SDFileSystemDMA - first 2016/02 SDFileSystemDMA inherited from Offi…

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first 2016/02 SDFileSystemDMA inherited from Official SDFileSystem.

Dependents: SDFileSystemDMA-test DmdFullRGB_0_1

SDFileSystemDMA is enhanced SDFileSystem library for STM32 micros by using DMA functionality.
Max read transfer rate reaches over 2MByte/sec at 24MHz SPI clock if enough read buffer size is set.
Even though minimum read buffer size (512Byte) is set, read transfer rate will reach over 1MByte/sec at 24MHz SPI Clock.
( but depends on the ability of each SD card)

Test program is here.
https://developer.mbed.org/users/mimi3/code/SDFileSystemDMA-test/

/media/uploads/mimi3/sdfilesystemdma-speed-test3-read-buffer-512byte.png

Supported SPI port is shown below table.

(v): Verified. It works well.
(w): Probably it will work well. (not tested)
(c): Only compiled. (not tested)
(f): Over flash.
(r): Only read mode. (when _FS_READONLY==1)
(u) Under construction
(z): Dose not work.

Caution

If your board has SRAM less than or equal to 8KB, the buffer size must be set to 512 Bytes.

Supported Boards:
Cortex-M0

Board	SRAM	SPI1	SPI2	SPI3
NUCLEO-F030R8	8KB	(v)
DISCO-F051R8	8KB	(w)
~~NUCLEO-F031K6~~	4KB	(f)
NUCLEO-F042K6	6KB	(r)
NUCLEO-F070RB	16KB	(w)
NUCLEO-F072RB	16KB	(w)
NUCLEO-F091RC	32KB	(c)

Cortex-L0

Board	SRAM	SPI1	SPI2	SPI3
DISCO-L053C8	8KB	(c)
NUCLEO-L053R8	8KB	(c)
NUCLEO-L073RZ	20KB	(c)

Cortex-M3

Board	SRAM	SPI1	SPI2	SPI3
DISCO-F100RB	8KB	(v)	(v)	-
BLUEPILL-F103CB	20KB	(w)	(w)	-
NUCLEO-F103RB	20KB	(v)	(v)	-
NUCLEO-L152RE	80KB	(v)	(w)	-
MOTE-L152RC	32KB	(w)	(w)	-

Cortex-M4
F3

Board	SRAM	SPI1	SPI2	SPI3
DISCO-F303VC	40KB	-	(v)	(v)
NUCLEO-F303RE	64KB	(w)	(w)	(w)
NUCLEO-F302R8	16KB	-	-	(c)
NUCLEO-F303K8	12KB	(c)	-	-
DISCO-F334C8	12KB	(c)	-	-
NUCLEO-F334R8	12KB	(c)	-	-

Board	SPI1	SPI2	SPI3
ELMO-F411RE	(w)	-	(w)
MTS-MDOT-F411RE	(u)	-	(u)
MTS-DRAGONFLY-F411RE	(w)	-	(w)
NUCLEO-F411RE	(v)	-	(v)
NUCLEO-F401RE	(w)	-	(w)
MTS-MDOT-F405RG	(u)	-	(u)
NUCLEO-F410RB	(c)	-	(c)
NUCLEO-F446RE	(c)	-	(c)
NUCLEO-F429ZI	(c)	-	(c)
B96B-F446VE	(c)	-	(c)
NUCLEO-F446ZE	(c)	-	(c)
DISCO-F429ZI	(u)	-	(u)
DISCO-F469NI	(c)	-	(c)

Information

This library is set to use "short file name" in SDFileSystemDMA/FATFileSystem/ChaN/ffconf.h . ( _USE_LFN=0)
You can change this option to _USE_LFN=1 .

spi_dma/spi_dma_stm32f0.c@18:1b1a0e68008a, 2016-02-15 (annotated)

Committer:: mimi3
Date:: Mon Feb 15 22:40:26 2016 +0900
Revision:: 18:1b1a0e68008a
Parent:: 2:0e871408d51b
Child:: 19:3fdd401607c8

Refactoring: part1: F0,F3,F4

Who changed what in which revision?

User	Revision	Line number	New contents of line
mimi3	2:0e871408d51b	1	#if defined(TARGET_STM32F0)
mimi3	2:0e871408d51b	2	/*
mimi3	2:0e871408d51b	3
mimi3	2:0e871408d51b	4	This file is licensed under Apache 2.0 license.
mimi3	2:0e871408d51b	5	(C) 2016 dinau
mimi3	2:0e871408d51b	6
mimi3	2:0e871408d51b	7	*/
mimi3	2:0e871408d51b	8	#include "spi_dma.h"
mimi3	2:0e871408d51b	9
mimi3	18:1b1a0e68008a	10	#define DMAx_CLK_ENABLE() __DMA1_CLK_ENABLE()
mimi3	18:1b1a0e68008a	11	#define SPIx_TX_DMA_CHANNEL DMA1_Channel3
mimi3	18:1b1a0e68008a	12	#define SPIx_RX_DMA_CHANNEL DMA1_Channel2
mimi3	18:1b1a0e68008a	13
mimi3	18:1b1a0e68008a	14	#if defined(TARGET_STM32F091RC)
mimi3	18:1b1a0e68008a	15	#define SPIx_DMA_IRQn DMA1_Ch2_3_DMA2_Ch1_2_IRQn
mimi3	18:1b1a0e68008a	16	#define DMA_SPI_IRQHandler DMA1_Ch2_3_DMA2_Ch1_2_IRQHandler
mimi3	18:1b1a0e68008a	17	#else
mimi3	18:1b1a0e68008a	18	#define SPIx_DMA_IRQn DMA1_Channel2_3_IRQn
mimi3	18:1b1a0e68008a	19	#define DMA_SPI_IRQHandler DMA1_Channel2_3_IRQHandler
mimi3	18:1b1a0e68008a	20	#endif
mimi3	18:1b1a0e68008a	21
mimi3	18:1b1a0e68008a	22	#define readReg( reg, mask) ( (reg) & (mask) )
mimi3	2:0e871408d51b	23
mimi3	2:0e871408d51b	24
mimi3	2:0e871408d51b	25	void spi_dma_get_info( SPI_TypeDef *spi )
mimi3	2:0e871408d51b	26	{
mimi3	18:1b1a0e68008a	27	SPI_HandleTypeDef *hspi;
mimi3	18:1b1a0e68008a	28	if( spi == SPI1 ){
mimi3	18:1b1a0e68008a	29	hspi = &Spi1Handle;
mimi3	18:1b1a0e68008a	30	}
mimi3	18:1b1a0e68008a	31	#if 0
mimi3	18:1b1a0e68008a	32	else {
mimi3	18:1b1a0e68008a	33	hspi = &Spi2Handle;
mimi3	18:1b1a0e68008a	34	}
mimi3	18:1b1a0e68008a	35	#endif
mimi3	18:1b1a0e68008a	36	hspi->Instance = spi;
mimi3	2:0e871408d51b	37	hspi->Init.Mode = readReg(spi->CR1, SPI_MODE_MASTER);
mimi3	2:0e871408d51b	38	hspi->Init.BaudRatePrescaler = readReg(spi->CR1, SPI_CR1_BR);
mimi3	2:0e871408d51b	39	hspi->Init.Direction = readReg(spi->CR1, SPI_CR1_BIDIMODE);
mimi3	2:0e871408d51b	40	hspi->Init.CLKPhase = readReg(spi->CR1, SPI_CR1_CPHA);
mimi3	2:0e871408d51b	41	hspi->Init.CLKPolarity = readReg(spi->CR1, SPI_CR1_CPOL);
mimi3	2:0e871408d51b	42	hspi->Init.CRCCalculation = readReg(spi->CR1, SPI_CR1_CRCEN);
mimi3	2:0e871408d51b	43	hspi->Init.CRCPolynomial = spi->CRCPR & 0xFFFF;
mimi3	2:0e871408d51b	44	hspi->Init.DataSize = readReg(spi->CR2, SPI_CR2_DS);
mimi3	2:0e871408d51b	45	hspi->Init.FirstBit = SPI_FIRSTBIT_MSB;
mimi3	2:0e871408d51b	46	hspi->Init.NSS = readReg(spi->CR1, SPI_CR1_SSM);
mimi3	2:0e871408d51b	47	hspi->Init.TIMode = SPI_TIMODE_DISABLED;
mimi3	18:1b1a0e68008a	48	hspi->State = HAL_SPI_STATE_READY;
mimi3	2:0e871408d51b	49	}
mimi3	2:0e871408d51b	50
mimi3	18:1b1a0e68008a	51	void spi_dma_handle_setup( SPI_TypeDef *spi, uint8_t mode )
mimi3	18:1b1a0e68008a	52	{
mimi3	18:1b1a0e68008a	53	static uint8_t dma_handle_inited = 0;
mimi3	18:1b1a0e68008a	54	/* Peripheral DMA init*/
mimi3	18:1b1a0e68008a	55	if( spi == SPI1 ){
mimi3	18:1b1a0e68008a	56	/* TX: */
mimi3	18:1b1a0e68008a	57	if( !dma_handle_inited ){
mimi3	18:1b1a0e68008a	58	hdma_spi1_tx.Instance = SPIx_TX_DMA_CHANNEL;
mimi3	18:1b1a0e68008a	59	hdma_spi1_tx.Init.Direction = DMA_MEMORY_TO_PERIPH;
mimi3	18:1b1a0e68008a	60	hdma_spi1_tx.Init.PeriphInc = DMA_PINC_DISABLE;
mimi3	18:1b1a0e68008a	61	hdma_spi1_tx.Init.PeriphDataAlignment = DMA_PDATAALIGN_BYTE;
mimi3	18:1b1a0e68008a	62	hdma_spi1_tx.Init.MemDataAlignment = DMA_MDATAALIGN_BYTE;
mimi3	18:1b1a0e68008a	63	hdma_spi1_tx.Init.Mode = DMA_NORMAL;
mimi3	18:1b1a0e68008a	64	hdma_spi1_tx.Init.Priority = DMA_PRIORITY_HIGH;
mimi3	18:1b1a0e68008a	65	}
mimi3	18:1b1a0e68008a	66	hdma_spi1_tx.Init.MemInc = ( mode == DMA_SPI_READ) ? DMA_MINC_DISABLE : DMA_MINC_ENABLE;
mimi3	18:1b1a0e68008a	67	HAL_DMA_Init(&hdma_spi1_tx);
mimi3	18:1b1a0e68008a	68	__HAL_LINKDMA( &Spi1Handle,hdmatx,hdma_spi1_tx);
mimi3	18:1b1a0e68008a	69	/* RX: */
mimi3	18:1b1a0e68008a	70	if( !dma_handle_inited ){
mimi3	18:1b1a0e68008a	71	hdma_spi1_rx.Instance = SPIx_RX_DMA_CHANNEL;
mimi3	18:1b1a0e68008a	72	hdma_spi1_rx.Init.Direction = DMA_PERIPH_TO_MEMORY;
mimi3	18:1b1a0e68008a	73	hdma_spi1_rx.Init.PeriphInc = DMA_PINC_DISABLE;
mimi3	18:1b1a0e68008a	74	hdma_spi1_rx.Init.PeriphDataAlignment = DMA_PDATAALIGN_BYTE;
mimi3	18:1b1a0e68008a	75	hdma_spi1_rx.Init.MemDataAlignment = DMA_MDATAALIGN_BYTE;
mimi3	18:1b1a0e68008a	76	hdma_spi1_rx.Init.Mode = DMA_NORMAL;
mimi3	18:1b1a0e68008a	77	hdma_spi1_rx.Init.Priority = DMA_PRIORITY_LOW;
mimi3	18:1b1a0e68008a	78	}
mimi3	18:1b1a0e68008a	79	hdma_spi1_rx.Init.MemInc = (mode == DMA_SPI_READ) ? DMA_MINC_ENABLE : DMA_MINC_DISABLE;
mimi3	18:1b1a0e68008a	80	HAL_DMA_Init(&hdma_spi1_rx);
mimi3	18:1b1a0e68008a	81	__HAL_LINKDMA( &Spi1Handle,hdmarx,hdma_spi1_rx);
mimi3	18:1b1a0e68008a	82	}
mimi3	18:1b1a0e68008a	83	#if 0
mimi3	18:1b1a0e68008a	84	else if( spi == SPI2 ) {
mimi3	2:0e871408d51b	85
mimi3	18:1b1a0e68008a	86	}
mimi3	18:1b1a0e68008a	87	#endif
mimi3	18:1b1a0e68008a	88	dma_handle_inited = 1;
mimi3	2:0e871408d51b	89	}
mimi3	2:0e871408d51b	90
mimi3	2:0e871408d51b	91	void spi_dma_irq_setup( SPI_TypeDef *spi)
mimi3	2:0e871408d51b	92	{
mimi3	18:1b1a0e68008a	93	if( spi == SPI1 ) {
mimi3	18:1b1a0e68008a	94	/* DMA controller clock enable */
mimi3	18:1b1a0e68008a	95	DMAx_CLK_ENABLE();
mimi3	2:0e871408d51b	96
mimi3	18:1b1a0e68008a	97	/* DMA interrupt init */
mimi3	18:1b1a0e68008a	98	HAL_NVIC_SetPriority(SPIx_DMA_IRQn, 1, 0);
mimi3	18:1b1a0e68008a	99	HAL_NVIC_EnableIRQ( SPIx_DMA_IRQn);
mimi3	18:1b1a0e68008a	100	}
mimi3	18:1b1a0e68008a	101	#if 0
mimi3	18:1b1a0e68008a	102	else if ( spi == SPI2 ){
mimi3	2:0e871408d51b	103
mimi3	18:1b1a0e68008a	104	}
mimi3	2:0e871408d51b	105	#endif
mimi3	2:0e871408d51b	106	}
mimi3	2:0e871408d51b	107
mimi3	18:1b1a0e68008a	108	void DMA_SPI_IRQHandler(void)
mimi3	2:0e871408d51b	109	{
mimi3	2:0e871408d51b	110	HAL_DMA_IRQHandler(&hdma_spi1_rx);
mimi3	2:0e871408d51b	111	HAL_DMA_IRQHandler(&hdma_spi1_tx);
mimi3	2:0e871408d51b	112	}
mimi3	2:0e871408d51b	113
mimi3	2:0e871408d51b	114
mimi3	18:1b1a0e68008a	115	#endif /* TARGET_STM32F0 */
mimi3	2:0e871408d51b	116

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Type:	Library
Created:	14 Feb 2016
Imports:	90
Forks:	1
Commits:	39
Dependents:	2
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The code in this repository is Apache licensed.