2_TX_DMA_STREAM STM32_DMA_STREAM_ID(1, 4)
#define STM32_I2S_SPI3_RX_DMA_STREAM STM32_DMA_STREAM_ID(1, 0)
#define STM32_I2S_SPI3_TX_DMA_STREAM STM32_DMA_STREAM_ID(1, 7)
#define STM32_I2S_DMA_ERROR_HOOK(i2sp) osalSysHalt("DMA failure")
/*
* ICU driver system settings.
*/
#define STM32_ICU_USE_TIM1 FALSE
#define STM32_ICU_USE_TIM2 FALSE
#define STM32_ICU_USE_TIM3 FALSE
#define STM32_ICU_USE_TIM4 FALSE
#define STM32_ICU_USE_TIM5 FALSE
#define STM32_ICU_USE_TIM9 FALSE
#define STM32_ICU_TIM1_IRQ_PRIORITY 7
#define STM32_ICU_TIM2_IRQ_PRIORITY 7
#define STM32_ICU_TIM3_IRQ_PRIORITY 7
#define STM32_ICU_TIM4_IRQ_PRIORITY 7
#define STM32_ICU_TIM5_IRQ_PRIORITY 7
#define STM32_ICU_TIM9_IRQ_PRIORITY 7
/*
* PWM driver system settings.
*/
#define STM32_PWM_USE_ADVANCED FALSE
#define STM32_PWM_USE_TIM1 TRUE
#define STM32_PWM_USE_TIM2 FALSE
#define STM32_PWM_USE_TIM3 TRUE
#define STM32_PWM_USE_TIM4 FALSE
#define STM32_PWM_USE_TIM5 FALSE
#define STM32_PWM_USE_TIM9 FALSE
#define STM32_PWM_TIM1_IRQ_PRIORITY 7
#define STM32_PWM_TIM2_IRQ_PRIORITY 7
#define STM32_PWM_TIM3_IRQ_PRIORITY 7
#define STM32_PWM_TIM4_IRQ_PRIORITY 7
#define STM32_PWM_TIM5_IRQ_PRIORITY 7
#define STM32_PWM_TIM9_IRQ_PRIORITY 7
/*
* SERIAL driver system settings.
*/
#define STM32_SERIAL_USE_USART1 FALSE
#define STM32_SERIAL_USE_USART2 FALSE
#define STM32_SERIAL_USE_USART3 FALSE
#define STM32_SERIAL_USE_USART6 FALSE
#define STM32_SERIAL_USART1_PRIORITY 12
#define STM32_SERIAL_USART2_PRIORITY 12
#define STM32_SERIAL_USART3_PRIORITY 12
#define STM32_SERIAL_USART6_PRIORITY 12
/*
* SPI driver system settings.
*/
#define STM32_SPI_USE_SPI1 TRUE
#define STM32_SPI_USE_SPI2 FALSE
#define STM32_SPI_USE_SPI3 FALSE
#define STM32_SPI_USE_SPI4 FALSE
#define STM32_SPI_USE_SPI5 FALSE
#define STM32_SPI_SPI1_RX_DMA_STREAM STM32_DMA_STREAM_ID(2, 0)
#define STM32_SPI_SPI1_TX_DMA_STREAM STM32_DMA_STREAM_ID(2, 3)
#define STM32_SPI_SPI2_RX_DMA_STREAM STM32_DMA_STREAM_ID(1, 3)
#define STM32_SPI_SPI2_TX_DMA_STREAM STM32_DMA_STREAM_ID(1, 4)
#define STM32_SPI_SPI3_RX_DMA_STREAM STM32_DMA_STREAM_ID(1, 0)
#define STM32_SPI_SPI3_TX_DMA_STREAM STM32_DMA_STREAM_ID(1, 7)
#define STM32_SPI_SPI4_RX_DMA_STREAM STM32_DMA_STREAM_ID(2, 4)
#define STM32_SPI_SPI4_TX_DMA_STREAM STM32_DMA_STREAM_ID(2, 1)
#define STM32_SPI_SPI5_RX_DMA_STREAM STM32_DMA_STREAM_ID(2, 5)
#define STM32_SPI_SPI5_TX_DMA_STREAM STM32_DMA_STREAM_ID(2, 6)
#define STM32_SPI_SPI1_DMA_PRIORITY 1
#define STM32_SPI_SPI2_DMA_PRIORITY 1
#define STM32_SPI_SPI3_DMA_PRIORITY 1
#define STM32_SPI_SPI4_DMA_PRIORITY 1
#define STM32_SPI_SPI5_DMA_PRIORITY 1
#define STM32_SPI_SPI1_IRQ_PRIORITY 10
#define STM32_SPI_SPI2_IRQ_PRIORITY 10
#define STM32_SPI_SPI3_IRQ_PRIORITY 10
#define STM32_SPI_SPI4_IRQ_PRIORITY 10
#define STM32_SPI_SPI5_IRQ_PRIORITY 10
#define STM32_SPI_DMA_ERROR_HOOK(spip) osalSysHalt("DMA failure")
/*
* ST driver system settings.
*/
#define STM32_ST_IRQ_PRIORITY 8
#define STM32_ST_USE_TIMER 2
/*
* UART driver system settings.
*/
#define STM32_UART_USE_USART1 FALSE
#define STM32_UART_USE_USART2 FALSE
#define STM32_UART_USE_USART3 FALSE
#define STM32_UART_USE_USART6 FALSE
#define STM32_UART_USART1_RX_DMA_STREAM STM32_DMA_STREAM_ID(2, 5)
#define STM32_UART_USART1_TX_DMA_STREAM STM32_DMA_STREAM_ID(2, 7)
#define STM32_UART_USART2_RX_DMA_STREAM STM32_DMA_STREAM_ID(1, 5)
#define STM32_UART_USART2_TX_DMA_STREAM STM32_DMA_STREAM_ID(1, 6)
#define STM32_UART_USART3_RX_DMA_STREAM STM32_DMA_STREAM_ID(1, 1)
#define STM32_UART_USART3_TX_DMA_STREAM STM32_DMA_STREAM_ID(1, 3)
#define STM32_UART_USART6_RX_DMA_STREAM STM32_DMA_STREAM_ID(2, 2)
#define STM32_UART_USART6_TX_DMA_STREAM STM32_DMA_STREAM_ID(2, 7)
#define STM32_UART_USART1_IRQ_PRIORITY 12
#define STM32_UART_USART2_IRQ_PRIORITY 12
#define STM32_UART_USART3_IRQ_PRIORITY 12
#define STM32_UART_USART6_IRQ_PRIORITY 12
#define STM32_UART_USART1_DMA_PRIORITY 0
#define STM32_UART_USART2_DMA_PRIORITY 0
#define STM32_UART_USART3_DMA_PRIORITY 0
#define STM32_UART_USART6_DMA_PRIORITY 0
#define STM32_UART_DMA_ERROR_HOOK(uartp) osalSysHalt("DMA failure")
/*
* USB driver system settings.
*/
#define STM32_USB_USE_OTG1 TRUE
#define STM32_USB_OTG1_IRQ_PRIORITY 14
#define STM32_USB_OTG1_RX_FIFO_SIZE 512
#define STM32_USB_OTG_THREAD_PRIO LOWPRIO
#define STM32_USB_OTG_THREAD_STACK_SIZE 128
#define STM32_USB_OTGFIFO_FILL_BASEPRI 0
/*
* WDG driver system settings.
*/
#define STM32_WDG_USE_IWDG FALSE
#endif /* MCUCONF_H */

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/**
* noah.c
*/
#include "noah.h"
#ifdef RGBLIGHT_ENABLE
#include <string.h>
#include "rgblight.h"
#include "ws2812_f4.h"
extern rgblight_config_t rgblight_config;
// led 0 for caps lock, led 1 for scroll lock, led 3 for num lock
// led 4 for layer 1, led 5 for layer 2, led 6 for layer 3, led 7 for layer 4
#if RGBLED_NUM < 7
#error "MUST set the RGBLED_NUM bigger than 7"
#endif
LED_TYPE noah_leds[RGBLED_NUM];
static bool noah_led_mode = false;
void rgblight_set(void) {
memset(&noah_leds[0], 0, sizeof(noah_leds));
if (!rgblight_config.enable) {
for (uint8_t i = 0; i < RGBLED_NUM; i++) {
led[i].r = 0;
led[i].g = 0;
led[i].b = 0;
}
}
if (noah_led_mode) {
uint8_t ind_led = host_keyboard_leds();
if (IS_LED_ON(ind_led, USB_LED_CAPS_LOCK)) {
noah_leds[0] = led[0];
}
if (IS_LED_ON(ind_led, USB_LED_SCROLL_LOCK)) {
noah_leds[1] = led[1];
}
if (IS_LED_ON(ind_led, USB_LED_NUM_LOCK)) {
noah_leds[2] = led[2];
}
for (int32_t i = 0; i < 4; i++) {
if(layer_state_is(i+1)) {
noah_leds[i + 3] = led[i + 3];
}
}
} else {
memcpy(&noah_leds[0], &led[0], sizeof(noah_leds));
}
ws2812_setleds(noah_leds, RGBLED_NUM);
}
#endif
void matrix_scan_kb(void) { matrix_scan_user(); }
void matrix_init_kb(void) {
matrix_init_user();
}
__attribute__((weak))
void matrix_init_user(void) {
#ifdef RGBLIGHT_ENABLE
ws2812_init();
rgblight_enable();
#endif
#ifdef RGB_MATRIX_ENABLE
rgb_matrix_disable();
#endif
}
__attribute__((weak))
void matrix_scan_user(void) {
#ifdef RGBLIGHT_ENABLE
rgblight_task();
#endif
}
#ifdef RGB_MATRIX_ENABLE
const is31_led g_is31_leds[DRIVER_LED_TOTAL] = {
/* Refer to IS31 manual for these locations
* driver
* | R location
* | | G location
* | | | B location
* | | | | */
// left CB
{0, C1_9, C3_10, C4_10},
{0, C1_10, C2_10, C4_11},
{0, C1_11, C2_11, C3_11},
{0, C1_12, C2_12, C3_12},
{0, C1_13, C2_13, C3_13},
{0, C1_14, C2_14, C3_14},
{0, C1_15, C2_15, C3_15},
{0, C1_16, C2_16, C3_16},
{0, C5_9, C4_9, C6_9},
{0, C5_16, C4_16, C6_16},
{0, C9_9, C8_9, C7_9},
{0, C9_10, C8_10, C7_10},
{0, C9_11, C8_11, C7_11},
{0, C9_12, C8_12, C7_12},
{0, C9_13, C8_13, C7_13},
{0, C9_14, C8_14, C7_14},
{0, C9_15, C8_15, C6_14},
{0, C9_16, C7_15, C6_15},
// left CA
{0, C1_1, C3_2, C4_2},
{0, C1_2, C2_2, C4_3},
{0, C1_3, C2_3, C3_3},
{0, C1_4, C2_4, C3_4},
{0, C1_5, C2_5, C3_5},
{0, C1_6, C2_6, C3_6},
{0, C1_7, C2_7, C3_7},
{0, C1_8, C2_8, C3_8},
{0, C5_1, C4_1, C6_1},
{0, C5_8, C4_8, C6_8},
{0, C9_1, C8_1, C7_1},
{0, C9_2, C8_2, C7_2},
{0, C9_3, C8_3, C7_3},
{0, C9_4, C8_4, C7_4},
{0, C9_5, C8_5, C7_5},
{0, C9_6, C8_6, C7_6},
{0, C9_7, C8_7, C6_6},
{0, C9_8, C7_7, C6_7},
// right CA
{1, C1_1, C3_2, C4_2},
{1, C1_2, C2_2, C4_3},
{1, C1_3, C2_3, C3_3},
{1, C1_4, C2_4, C3_4},
{1, C1_5, C2_5, C3_5},
{1, C1_6, C2_6, C3_6},
{1, C1_7, C2_7, C3_7},
{1, C1_8, C2_8, C3_8},
{1, C5_1, C4_1, C6_1},
{1, C5_8, C4_8, C6_8},
{1, C9_1, C8_1, C7_1},
{1, C9_2, C8_2, C7_2},
{1, C9_3, C8_3, C7_3},
{1, C9_4, C8_4, C7_4},
{1, C9_5, C8_5, C7_5},
{1, C9_6, C8_6, C7_6},
{1, C9_7, C8_7, C6_6},
{1, C9_8, C7_7, C6_7},
// right CB
{1, C1_9, C3_10, C4_10},
{1, C1_10, C2_10, C4_11},
{1, C1_11, C2_11, C3_11},
{1, C1_12, C2_12, C3_12},
{1, C1_13, C2_13, C3_13},
{1, C1_14, C2_14, C3_14},
{1, C1_15, C2_15, C3_15},
{1, C1_16, C2_16, C3_16},
{1, C5_9, C4_9, C6_9},
{1, C5_16, C4_16, C6_16},
{1, C9_9, C8_9, C7_9},
{1, C9_10, C8_10, C7_10},
{1, C9_11, C8_11, C7_11},
{1, C9_12, C8_12, C7_12},
{1, C9_13, C8_13, C7_13},
{1, C9_14, C8_14, C7_14},
{1, C9_15, C8_15, C6_14},
{1, C9_16, C7_15, C6_15},
};
led_config_t g_led_config = {
{
{ 1, 2, 3, 4, 5, 6, 7, 36, 37, 38, 39, 40, NO_LED, 41},
{ 0, 8, 10, 11, 12, 13, 14, 44, 46, 47, 48, 49, 50, 51},
{ 30, 18, 26, 9, 19, 15, 16, 17, 55, 56, 57, 58, 59, 60},
{ 29, 31, 32, 33, 20, 21, 23, 22, 54, 62, 64, 65, 66, 63},
{ 34, 35, 27, 25, 67, 68, 69, 70, 71, 61, 53, 45, 42, 43},
},
{
{ 0, 16},{ 0, 0},{ 15, 0},{ 30, 0},{ 45, 0},{ 60, 0},{ 75, 0},{ 90, 0},
{ 20, 16},{ 42, 32},
{ 45, 16},{ 50, 16},{ 65, 16},{ 80, 16},{ 95, 16},{ 70, 32},{ 84, 32},{ 98, 32},
{ 14, 32},{ 56, 32},{ 50, 48},{ 80, 48},{110, 48},{ 95, 48},{100, 64},{112, 64},
{ 42, 32},{ 38, 64},
{ 0, 32},{ 10, 48},{ 0, 48},{ 20, 48},{ 35, 48},{ 65, 48},{ 0, 64},{ 19, 64},
{105, 0},{120, 0},{135, 0},{150, 0},{165, 0},{180, 0},{202, 0},{224, 0},
{110, 16},{224, 16},
{125, 16},{140, 16},{155, 16},{172, 16},{187, 16},{202, 16},{210, 32},{224, 32},
{125, 48},{112, 32},{126, 32},{140, 32},{154, 32},{168, 32},{182, 32},{224, 48},
{140, 48},{200, 48},
{155, 48},{170, 48},{185, 48},{150, 64},{173, 64},{195, 64},{210, 64},{224, 64}
},
{
1, 1, 4, 4, 4, 4, 4, 4,
4, 4,
4, 4, 4, 4, 4, 4, 4, 4,
4, 4, 4, 4, 4, 4, 4, 4,
4, 4,
1, 1, 1, 4, 4, 4, 1, 1,
4, 4, 4, 4, 4, 4, 1, 1,
4, 1,
4, 4, 4, 4, 4, 4, 4, 1,
4, 4, 4, 4, 4, 4, 4, 1,
4, 4,
4, 4, 4, 1, 1, 1, 1, 1,
}
};
#endif
bool process_record_kb(uint16_t keycode, keyrecord_t *record) {
if (record->event.pressed) {
switch(keycode) {
#ifdef RGBLIGHT_ENABLE
case KC_F24: // switch the led mode on or off
noah_led_mode = !noah_led_mode;
return false;
#ifdef RGB_MATRIX_ENABLE
case KC_F13: // toggle rgb matrix
rgb_matrix_toggle();
return false;
case KC_F14:
rgb_matrix_step();
return false;
#endif
#endif
default:
break;
}
}
return true;
}

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/**
* noah.h
*/
#pragma once
#include "quantum.h"
#define LAYOUT_default( \
k00, k01, k02, k03, k04, k05, k06, k07, k08, k09, k0a, k0b, k0c, k0d, k0e, k0f, \
k10, k11, k12, k13, k14, k15, k16, k17, k18, k19, k1a, k1b, k1c, k1d, k1e, \
k20, k21, k22, k23, k24, k25, k26, k27, k28, k29, k2a, k2b, k2d, k2e, \
k30, k32, k33, k34, k35, k36, k37, k38, k39, k3a, k3b, k3c, k3d, k3e, \
k40, k41, k42, k43, k44, k45, k46, k47, k48) \
{ \
{k00, k01, k02, k03, k04, k05, k06, k07, k08, k09, k0a, k0b, k0c, k0d, k0e}, \
{k10, k11, k12, k13, k14, k15, k16, k17, k18, k19, k1a, k1b, k1c, k1d, KC_NO}, \
{k20, k21, k22, k23, k24, k25, k26, k27, k28, k29, k2a, k2b,KC_NO,k2d, KC_NO}, \
{k30,KC_NO,k32, k33, k34, k35, k36, k37, k38, k39, k3a, k3b, k3c, k3d, KC_NO}, \
{k40, k41, k42,KC_NO,k43,KC_NO,k44, k45, k46, k47, k48, k1e, k2e, k3e, k0f} \
}
#define LAYOUT_wkl( \
k00, k01, k02, k03, k04, k05, k06, k07, k08, k09, k0a, k0b, k0c, k0d, k0e, k0f, \
k10, k11, k12, k13, k14, k15, k16, k17, k18, k19, k1a, k1b, k1c, k1d, k1e, \
k20, k21, k22, k23, k24, k25, k26, k27, k28, k29, k2a, k2b, k2d, k2e, \
k30, k32, k33, k34, k35, k36, k37, k38, k39, k3a, k3b, k3c, k3d, k3e, \
k40, k41, k42, k43, k45, k46, k47, k48 \
) { \
{k00, k01, k02, k03, k04, k05, k06, k07, k08, k09, k0a, k0b, k0c, k0d, k0e}, \
{k10, k11, k12, k13, k14, k15, k16, k17, k18, k19, k1a, k1b, k1c, k1d, KC_NO}, \
{k20, k21, k22, k23, k24, k25, k26, k27, k28, k29, k2a, k2b,KC_NO,k2d, KC_NO}, \
{k30,KC_NO,k32, k33, k34, k35, k36, k37, k38, k39, k3a, k3b, k3c, k3d, KC_NO}, \
{k40, k41, k42,KC_NO,k43,KC_NO,KC_NO, k45, k46, k47, k48, k1e, k2e, k3e, k0f} \
}
#define LAYOUT_iso( \
k00, k01, k02, k03, k04, k05, k06, k07, k08, k09, k0a, k0b, k0c, k0e, k0f, \
k10, k11, k12, k13, k14, k15, k16, k17, k18, k19, k1a, k1b, k1c, k1e, \
k20, k21, k22, k23, k24, k25, k26, k27, k28, k29, k2a, k2b, k2c, k2d, k2e, \
k30, k31, k32, k33, k34, k35, k36, k37, k38, k39, k3a, k3b, k3c, k3d, k3e, \
k40, k41, k42, k43, k45, k46, k47, k48 \
) { \
{k00, k01, k02, k03, k04, k05, k06, k07, k08, k09, k0a, k0b, k0c, k0d, k0e}, \
{k10, k11, k12, k13, k14, k15, k16, k17, k18, k19, k1a, k1b, k1c, k1d, KC_NO}, \
{k20, k21, k22, k23, k24, k25, k26, k27, k28, k29, k2a, k2b, k2c, k2d, KC_NO}, \
{k30, k31, k32, k33, k34, k35, k36, k37, k38, k39, k3a, k3b, k3c, k3d, KC_NO}, \
{k40, k41, k42,KC_NO,k43,KC_NO,KC_NO, k45, k46, k47, k48, k1e, k2e, k3e, k0f} \
}
#define LAYOUT_default_splitspace( \
k00, k01, k02, k03, k04, k05, k06, k07, k08, k09, k0a, k0b, k0c, k0d, k0e, k0f, \
k10, k11, k12, k13, k14, k15, k16, k17, k18, k19, k1a, k1b, k1c, k1d, k1e, \
k20, k21, k22, k23, k24, k25, k26, k27, k28, k29, k2a, k2b, k2d, k2e, \
k30, k32, k33, k34, k35, k36, k37, k38, k39, k3a, k3b, k3c, k3d, k3e, \
k40, k41, k42, k43, k44, k45, k46, k47, k48, k49, k4a \
) { \
{k00, k01, k02, k03, k04, k05, k06, k07, k08, k09, k0a, k0b, k0c, k0d, k0e}, \
{k10, k11, k12, k13, k14, k15, k16, k17, k18, k19, k1a, k1b, k1c, k1d, KC_NO}, \
{k20, k21, k22, k23, k24, k25, k26, k27, k28, k29, k2a, k2b,KC_NO,k2d, KC_NO}, \
{k30,KC_NO,k32, k33, k34, k35, k36, k37, k38, k39, k3a, k3b, k3c, k3d, KC_NO}, \
{k40, k41, k42, k43, k44, k45, k46, k47, k48, k49, k4a, k1e, k2e, k3e, k0f} \
}
#define LAYOUT_wkl_splitspace( \
k00, k01, k02, k03, k04, k05, k06, k07, k08, k09, k0a, k0b, k0c, k0d, k0e, k0f, \
k10, k11, k12, k13, k14, k15, k16, k17, k18, k19, k1a, k1b, k1c, k1d, k1e, \
k20, k21, k22, k23, k24, k25, k26, k27, k28, k29, k2a, k2b, k2d, k2e, \
k30, k32, k33, k34, k35, k36, k37, k38, k39, k3a, k3b, k3c, k3d, k3e, \
k40, k41, k42, k43, k45, k46, k47, k48, k49, k4a \
) { \
{k00, k01, k02, k03, k04, k05, k06, k07, k08, k09, k0a, k0b, k0c, k0d, k0e}, \
{k10, k11, k12, k13, k14, k15, k16, k17, k18, k19, k1a, k1b, k1c, k1d, KC_NO}, \
{k20, k21, k22, k23, k24, k25, k26, k27, k28, k29, k2a, k2b,KC_NO,k2d, KC_NO}, \
{k30,KC_NO,k32, k33, k34, k35, k36, k37, k38, k39, k3a, k3b, k3c, k3d, KC_NO}, \
{k40, k41, k42, k43, k45,KC_NO,k46, k47, k48, k49, k4a, k1e, k2e, k3e, k0f} \
}
#define LAYOUT_iso_splitspace( \
k00, k01, k02, k03, k04, k05, k06, k07, k08, k09, k0a, k0b, k0c, k0e, k0f, \
k10, k11, k12, k13, k14, k15, k16, k17, k18, k19, k1a, k1b, k1c, k1e, \
k20, k21, k22, k23, k24, k25, k26, k27, k28, k29, k2a, k2b, k2c, k2d, k2e, \
k30, k31, k32, k33, k34, k35, k36, k37, k38, k39, k3a, k3b, k3c, k3d, k3e, \
k40, k41, k42, k43, k45, k46, k47, k48, k49, k4a \
) { \
{k00, k01, k02, k03, k04, k05, k06, k07, k08, k09, k0a, k0b, k0c, k0d, k0e}, \
{k10, k11, k12, k13, k14, k15, k16, k17, k18, k19, k1a, k1b, k1c, k1d, KC_NO}, \
{k20, k21, k22, k23, k24, k25, k26, k27, k28, k29, k2a, k2b, k2c, k2d, KC_NO}, \
{k30, k31, k32, k33, k34, k35, k36, k37, k38, k39, k3a, k3b, k3c, k3d, KC_NO}, \
{k40, k41, k42, k43, k45,KC_NO,k46, k47, k48, k49, k4a, k1e, k2e, k3e, k0f} \
}

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# NOAH 65 keyboard
![NOAH](https://raw.githubusercontent.com/yulei/qmk_webusb_tool/master/public/noah.jpg)
This was the first 65% keyboard made by the Matrix team, it had the following features:
- per key rgb led
- 7 RGB led for caps, scroll , num lock and layer state indicator, or just play light animation effects
- ansi and iso layouts, and split spacebar supported
- pre-programmed bootloader which emulated usb stick to ease firmware updating
Keyboard Maintainer: [astro](https://github.com/yulei)
Hardware Supported: Matrix NOAH keyboard
Hardware Availability: [NOAH Keybaord](https://geekhack.org/index.php?topic=102300.0)
Make example for this keyboard (after setting up your build environment):
make matrix/noah:default
See the [build environment setup](https://docs.qmk.fm/#/getting_started_build_tools) and the [make instructions](https://docs.qmk.fm/#/getting_started_make_guide) for more information. Brand new to QMK? Start with our [Complete Newbs Guide](https://docs.qmk.fm/#/newbs).

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## chip/board settings
# - the next two should match the directories in
# <chibios>/os/hal/ports/$(MCU_FAMILY)/$(MCU_SERIES)
MCU_FAMILY = STM32
MCU_SERIES = STM32F4xx
# Linker script to use
# - it should exist either in <chibios>/os/common/ports/ARMCMx/compilers/GCC/ld/
# or <this_dir>/ld/
MCU_LDSCRIPT = noah_boot
# Startup code to use
# - it should exist in <chibios>/os/common/startup/ARMCMx/compilers/GCC/mk/
MCU_STARTUP = stm32f4xx
# Board: it should exist either in <chibios>/os/hal/boards/
# or <this_dir>/boards
BOARD = noah_bd
# Cortex version
MCU = cortex-m4
# ARM version, CORTEX-M0/M1 are 6, CORTEX-M3/M4/M7 are 7
ARMV = 7
USE_FPU = yes
# Vector table for application
# 0x00000000-0x00001000 area is occupied by bootlaoder.*/
OPT_DEFS =
# Options to pass to dfu-util when flashing
#DFU_ARGS = -d 0483:df11 -a 0 -s 0x08000000:leave
#DFU_SUFFIX_ARGS = -p DF11 -v 0483
# Build Options
# comment out to disable the options.
#
BOOTMAGIC_ENABLE = yes # Virtual DIP switch configuration
MOUSEKEY_ENABLE = no # Mouse keys
EXTRAKEY_ENABLE = yes # Audio control and System control
CONSOLE_ENABLE = no # Console for debug
COMMAND_ENABLE = no # Commands for debug and configuration
NKRO_ENABLE = no # USB Nkey Rollover
NO_USB_STARTUP_CHECK = yes # Disable initialization only when usb is plugged in
CUSTOM_MATRIX = yes
RGB_MATRIX_ENABLE = yes
RGBLIGHT_ENABLE = yes
RGBLIGHT_CUSTOM_DRIVER = yes
# project specific files
SRC += \
matrix.c \
ws2812_f4.c \
eeprom_f4.c

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/**
* @file ws2812.c
* @author Austin Glaser <austin.glaser@gmail.com>, Joerg Wangemann <joerg.wangemann@gmail.com>
* @brief WS2812 LED driver
*
* Copyright (C) 2016 Austin Glaser, 2017 Joerg Wangemann
*
* This software may be modified and distributed under the terms
* of the MIT license. See the LICENSE file for details.
*
* @todo Put in names and descriptions of variables which need to be defined to use this file
*
* @addtogroup WS2812
* @{
*/
/* --- PRIVATE DEPENDENCIES ------------------------------------------------- */
// This Driver
#include "ws2812_f4.h"
// Standard
#include <stdint.h>
// ChibiOS
#include "ch.h"
#include "hal.h"
#include "wait.h"
// Application
//#include "board.h"
// TODO: Add these #define's to the headers of your project.
// Pin, timer and dma are all connected, check them all if you change one.
// Tested with STM32F4, working at 144 or 168 MHz.
//#define WS2812_LED_N 2 // Number of LEDs
//#define PORT_WS2812 GPIOB
//#define PIN_WS2812 9
//#define WS2812_TIM_N 4 // timer, 1-11
//#define WS2812_TIM_CH 3 // timer channel, 0-3
//#define WS2812_DMA_STREAM STM32_DMA1_STREAM2 // DMA stream for TIMx_UP (look up in reference manual under DMA Channel selection)
//#define WS2812_DMA_CHANNEL 6 // DMA channel for TIMx_UP
// The WS2812 expects 5V signal level (or at least 0.7 * VDD). Sometimes it works
// with a 3V signal level, otherwise the easiest way to get the signal level to 5V
// is to add an external pullup resistor from the DI pin to 5V (10k will do) and
// configure the pin as open drain.
// (An SMD resistor is easily solders on the connections of a light strip)
// Uncomment the next line if an external pullup resistor is used.
//#define WS2812_EXTERNAL_PULLUP
/* --- CONFIGURATION CHECK -------------------------------------------------- */
#if !defined(WS2812_LED_N)
#error WS2812 LED chain length not specified
#elif WS2812_LED_N <= 0
#error WS2812 LED chain length set to invalid value
#endif
#if !defined(WS2812_TIM_N)
#error WS2812 timer not specified
#endif
#if defined(STM32F2XX) || defined(STM32F4XX) || defined(STM32F7XX)
#if WS2812_TIM_N <= 2
#define WS2812_AF 1
#elif WS2812_TIM_N <= 5
#define WS2812_AF 2
#elif WS2812_TIM_N <= 11
#define WS2812_AF 3
#endif
#elif !defined(WS2812_AF)
#error WS2812_AF timer alternate function not specified
#endif
#if !defined(WS2812_TIM_CH)
#error WS2812 timer channel not specified
#elif WS2812_TIM_CH >= 4
#error WS2812 timer channel set to invalid value
#endif
/* --- PRIVATE CONSTANTS ---------------------------------------------------- */
#define WS2812_PWM_FREQUENCY (STM32_SYSCLK/2) /**< Clock frequency of PWM, must be valid with respect to system clock! */
#define WS2812_PWM_PERIOD (WS2812_PWM_FREQUENCY/800000) /**< Clock period in ticks. 1 / 800kHz = 1.25 uS (as per datasheet) */
/**
* @brief Number of bit-periods to hold the data line low at the end of a frame
*
* The reset period for each frame must be at least 50 uS; so we add in 50 bit-times
* of zeroes at the end. (50 bits)*(1.25 uS/bit) = 62.5 uS, which gives us some
* slack in the timing requirements
*/
#define WS2812_RESET_BIT_N (50)
#define WS2812_COLOR_BIT_N (WS2812_LED_N*24) /**< Number of data bits */
#define WS2812_BIT_N (WS2812_COLOR_BIT_N + WS2812_RESET_BIT_N) /**< Total number of bits in a frame */
/**
* @brief High period for a zero, in ticks
*
* Per the datasheet:
* WS2812:
* - T0H: 200 nS to 500 nS, inclusive
* - T0L: 650 nS to 950 nS, inclusive
* WS2812B:
* - T0H: 200 nS to 500 nS, inclusive
* - T0L: 750 nS to 1050 nS, inclusive
*
* The duty cycle is calculated for a high period of 350 nS.
*/
#define WS2812_DUTYCYCLE_0 (WS2812_PWM_FREQUENCY/(1000000000/450))
/**
* @brief High period for a one, in ticks
*
* Per the datasheet:
* WS2812:
* - T1H: 550 nS to 850 nS, inclusive
* - T1L: 450 nS to 750 nS, inclusive
* WS2812B:
* - T1H: 750 nS to 1050 nS, inclusive
* - T1L: 200 nS to 500 nS, inclusive
*
* The duty cycle is calculated for a high period of 800 nS.
* This is in the middle of the specifications of the WS2812 and WS2812B.
*/
#define WS2812_DUTYCYCLE_1 (WS2812_PWM_FREQUENCY/(1000000000/900))
/* --- PRIVATE MACROS ------------------------------------------------------- */
/**
* @brief Generates a reference to a numbered PWM driver
*
* @param[in] n: The driver (timer) number
*
* @return A reference to the driver
*/
#define PWMD(n) CONCAT_EXPANDED_SYMBOLS(PWMD, n)
#define WS2812_PWMD PWMD(WS2812_TIM_N) /**< The PWM driver to use for the LED chain */
/**
* @brief Determine the index in @ref ws2812_frame_buffer "the frame buffer" of a given bit
*
* @param[in] led: The led index [0, @ref WS2812_LED_N)
* @param[in] byte: The byte number [0, 2]
* @param[in] bit: The bit number [0, 7]
*
* @return The bit index
*/
#define WS2812_BIT(led, byte, bit) (24*(led) + 8*(byte) + (7 - (bit)))
/**
* @brief Determine the index in @ref ws2812_frame_buffer "the frame buffer" of a given red bit
*
* @note The red byte is the middle byte in the color packet
*
* @param[in] led: The led index [0, @ref WS2812_LED_N)
* @param[in] bit: The bit number [0, 7]
*
* @return The bit index
*/
#define WS2812_RED_BIT(led, bit) WS2812_BIT((led), 1, (bit))
/**
* @brief Determine the index in @ref ws2812_frame_buffer "the frame buffer" of a given green bit
*
* @note The green byte is the first byte in the color packet
*
* @param[in] led: The led index [0, @ref WS2812_LED_N)
* @param[in] bit: The bit number [0, 7]
*
* @return The bit index
*/
#define WS2812_GREEN_BIT(led, bit) WS2812_BIT((led), 0, (bit))
/**
* @brief Determine the index in @ref ws2812_frame_buffer "the frame buffer" of a given blue bit
*
* @note The blue byte is the last byte in the color packet
*
* @param[in] led: The led index [0, @ref WS2812_LED_N)
* @param[in] bit: The bit index [0, 7]
*
* @return The bit index
*/
#define WS2812_BLUE_BIT(led, bit) WS2812_BIT((led), 2, (bit))
/* --- PRIVATE VARIABLES ---------------------------------------------------- */
static uint32_t ws2812_frame_buffer[WS2812_BIT_N + 1]; /**< Buffer for a frame */
/* --- PUBLIC FUNCTIONS ----------------------------------------------------- */
/*
* Gedanke: Double-buffer type transactions: double buffer transfers using two memory pointers for
the memory (while the DMA is reading/writing from/to a buffer, the application can
write/read to/from the other buffer).
*/
void ws2812_init(void)
{
// Initialize led frame buffer
uint32_t i;
for (i = 0; i < WS2812_COLOR_BIT_N; i++) ws2812_frame_buffer[i] = WS2812_DUTYCYCLE_0; // All color bits are zero duty cycle
for (i = 0; i < WS2812_RESET_BIT_N; i++) ws2812_frame_buffer[i + WS2812_COLOR_BIT_N] = 0; // All reset bits are zero
// Configure pin as AF output. If there's an external pull up resistor the signal level is brought to 5V using open drain mode.
#ifdef WS2812_EXTERNAL_PULLUP
palSetPadMode(PORT_WS2812, PIN_WS2812, PAL_MODE_ALTERNATE(WS2812_AF) | PAL_STM32_OTYPE_OPENDRAIN);
#else
palSetPadMode(PORT_WS2812, PIN_WS2812, PAL_MODE_ALTERNATE(WS2812_AF) | PAL_STM32_OTYPE_PUSHPULL); //PAL_MODE_STM32_ALTERNATE_PUSHPULL);
#endif
//palClearPad(PORT_WS2812, PIN_WS2812);
//wait_ms(1);
// PWM Configuration
#pragma GCC diagnostic ignored "-Woverride-init" // Turn off override-init warning for this struct. We use the overriding ability to set a "default" channel config
static const PWMConfig ws2812_pwm_config = {
.frequency = WS2812_PWM_FREQUENCY,
.period = WS2812_PWM_PERIOD, //Mit dieser Periode wird UDE-Event erzeugt und ein neuer Wert (Länge WS2812_BIT_N) vom DMA ins CCR geschrieben
.callback = NULL,
.channels = {
[0 ... 3] = {.mode = PWM_OUTPUT_DISABLED, .callback = NULL}, // Channels default to disabled
[WS2812_TIM_CH] = {.mode = PWM_OUTPUT_ACTIVE_HIGH, .callback = NULL}, // Turn on the channel we care about
},
.cr2 = 0,
.dier = TIM_DIER_UDE, // DMA on update event for next period
};
#pragma GCC diagnostic pop // Restore command-line warning options
// Configure DMA
//dmaInit(); // Joe added this
dmaStreamAllocate(WS2812_DMA_STREAM, 10, NULL, NULL);
dmaStreamSetPeripheral(WS2812_DMA_STREAM, &(WS2812_PWMD.tim->CCR[WS2812_TIM_CH])); // Ziel ist der An-Zeit im Cap-Comp-Register
dmaStreamSetMemory0(WS2812_DMA_STREAM, ws2812_frame_buffer);
dmaStreamSetTransactionSize(WS2812_DMA_STREAM, WS2812_BIT_N);
dmaStreamSetMode(WS2812_DMA_STREAM,
STM32_DMA_CR_CHSEL(WS2812_DMA_CHANNEL) | STM32_DMA_CR_DIR_M2P | STM32_DMA_CR_PSIZE_WORD | STM32_DMA_CR_MSIZE_WORD |
STM32_DMA_CR_MINC | STM32_DMA_CR_CIRC | STM32_DMA_CR_PL(3));
// M2P: Memory 2 Periph; PL: Priority Level
// Start DMA
dmaStreamEnable(WS2812_DMA_STREAM);
// Configure PWM
// NOTE: It's required that preload be enabled on the timer channel CCR register. This is currently enabled in the
// ChibiOS driver code, so we don't have to do anything special to the timer. If we did, we'd have to start the timer,
// disable counting, enable the channel, and then make whatever configuration changes we need.
pwmStart(&WS2812_PWMD, &ws2812_pwm_config);
pwmEnableChannel(&WS2812_PWMD, WS2812_TIM_CH, 0); // Initial period is 0; output will be low until first duty cycle is DMA'd in
}
ws2812_err_t ws2812_write_led(uint32_t led_number, uint8_t r, uint8_t g, uint8_t b)
{
// Check for valid LED
if (led_number > WS2812_LED_N) return WS2812_LED_INVALID;
// Write color to frame buffer
for (uint32_t bit = 0; bit < 8; bit++) {
ws2812_frame_buffer[WS2812_RED_BIT(led_number, bit)] = ((r >> bit) & 0x01) ? WS2812_DUTYCYCLE_1 : WS2812_DUTYCYCLE_0;
ws2812_frame_buffer[WS2812_GREEN_BIT(led_number, bit)] = ((g >> bit) & 0x01) ? WS2812_DUTYCYCLE_1 : WS2812_DUTYCYCLE_0;
ws2812_frame_buffer[WS2812_BLUE_BIT(led_number, bit)] = ((b >> bit) & 0x01) ? WS2812_DUTYCYCLE_1 : WS2812_DUTYCYCLE_0;
}
// Success
return WS2812_SUCCESS;
}
void ws2812_setleds(LED_TYPE *ledarray, uint16_t number_of_leds)
{
for(int i = 0; i < number_of_leds; i++) {
ws2812_write_led(i, ledarray[i].r, ledarray[i].g, ledarray[i].b);
}
}
/** @} addtogroup WS2812 */

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/**
* @file ws2812.h
* @author Austin Glaser <austin.glaser@gmail.com>
* @brief Interface to WS2812 LED driver
*
* Copyright (C) 2016 Austin Glaser
*
* This software may be modified and distributed under the terms
* of the MIT license. See the LICENSE file for details.
*
* @todo Put in names and descriptions of variables which need to be defined to use this file
*/
#ifndef WS2812_H_
#define WS2812_H_
/**
* @defgroup WS2812 WS2812 Driver
* @{
*
* @brief DMA-based WS2812 LED driver
*
* A driver for WS2812 LEDs
*/
/* --- PUBLIC DEPENDENCIES -------------------------------------------------- */
// Standard
#include <stdint.h>
#include "color.h"
/* --- PUBLIC MACROS -------------------------------------------------------- */
/**
* @brief Concatenates two symbols s1 and s2 exactly, without expanding either
*
* @param[in] s1: The first symbol to concatenate
* @param[in] s2: The second symbol to concatenate
*
* @return A single symbol containing s1 and s2 concatenated without expansion
*/
#define CONCAT_SYMBOLS(s1, s2) s1##s2
/**
* @brief Concatenate the symbols s1 and s2, expanding both of them
*
* This is important because simply applying s1##s2 doesn't expand them if they're
* preprocessor tokens themselves
*
* @param[in] s1: The first symbol to concatenate
* @param[in] s2: The second symbol to concatenate
*
* @return A single symbol containing s1 expanded followed by s2 expanded
*/
#define CONCAT_EXPANDED_SYMBOLS(s1, s2) CONCAT_SYMBOLS(s1, s2)
/* --- PUBLIC CONSTANTS ----------------------------------------------------- */
/**
* @brief Return codes from ws2812 interface functions
*/
typedef enum {
WS2812_SUCCESS = 0x00, /**< Operation completeed successfully */
WS2812_LED_INVALID, /**< Attempted to index an invalid LED (@ref WS2812_N_LEDS) */
MAX_WS2812_ERR, /**< Total number of possible error codes */
WS2812_ERR_INVALID /**< Invalid error value */
} ws2812_err_t;
/* --- PUBLIC FUNCTIONS ----------------------------------------------------- */
/**
* @brief Initialize the driver
*
* After this function is called, all necessary background tasks will be started.
* The frame is initially dark.
*/
void ws2812_init(void);
/**
* @brief Write the value of a single LED in the chain
*
* The color value is written to a frame buffer, and will not
* be updated until the next frame is written. Frames are written
* at the maximum possible speed -- the longest latency between a
* call to this function and the value being displayed is
* 1.25uS*(24*@ref WS2812_LED_N + 50)
*
* @param[in] led_number: The index of the LED to be written. Must be strictly less than
* @ref WS2812_N_LEDS
* @param[in] r: The red level of the LED
* @param[in] g: The green level of the LED
* @param[in] b: The blue level of the LED
*
* @retval WS2812_SUCCESS: The write was successful
* @retval WS2812_LED_INVALID: The write was to an invalid LED index
*/
ws2812_err_t ws2812_write_led(uint32_t led_number, uint8_t r, uint8_t g, uint8_t b);
void ws2812_setleds(LED_TYPE *ledarray, uint16_t number_of_leds);
/** @} defgroup WS2812 */
#endif // ifndef WS2812_H_