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/******************************************************************************
* The MIT License
*
* Copyright (c) 2012 LeafLabs, LLC
*
* Permission is hereby granted, free of charge, to any person
* obtaining a copy of this software and associated documentation
* files (the "Software"), to deal in the Software without
* restriction, including without limitation the rights to use, copy,
* modify, merge, publish, distribute, sublicense, and/or sell copies
* of the Software, and to permit persons to whom the Software is
* furnished to do so, subject to the following conditions:
*
* The above copyright notice and this permission notice shall be
* included in all copies or substantial portions of the Software.
*
* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND,
* EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF
* MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND
* NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS
* BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN
* ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN
* CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
* SOFTWARE.
*****************************************************************************/
/**
* @file libmaple/stm32f2/include/series/dma.h
* @author Marti Bolivar <mbolivar@leaflabs.com>
* @brief STM32F2 DMA series header
*/
#ifndef _LIBMAPLE_STM32F2_DMA_H_
#define _LIBMAPLE_STM32F2_DMA_H_
#ifdef __cplusplus
extern "C"{
#endif
#include <libmaple/dma_common.h>
#include <libmaple/libmaple_types.h>
/*
* Register map and base pointers
*/
/**
* @brief STM32F2 DMA register map type.
*/
typedef struct dma_reg_map {
/* Isn't it nice how on F1, it's CCR1, but on F2, it's S1CR? */
/* Global DMA registers */
__io uint32 LISR; /**< Low interrupt status register */
__io uint32 HISR; /**< High interrupt status register */
__io uint32 LIFCR; /**< Low interrupt flag clear register */
__io uint32 HIFCR; /**< High interrupt flag clear register */
/* Stream 0 registers */
__io uint32 S0CR; /**< Stream 0 control register */
__io uint32 S0NDTR; /**< Stream 0 number of data register */
__io uint32 S0PAR; /**< Stream 0 peripheral address register */
__io uint32 S0M0AR; /**< Stream 0 memory 0 address register */
__io uint32 S0M1AR; /**< Stream 0 memory 1 address register */
__io uint32 S0FCR; /**< Stream 0 FIFO control register */
/* Stream 1 registers */
__io uint32 S1CR; /**< Stream 1 control register */
__io uint32 S1NDTR; /**< Stream 1 number of data register */
__io uint32 S1PAR; /**< Stream 1 peripheral address register */
__io uint32 S1M0AR; /**< Stream 1 memory 0 address register */
__io uint32 S1M1AR; /**< Stream 1 memory 1 address register */
__io uint32 S1FCR; /**< Stream 1 FIFO control register */
/* Stream 2 registers */
__io uint32 S2CR; /**< Stream 2 control register */
__io uint32 S2NDTR; /**< Stream 2 number of data register */
__io uint32 S2PAR; /**< Stream 2 peripheral address register */
__io uint32 S2M0AR; /**< Stream 2 memory 0 address register */
__io uint32 S2M1AR; /**< Stream 2 memory 1 address register */
__io uint32 S2FCR; /**< Stream 2 FIFO control register */
/* Stream 3 registers */
__io uint32 S3CR; /**< Stream 3 control register */
__io uint32 S3NDTR; /**< Stream 3 number of data register */
__io uint32 S3PAR; /**< Stream 3 peripheral address register */
__io uint32 S3M0AR; /**< Stream 3 memory 0 address register */
__io uint32 S3M1AR; /**< Stream 3 memory 1 address register */
__io uint32 S3FCR; /**< Stream 3 FIFO control register */
/* Stream 4 registers */
__io uint32 S4CR; /**< Stream 4 control register */
__io uint32 S4NDTR; /**< Stream 4 number of data register */
__io uint32 S4PAR; /**< Stream 4 peripheral address register */
__io uint32 S4M0AR; /**< Stream 4 memory 0 address register */
__io uint32 S4M1AR; /**< Stream 4 memory 1 address register */
__io uint32 S4FCR; /**< Stream 4 FIFO control register */
/* Stream 5 registers */
__io uint32 S5CR; /**< Stream 5 control register */
__io uint32 S5NDTR; /**< Stream 5 number of data register */
__io uint32 S5PAR; /**< Stream 5 peripheral address register */
__io uint32 S5M0AR; /**< Stream 5 memory 0 address register */
__io uint32 S5M1AR; /**< Stream 5 memory 1 address register */
__io uint32 S5FCR; /**< Stream 5 FIFO control register */
/* Stream 6 registers */
__io uint32 S6CR; /**< Stream 6 control register */
__io uint32 S6NDTR; /**< Stream 6 number of data register */
__io uint32 S6PAR; /**< Stream 6 peripheral address register */
__io uint32 S6M0AR; /**< Stream 6 memory 0 address register */
__io uint32 S6M1AR; /**< Stream 6 memory 1 address register */
__io uint32 S6FCR; /**< Stream 6 FIFO control register */
/* Stream 7 registers */
__io uint32 S7CR; /**< Stream 7 control register */
__io uint32 S7NDTR; /**< Stream 7 number of data register */
__io uint32 S7PAR; /**< Stream 7 peripheral address register */
__io uint32 S7M0AR; /**< Stream 7 memory 0 address register */
__io uint32 S7M1AR; /**< Stream 7 memory 1 address register */
__io uint32 S7FCR; /**< Stream 7 FIFO control register */
} dma_reg_map;
/** DMA controller 1 register map base pointer */
#define DMA1_BASE ((struct dma_reg_map*)0x40026000)
/** DMA controller 2 register map base pointer */
#define DMA2_BASE ((struct dma_reg_map*)0x40026400)
/**
* @brief STM32F2 DMA stream (i.e. tube) register map type.
* Provides access to an individual stream's registers.
* @see dma_tube_regs()
*/
typedef struct dma_tube_reg_map {
__io uint32 SCR; /**< Stream configuration register */
__io uint32 SNDTR; /**< Stream number of data register */
__io uint32 SPAR; /**< Stream peripheral address register */
__io uint32 SM0AR; /**< Stream memory 0 address register */
__io uint32 SM1AR; /**< Stream memory 1 address register */
__io uint32 SFCR; /**< Stream FIFO control register */
} dma_tube_reg_map;
/** DMA1 stream 0 register map base pointer */
#define DMA1S0_BASE ((struct dma_tube_reg_map*)0x40026010)
/** DMA1 stream 1 register map base pointer */
#define DMA1S1_BASE ((struct dma_tube_reg_map*)0x40026028)
/** DMA1 stream 2 register map base pointer */
#define DMA1S2_BASE ((struct dma_tube_reg_map*)0x40026040)
/** DMA1 stream 3 register map base pointer */
#define DMA1S3_BASE ((struct dma_tube_reg_map*)0x40026058)
/** DMA1 stream 4 register map base pointer */
#define DMA1S4_BASE ((struct dma_tube_reg_map*)0x40026070)
/** DMA1 stream 5 register map base pointer */
#define DMA1S5_BASE ((struct dma_tube_reg_map*)0x40026088)
/** DMA1 stream 6 register map base pointer */
#define DMA1S6_BASE ((struct dma_tube_reg_map*)0x400260A0)
/** DMA1 stream 7 register map base pointer */
#define DMA1S7_BASE ((struct dma_tube_reg_map*)0x400260B8)
/** DMA2 stream 0 register map base pointer */
#define DMA2S0_BASE ((struct dma_tube_reg_map*)0x40026410)
/** DMA2 stream 1 register map base pointer */
#define DMA2S1_BASE ((struct dma_tube_reg_map*)0x40026028)
/** DMA2 stream 2 register map base pointer */
#define DMA2S2_BASE ((struct dma_tube_reg_map*)0x40026040)
/** DMA2 stream 3 register map base pointer */
#define DMA2S3_BASE ((struct dma_tube_reg_map*)0x40026058)
/** DMA2 stream 4 register map base pointer */
#define DMA2S4_BASE ((struct dma_tube_reg_map*)0x40026070)
/** DMA2 stream 5 register map base pointer */
#define DMA2S5_BASE ((struct dma_tube_reg_map*)0x40026088)
/** DMA2 stream 6 register map base pointer */
#define DMA2S6_BASE ((struct dma_tube_reg_map*)0x400260A0)
/** DMA2 stream 7 register map base pointer */
#define DMA2S7_BASE ((struct dma_tube_reg_map*)0x400260B8)
/*
* Register bit definitions
*/
/* Low interrupt status register */
#define DMA_LISR_TCIF3_BIT 27
#define DMA_LISR_HTIF3_BIT 26
#define DMA_LISR_TEIF3_BIT 25
#define DMA_LISR_DMEIF3_BIT 24
#define DMA_LISR_FEIF3_BIT 22
#define DMA_LISR_TCIF2_BIT 21
#define DMA_LISR_HTIF2_BIT 20
#define DMA_LISR_TEIF2_BIT 19
#define DMA_LISR_DMEIF2_BIT 18
#define DMA_LISR_FEIF2_BIT 16
#define DMA_LISR_TCIF1_BIT 11
#define DMA_LISR_HTIF1_BIT 10
#define DMA_LISR_TEIF1_BIT 9
#define DMA_LISR_DMEIF1_BIT 8
#define DMA_LISR_FEIF1_BIT 6
#define DMA_LISR_TCIF0_BIT 5
#define DMA_LISR_HTIF0_BIT 4
#define DMA_LISR_TEIF0_BIT 3
#define DMA_LISR_DMEIF0_BIT 2
#define DMA_LISR_FEIF0_BIT 0
#define DMA_LISR_TCIF3 (1U << DMA_LISR_TCIF3_BIT)
#define DMA_LISR_HTIF3 (1U << DMA_LISR_HTIF3_BIT)
#define DMA_LISR_TEIF3 (1U << DMA_LISR_TEIF3_BIT)
#define DMA_LISR_DMEIF3 (1U << DMA_LISR_DMEIF3_BIT)
#define DMA_LISR_FEIF3 (1U << DMA_LISR_FEIF3_BIT)
#define DMA_LISR_TCIF2 (1U << DMA_LISR_TCIF2_BIT)
#define DMA_LISR_HTIF2 (1U << DMA_LISR_HTIF2_BIT)
#define DMA_LISR_TEIF2 (1U << DMA_LISR_TEIF2_BIT)
#define DMA_LISR_DMEIF2 (1U << DMA_LISR_DMEIF2_BIT)
#define DMA_LISR_FEIF2 (1U << DMA_LISR_FEIF2_BIT)
#define DMA_LISR_TCIF1 (1U << DMA_LISR_TCIF1_BIT)
#define DMA_LISR_HTIF1 (1U << DMA_LISR_HTIF1_BIT)
#define DMA_LISR_TEIF1 (1U << DMA_LISR_TEIF1_BIT)
#define DMA_LISR_DMEIF1 (1U << DMA_LISR_DMEIF1_BIT)
#define DMA_LISR_FEIF1 (1U << DMA_LISR_FEIF1_BIT)
#define DMA_LISR_TCIF0 (1U << DMA_LISR_TCIF0_BIT)
#define DMA_LISR_HTIF0 (1U << DMA_LISR_HTIF0_BIT)
#define DMA_LISR_TEIF0 (1U << DMA_LISR_TEIF0_BIT)
#define DMA_LISR_DMEIF0 (1U << DMA_LISR_DMEIF0_BIT)
#define DMA_LISR_FEIF0 (1U << DMA_LISR_FEIF0_BIT)
/* High interrupt status register */
#define DMA_HISR_TCIF7_BIT 27
#define DMA_HISR_HTIF7_BIT 26
#define DMA_HISR_TEIF7_BIT 25
#define DMA_HISR_DMEIF7_BIT 24
#define DMA_HISR_FEIF7_BIT 22
#define DMA_HISR_TCIF6_BIT 21
#define DMA_HISR_HTIF6_BIT 20
#define DMA_HISR_TEIF6_BIT 19
#define DMA_HISR_DMEIF6_BIT 18
#define DMA_HISR_FEIF6_BIT 16
#define DMA_HISR_TCIF5_BIT 11
#define DMA_HISR_HTIF5_BIT 10
#define DMA_HISR_TEIF5_BIT 9
#define DMA_HISR_DMEIF5_BIT 8
#define DMA_HISR_FEIF5_BIT 6
#define DMA_HISR_TCIF4_BIT 5
#define DMA_HISR_HTIF4_BIT 4
#define DMA_HISR_TEIF4_BIT 3
#define DMA_HISR_DMEIF4_BIT 2
#define DMA_HISR_FEIF4_BIT 0
#define DMA_HISR_TCIF7 (1U << DMA_HISR_TCIF7_BIT)
#define DMA_HISR_HTIF7 (1U << DMA_HISR_HTIF7_BIT)
#define DMA_HISR_TEIF7 (1U << DMA_HISR_TEIF7_BIT)
#define DMA_HISR_DMEIF7 (1U << DMA_HISR_DMEIF7_BIT)
#define DMA_HISR_FEIF7 (1U << DMA_HISR_FEIF7_BIT)
#define DMA_HISR_TCIF6 (1U << DMA_HISR_TCIF6_BIT)
#define DMA_HISR_HTIF6 (1U << DMA_HISR_HTIF6_BIT)
#define DMA_HISR_TEIF6 (1U << DMA_HISR_TEIF6_BIT)
#define DMA_HISR_DMEIF6 (1U << DMA_HISR_DMEIF6_BIT)
#define DMA_HISR_FEIF6 (1U << DMA_HISR_FEIF6_BIT)
#define DMA_HISR_TCIF5 (1U << DMA_HISR_TCIF5_BIT)
#define DMA_HISR_HTIF5 (1U << DMA_HISR_HTIF5_BIT)
#define DMA_HISR_TEIF5 (1U << DMA_HISR_TEIF5_BIT)
#define DMA_HISR_DMEIF5 (1U << DMA_HISR_DMEIF5_BIT)
#define DMA_HISR_FEIF5 (1U << DMA_HISR_FEIF5_BIT)
#define DMA_HISR_TCIF4 (1U << DMA_HISR_TCIF4_BIT)
#define DMA_HISR_HTIF4 (1U << DMA_HISR_HTIF4_BIT)
#define DMA_HISR_TEIF4 (1U << DMA_HISR_TEIF4_BIT)
#define DMA_HISR_DMEIF4 (1U << DMA_HISR_DMEIF4_BIT)
#define DMA_HISR_FEIF4 (1U << DMA_HISR_FEIF4_BIT)
/* Low interrupt flag clear register */
#define DMA_LIFCR_CTCIF3_BIT 27
#define DMA_LIFCR_CHTIF3_BIT 26
#define DMA_LIFCR_CTEIF3_BIT 25
#define DMA_LIFCR_CDMEIF3_BIT 24
#define DMA_LIFCR_CFEIF3_BIT 22
#define DMA_LIFCR_CTCIF2_BIT 21
#define DMA_LIFCR_CHTIF2_BIT 20
#define DMA_LIFCR_CTEIF2_BIT 19
#define DMA_LIFCR_CDMEIF2_BIT 18
#define DMA_LIFCR_CFEIF2_BIT 16
#define DMA_LIFCR_CTCIF1_BIT 11
#define DMA_LIFCR_CHTIF1_BIT 10
#define DMA_LIFCR_CTEIF1_BIT 9
#define DMA_LIFCR_CDMEIF1_BIT 8
#define DMA_LIFCR_CFEIF1_BIT 6
#define DMA_LIFCR_CTCIF0_BIT 5
#define DMA_LIFCR_CHTIF0_BIT 4
#define DMA_LIFCR_CTEIF0_BIT 3
#define DMA_LIFCR_CDMEIF0_BIT 2
#define DMA_LIFCR_CFEIF0_BIT 0
#define DMA_LIFCR_CTCIF3 (1U << DMA_LIFCR_CTCIF3_BIT)
#define DMA_LIFCR_CHTIF3 (1U << DMA_LIFCR_CHTIF3_BIT)
#define DMA_LIFCR_CTEIF3 (1U << DMA_LIFCR_CTEIF3_BIT)
#define DMA_LIFCR_CDMEIF3 (1U << DMA_LIFCR_CDMEIF3_BIT)
#define DMA_LIFCR_CFEIF3 (1U << DMA_LIFCR_CFEIF3_BIT)
#define DMA_LIFCR_CTCIF2 (1U << DMA_LIFCR_CTCIF2_BIT)
#define DMA_LIFCR_CHTIF2 (1U << DMA_LIFCR_CHTIF2_BIT)
#define DMA_LIFCR_CTEIF2 (1U << DMA_LIFCR_CTEIF2_BIT)
#define DMA_LIFCR_CDMEIF2 (1U << DMA_LIFCR_CDMEIF2_BIT)
#define DMA_LIFCR_CFEIF2 (1U << DMA_LIFCR_CFEIF2_BIT)
#define DMA_LIFCR_CTCIF1 (1U << DMA_LIFCR_CTCIF1_BIT)
#define DMA_LIFCR_CHTIF1 (1U << DMA_LIFCR_CHTIF1_BIT)
#define DMA_LIFCR_CTEIF1 (1U << DMA_LIFCR_CTEIF1_BIT)
#define DMA_LIFCR_CDMEIF1 (1U << DMA_LIFCR_CDMEIF1_BIT)
#define DMA_LIFCR_CFEIF1 (1U << DMA_LIFCR_CFEIF1_BIT)
#define DMA_LIFCR_CTCIF0 (1U << DMA_LIFCR_CTCIF0_BIT)
#define DMA_LIFCR_CHTIF0 (1U << DMA_LIFCR_CHTIF0_BIT)
#define DMA_LIFCR_CTEIF0 (1U << DMA_LIFCR_CTEIF0_BIT)
#define DMA_LIFCR_CDMEIF0 (1U << DMA_LIFCR_CDMEIF0_BIT)
#define DMA_LIFCR_CFEIF0 (1U << DMA_LIFCR_CFEIF0_BIT)
/* High interrupt flag clear regsister */
#define DMA_HIFCR_CTCIF7_BIT 27
#define DMA_HIFCR_CHTIF7_BIT 26
#define DMA_HIFCR_CTEIF7_BIT 25
#define DMA_HIFCR_CDMEIF7_BIT 24
#define DMA_HIFCR_CFEIF7_BIT 22
#define DMA_HIFCR_CTCIF6_BIT 21
#define DMA_HIFCR_CHTIF6_BIT 20
#define DMA_HIFCR_CTEIF6_BIT 19
#define DMA_HIFCR_CDMEIF6_BIT 18
#define DMA_HIFCR_CFEIF6_BIT 16
#define DMA_HIFCR_CTCIF5_BIT 11
#define DMA_HIFCR_CHTIF5_BIT 10
#define DMA_HIFCR_CTEIF5_BIT 9
#define DMA_HIFCR_CDMEIF5_BIT 8
#define DMA_HIFCR_CFEIF5_BIT 6
#define DMA_HIFCR_CTCIF4_BIT 5
#define DMA_HIFCR_CHTIF4_BIT 4
#define DMA_HIFCR_CTEIF4_BIT 3
#define DMA_HIFCR_CDMEIF4_BIT 2
#define DMA_HIFCR_CFEIF4_BIT 0
#define DMA_HIFCR_CTCIF7 (1U << DMA_HIFCR_CTCIF7_BIT)
#define DMA_HIFCR_CHTIF7 (1U << DMA_HIFCR_CHTIF7_BIT)
#define DMA_HIFCR_CTEIF7 (1U << DMA_HIFCR_CTEIF7_BIT)
#define DMA_HIFCR_CDMEIF7 (1U << DMA_HIFCR_CDMEIF7_BIT)
#define DMA_HIFCR_CFEIF7 (1U << DMA_HIFCR_CFEIF7_BIT)
#define DMA_HIFCR_CTCIF6 (1U << DMA_HIFCR_CTCIF6_BIT)
#define DMA_HIFCR_CHTIF6 (1U << DMA_HIFCR_CHTIF6_BIT)
#define DMA_HIFCR_CTEIF6 (1U << DMA_HIFCR_CTEIF6_BIT)
#define DMA_HIFCR_CDMEIF6 (1U << DMA_HIFCR_CDMEIF6_BIT)
#define DMA_HIFCR_CFEIF6 (1U << DMA_HIFCR_CFEIF6_BIT)
#define DMA_HIFCR_CTCIF5 (1U << DMA_HIFCR_CTCIF5_BIT)
#define DMA_HIFCR_CHTIF5 (1U << DMA_HIFCR_CHTIF5_BIT)
#define DMA_HIFCR_CTEIF5 (1U << DMA_HIFCR_CTEIF5_BIT)
#define DMA_HIFCR_CDMEIF5 (1U << DMA_HIFCR_CDMEIF5_BIT)
#define DMA_HIFCR_CFEIF5 (1U << DMA_HIFCR_CFEIF5_BIT)
#define DMA_HIFCR_CTCIF4 (1U << DMA_HIFCR_CTCIF4_BIT)
#define DMA_HIFCR_CHTIF4 (1U << DMA_HIFCR_CHTIF4_BIT)
#define DMA_HIFCR_CTEIF4 (1U << DMA_HIFCR_CTEIF4_BIT)
#define DMA_HIFCR_CDMEIF4 (1U << DMA_HIFCR_CDMEIF4_BIT)
#define DMA_HIFCR_CFEIF4 (1U << DMA_HIFCR_CFEIF4_BIT)
/* Stream configuration register */
#define DMA_SCR_CT_BIT 19
#define DMA_SCR_DBM_BIT 18
#define DMA_SCR_PINCOS_BIT 15
#define DMA_SCR_MINC_BIT 10
#define DMA_SCR_PINC_BIT 9
#define DMA_SCR_CIRC_BIT 8
#define DMA_SCR_PFCTRL_BIT 5
#define DMA_SCR_TCIE_BIT 4
#define DMA_SCR_HTIE_BIT 3
#define DMA_SCR_TEIE_BIT 2
#define DMA_SCR_DMEIE_BIT 1
#define DMA_SCR_EN_BIT 0
#define DMA_SCR_CHSEL (0x7 << 25)
#define DMA_SCR_CHSEL_CH_0 (0x0 << 25)
#define DMA_SCR_CHSEL_CH_1 (0x1 << 25)
#define DMA_SCR_CHSEL_CH_2 (0x2 << 25)
#define DMA_SCR_CHSEL_CH_3 (0x3 << 25)
#define DMA_SCR_CHSEL_CH_4 (0x4 << 25)
#define DMA_SCR_CHSEL_CH_5 (0x5 << 25)
#define DMA_SCR_CHSEL_CH_6 (0x6 << 25)
#define DMA_SCR_CHSEL_CH_7 (0x7 << 25)
#define DMA_SCR_MBURST (0x3 << 23)
#define DMA_SCR_MBURST_SINGLE (0x0 << 23)
#define DMA_SCR_MBURST_INCR4 (0x1 << 23)
#define DMA_SCR_MBURST_INCR8 (0x2 << 23)
#define DMA_SCR_MBURST_INCR16 (0x3 << 23)
#define DMA_SCR_PBURST (0x3 << 21)
#define DMA_SCR_PBURST_SINGLE (0x0 << 21)
#define DMA_SCR_PBURST_INCR4 (0x1 << 21)
#define DMA_SCR_PBURST_INCR8 (0x2 << 21)
#define DMA_SCR_PBURST_INCR16 (0x3 << 21)
#define DMA_SCR_CT (1U << DMA_SCR_CT_BIT)
#define DMA_SCR_DBM (1U << DMA_SCR_DBM_BIT)
#define DMA_SCR_PL (0x3 << 16)
#define DMA_SCR_PL_LOW (0x0 << 16)
#define DMA_SCR_PL_MEDIUM (0x1 << 16)
#define DMA_SCR_PL_HIGH (0x2 << 16)
#define DMA_SCR_VERY_HIGH (0x3 << 16)
#define DMA_SCR_PINCOS (1U << DMA_SCR_PINCOS_BIT)
#define DMA_SCR_MSIZE (0x3 << 13)
#define DMA_SCR_MSIZE_8BITS (0x0 << 13)
#define DMA_SCR_MSIZE_16BITS (0x1 << 13)
#define DMA_SCR_MSIZE_32BITS (0x2 << 13)
#define DMA_SCR_PSIZE (0x3 << 11)
#define DMA_SCR_PSIZE_8BITS (0x0 << 11)
#define DMA_SCR_PSIZE_16BITS (0x1 << 11)
#define DMA_SCR_PSIZE_32BITS (0x2 << 11)
#define DMA_SCR_MINC (1U << DMA_SCR_MINC_BIT)
#define DMA_SCR_PINC (1U << DMA_SCR_PINC_BIT)
#define DMA_SCR_CIRC (1U << DMA_SCR_CIRC_BIT)
#define DMA_SCR_DIR (0x3 << 6)
#define DMA_SCR_DIR_PER_TO_MEM (0x0 << 6)
#define DMA_SCR_DIR_MEM_TO_PER (0x1 << 6)
#define DMA_SCR_DIR_MEM_TO_MEM (0x2 << 6)
#define DMA_SCR_PFCTRL (1U << DMA_SCR_PFCTRL_BIT)
#define DMA_SCR_TCIE (1U << DMA_SCR_TCIE_BIT)
#define DMA_SCR_HTIE (1U << DMA_SCR_HTIE_BIT)
#define DMA_SCR_TEIE (1U << DMA_SCR_TEIE_BIT)
#define DMA_SCR_DMEIE (1U << DMA_SCR_DMEIE_BIT)
#define DMA_SCR_EN (1U << DMA_SCR_EN_BIT)
/* Stream FIFO control register */
#define DMA_SFCR_FEIE_BIT 7
#define DMA_SFCR_DMDIS_BIT 2
#define DMA_SFCR_FEIE (1U << DMA_SFCR_FEIE_BIT)
#define DMA_SFCR_FS (0x7 << 3)
#define DMA_SFCR_FS_ZERO_TO_QUARTER (0x0 << 3)
#define DMA_SFCR_FS_QUARTER_TO_HALF (0x1 << 3)
#define DMA_SFCR_FS_HALF_TO_THREE_QUARTERS (0x2 << 3)
#define DMA_SFCR_FS_THREE_QUARTERS_TO_FULL (0x3 << 3)
#define DMA_SFCR_FS_EMPTY (0x4 << 3)
#define DMA_SFCR_FS_FULL (0x5 << 3)
#define DMA_SFCR_DMDIS (1U << DMA_SFCR_DMDIS_BIT)
#define DMA_SFCR_FTH (0x3 << 0)
#define DMA_SFCR_FTH_QUARTER_FULL (0x0 << 3)
#define DMA_SFCR_FTH_HALF_FULL (0x1 << 3)
#define DMA_SFCR_FTH_THREE_QUARTERS_FULL (0x2 << 3)
#define DMA_SFCR_FTH_FULL (0x3 << 3)
/*
* Devices
*/
extern dma_dev *DMA1;
extern dma_dev *DMA2;
/*
* Other types needed by, or useful for, <libmaple/dma.h>
*/
/**
* @brief DMA streams
* This is also the dma_tube type for STM32F2.
* @see dma_tube
*/
typedef enum dma_stream {
DMA_S0 = 0,
DMA_S1 = 1,
DMA_S2 = 2,
DMA_S3 = 3,
DMA_S4 = 4,
DMA_S5 = 5,
DMA_S6 = 6,
DMA_S7 = 7,
} dma_stream;
/** STM32F2 dma_tube (=dma_stream) */
#define dma_tube dma_stream
/**
* @brief STM32F2 configuration flags for dma_tube_config.
* @see struct dma_tube_config
*/
typedef enum dma_cfg_flags {
/* NB: flags that aren't SCR bits are treated specially. */
/**
* Source address increment mode
*
* If this flag is set, the source address is incremented (by the
* source size) after each DMA transfer.
*/
DMA_CFG_SRC_INC = 1U << 31,
/**
* Destination address increment mode
*
* If this flag is set, the destination address is incremented (by
* the destination size) after each DMA transfer.
*/
DMA_CFG_DST_INC = 1U << 30,
/**
* Circular mode
*
* This mode is not available for memory-to-memory transfers.
*/
DMA_CFG_CIRC = DMA_SCR_CIRC,
/** Transfer complete interrupt enable */
DMA_CFG_CMPLT_IE = DMA_SCR_TCIE,
/** Transfer half-complete interrupt enable */
DMA_CFG_HALF_CMPLT_IE = DMA_SCR_HTIE,
/** Transfer error interrupt enable */
DMA_CFG_ERR_IE = DMA_SCR_TEIE,
/** Direct mode error interrupt enable */
DMA_CFG_DM_ERR_IE = DMA_SCR_DMEIE,
/** FIFO error interrupt enable */
DMA_CFG_FIFO_ERR_IE = (1U << 29),
} dma_cfg_flags;
/**
* @brief STM32F2 DMA request sources.
*
* IMPORTANT:
*
* 1. On STM32F2, a particular dma_request_src is always tied to a
* single DMA controller, but often can be supported by multiple
* streams. For example, DMA requests from ADC1 (DMA_REQ_SRC_ADC1) can
* only be handled by DMA2, but they can go to either stream 0 or
* stream 4 (though not any other stream). If you try to use a request
* source with the wrong DMA controller or the wrong stream on
* STM32F2, dma_tube_cfg() will fail.
*
* 2. A single stream can only handle a single request source at a
* time. If you change a stream's request source later, it will stop
* serving requests from the old source. However, for some streams,
* some sources conflict with one another (when they correspond to the
* same channel on that stream), and on STM32F2, Terrible Super-Bad
* Things will happen if two conflicting request sources are active at
* the same time.
*
* @see struct dma_tube_config
* @see dma_tube_cfg()
*/
typedef enum dma_request_src {
/* These are constructed like so (though this may change, so user
* code shouldn't depend on it):
*
* Bits 0--2: Channel associated with request source
*
* Bits 3--9: rcc_clk_id of DMA controller associated with request source
*
* Bits 10--17: Bit mask of streams which can handle that request
* source. (E.g., bit 10 set means stream 0 can
* handle the source, bit 11 set means stream 1 can,
* etc.)
*
* Among other things, this is used for error checking in
* dma_tube_cfg(). If you change this bit encoding, you need to
* update the helper functions in stm32f2/dma.c.
*/
#define _DMA_STM32F2_REQ_SRC(stream_mask, clk_id, channel) \
(((stream_mask) << 10) | ((clk_id) << 3) | (channel))
#define _DMA_S(n) (1U << (n))
/* DMA1 request sources */
#define _DMA_1_REQ_SRC(stream_mask, channel) \
_DMA_STM32F2_REQ_SRC(stream_mask, RCC_DMA1, channel)
/* Channel 0 */
DMA_REQ_SRC_SPI3_RX = _DMA_1_REQ_SRC(_DMA_S(0) | _DMA_S(2), 0),
DMA_REQ_SRC_SPI2_RX = _DMA_1_REQ_SRC(_DMA_S(3), 0),
DMA_REQ_SRC_SPI2_TX = _DMA_1_REQ_SRC(_DMA_S(4), 0),
DMA_REQ_SRC_SPI3_TX = _DMA_1_REQ_SRC(_DMA_S(5) | _DMA_S(7), 0),
/* Channel 1 */
DMA_REQ_SRC_I2C1_RX = _DMA_1_REQ_SRC(_DMA_S(0) | _DMA_S(5), 1),
DMA_REQ_SRC_TIM7_UP = _DMA_1_REQ_SRC(_DMA_S(2) | _DMA_S(4), 1),
DMA_REQ_SRC_I2C1_TX = _DMA_1_REQ_SRC(_DMA_S(6) | _DMA_S(7), 1),
/* Channel 2 */
DMA_REQ_SRC_TIM4_CH1 = _DMA_1_REQ_SRC(_DMA_S(0), 2),
DMA_REQ_SRC_TIM4_CH2 = _DMA_1_REQ_SRC(_DMA_S(3), 2),
DMA_REQ_SRC_TIM4_UP = _DMA_1_REQ_SRC(_DMA_S(6), 2),
DMA_REQ_SRC_TIM4_CH3 = _DMA_1_REQ_SRC(_DMA_S(7), 2),
/* Channel 3 */
DMA_REQ_SRC_TIM2_UP = _DMA_1_REQ_SRC(_DMA_S(1) | _DMA_S(7), 3),
DMA_REQ_SRC_TIM2_CH3 = _DMA_1_REQ_SRC(_DMA_S(1), 3),
DMA_REQ_SRC_I2C3_RX = _DMA_1_REQ_SRC(_DMA_S(2), 3),
DMA_REQ_SRC_I2C3_TX = _DMA_1_REQ_SRC(_DMA_S(4), 3),
DMA_REQ_SRC_TIM2_CH1 = _DMA_1_REQ_SRC(_DMA_S(5), 3),
DMA_REQ_SRC_TIM2_CH2 = _DMA_1_REQ_SRC(_DMA_S(6), 3),
DMA_REQ_SRC_TIM2_CH4 = _DMA_1_REQ_SRC(_DMA_S(6) | _DMA_S(7), 3),
/* Channel 4 */
DMA_REQ_SRC_UART5_RX = _DMA_1_REQ_SRC(_DMA_S(0), 4),
DMA_REQ_SRC_USART3_RX = _DMA_1_REQ_SRC(_DMA_S(1), 4),
DMA_REQ_SRC_UART4_RX = _DMA_1_REQ_SRC(_DMA_S(2), 4),
DMA_REQ_SRC_USART3_TX = _DMA_1_REQ_SRC(_DMA_S(3), 4),
DMA_REQ_SRC_UART4_TX = _DMA_1_REQ_SRC(_DMA_S(4), 4),
DMA_REQ_SRC_USART2_RX = _DMA_1_REQ_SRC(_DMA_S(5), 4),
DMA_REQ_SRC_USART2_TX = _DMA_1_REQ_SRC(_DMA_S(6), 4),
DMA_REQ_SRC_UART5_TX = _DMA_1_REQ_SRC(_DMA_S(7), 4),
/* Channel 5 */
DMA_REQ_SRC_TIM3_CH4 = _DMA_1_REQ_SRC(_DMA_S(2), 5),
DMA_REQ_SRC_TIM3_UP = _DMA_1_REQ_SRC(_DMA_S(2), 5),
DMA_REQ_SRC_TIM3_CH1 = _DMA_1_REQ_SRC(_DMA_S(4), 5),
DMA_REQ_SRC_TIM3_TRIG = _DMA_1_REQ_SRC(_DMA_S(4), 5),
DMA_REQ_SRC_TIM3_CH2 = _DMA_1_REQ_SRC(_DMA_S(5), 5),
DMA_REQ_SRC_TIM3_CH3 = _DMA_1_REQ_SRC(_DMA_S(7), 5),
/* Channel 6 */
DMA_REQ_SRC_TIM5_CH3 = _DMA_1_REQ_SRC(_DMA_S(0), 6),
DMA_REQ_SRC_TIM5_UP = _DMA_1_REQ_SRC(_DMA_S(0) | _DMA_S(6), 6),
DMA_REQ_SRC_TIM5_CH4 = _DMA_1_REQ_SRC(_DMA_S(1) | _DMA_S(3), 6),
DMA_REQ_SRC_TIM5_TRIG = _DMA_1_REQ_SRC(_DMA_S(1) | _DMA_S(3), 6),
DMA_REQ_SRC_TIM5_CH1 = _DMA_1_REQ_SRC(_DMA_S(2), 6),
DMA_REQ_SRC_TIM5_CH2 = _DMA_1_REQ_SRC(_DMA_S(4), 6),
/* Channel 7 */
DMA_REQ_SRC_TIM6_UP = _DMA_1_REQ_SRC(_DMA_S(1), 7),
DMA_REQ_SRC_I2C2_RX = _DMA_1_REQ_SRC(_DMA_S(2) | _DMA_S(3), 7),
DMA_REQ_SRC_USART3_TX_ALTERNATE = _DMA_1_REQ_SRC(_DMA_S(4), 7),
DMA_REQ_SRC_DAC1 = _DMA_1_REQ_SRC(_DMA_S(5), 7),
DMA_REQ_SRC_DAC2 = _DMA_1_REQ_SRC(_DMA_S(6), 7),
DMA_REQ_SRC_I2C2_TX = _DMA_1_REQ_SRC(_DMA_S(7), 7),
#undef _DMA_1_REQ_SRC
/* DMA2 request sources */
#define _DMA_2_REQ_SRC(stream_mask, channel) \
_DMA_STM32F2_REQ_SRC(stream_mask, RCC_DMA2, channel)
/* Channel 0 */
DMA_REQ_SRC_ADC1 = _DMA_2_REQ_SRC(_DMA_S(0) | _DMA_S(4), 0),
/* You can use these "DMA_REQ_SRC_TIMx_CHx_ALTERNATE" if you know
* what you're doing, but the other ones (for channels 6 and 7),
* are better, in that they don't conflict with one another. */
DMA_REQ_SRC_TIM8_CH1_ALTERNATE = _DMA_2_REQ_SRC(_DMA_S(2), 0),
DMA_REQ_SRC_TIM8_CH2_ALTERNATE = _DMA_2_REQ_SRC(_DMA_S(2), 0),
DMA_REQ_SRC_TIM8_CH3_ALTERNATE = _DMA_2_REQ_SRC(_DMA_S(2), 0),
DMA_REQ_SRC_TIM1_CH1_ALTERNATE = _DMA_2_REQ_SRC(_DMA_S(6), 0),
DMA_REQ_SRC_TIM1_CH2_ALTERNATE = _DMA_2_REQ_SRC(_DMA_S(6), 0),
DMA_REQ_SRC_TIM1_CH3_ALTENRATE = _DMA_2_REQ_SRC(_DMA_S(6), 0),
/* Channel 1 */
DMA_REQ_SRC_DCMI = _DMA_2_REQ_SRC(_DMA_S(1) | _DMA_S(7), 1),
DMA_REQ_SRC_ADC2 = _DMA_2_REQ_SRC(_DMA_S(2) | _DMA_S(3), 1),
/* Channel 2 */
DMA_REQ_SRC_ADC3 = _DMA_2_REQ_SRC(_DMA_S(0) | _DMA_S(1), 2),
DMA_REQ_SRC_CRYP_OUT = _DMA_2_REQ_SRC(_DMA_S(5), 2),
DMA_REQ_SRC_CRYP_IN = _DMA_2_REQ_SRC(_DMA_S(6), 2),
DMA_REQ_SRC_HASH_IN = _DMA_2_REQ_SRC(_DMA_S(7), 2),
/* Channel 3 */
DMA_REQ_SRC_SPI1_RX = _DMA_2_REQ_SRC(_DMA_S(0) | _DMA_S(2), 3),
DMA_REQ_SRC_SPI1_TX = _DMA_2_REQ_SRC(_DMA_S(3) | _DMA_S(5), 3),
/* Channel 4 */
DMA_REQ_SRC_USART1_RX = _DMA_2_REQ_SRC(_DMA_S(2) | _DMA_S(5), 4),
DMA_REQ_SRC_SDIO = _DMA_2_REQ_SRC(_DMA_S(3) | _DMA_S(6), 4),
DMA_REQ_SRC_USART1_TX = _DMA_2_REQ_SRC(_DMA_S(7), 4),
/* Channel 5 */
DMA_REQ_SRC_USART6_RX = _DMA_2_REQ_SRC(_DMA_S(1) | _DMA_S(2), 5),
DMA_REQ_SRC_USART6_TX = _DMA_2_REQ_SRC(_DMA_S(6) | _DMA_S(7), 5),
/* Channel 6 */
DMA_REQ_SRC_TIM1_TRIG = _DMA_2_REQ_SRC(_DMA_S(0) | _DMA_S(4), 6),
DMA_REQ_SRC_TIM1_CH1 = _DMA_2_REQ_SRC(_DMA_S(1) | _DMA_S(3), 6),
DMA_REQ_SRC_TIM1_CH2 = _DMA_2_REQ_SRC(_DMA_S(3), 6),
DMA_REQ_SRC_TIM1_CH4 = _DMA_2_REQ_SRC(_DMA_S(4), 6),
DMA_REQ_SRC_TIM1_COM = _DMA_2_REQ_SRC(_DMA_S(4), 6),
DMA_REQ_SRC_TIM1_UP = _DMA_2_REQ_SRC(_DMA_S(5), 6),
DMA_REQ_SRC_TIM1_CH3 = _DMA_2_REQ_SRC(_DMA_S(6), 6),
/* Channel 7 */
DMA_REQ_SRC_TIM8_UP = _DMA_2_REQ_SRC(_DMA_S(1), 7),
DMA_REQ_SRC_TIM8_CH1 = _DMA_2_REQ_SRC(_DMA_S(2), 7),
DMA_REQ_SRC_TIM8_CH2 = _DMA_2_REQ_SRC(_DMA_S(3), 7),
DMA_REQ_SRC_TIM8_CH3 = _DMA_2_REQ_SRC(_DMA_S(4), 7),
DMA_REQ_SRC_TIM8_CH4 = _DMA_2_REQ_SRC(_DMA_S(7), 7),
DMA_REQ_SRC_TIM8_TRIG = _DMA_2_REQ_SRC(_DMA_S(7), 7),
DMA_REQ_SRC_TIM8_COM = _DMA_2_REQ_SRC(_DMA_S(7), 7),
#undef _DMA_2_REQ_SRC
#undef _DMA_S
} dma_request_src;
/*
* Tube conveniences
*/
static inline dma_tube_reg_map* dma_tube_regs(dma_dev *dev,
dma_tube tube) {
ASSERT(DMA_S0 <= tube && tube <= DMA_S7);
switch (dev->clk_id) {
case RCC_DMA1:
return DMA1S0_BASE + (int)tube;
case RCC_DMA2:
return DMA2S0_BASE + (int)tube;
default:
/* Can't happen */
ASSERT(0);
return 0;
}
}
static inline uint8 dma_is_enabled(dma_dev *dev, dma_tube tube) {
return dma_tube_regs(dev, tube)->SCR & DMA_SCR_EN;
}
/* F2-only; available because of double-buffering. */
void dma_set_mem_n_addr(dma_dev *dev, dma_tube tube, int n,
__io void *address);
/**
* @brief Set memory 0 address.
* Availability: STM32F2.
*
* @param dev DMA device
* @param tube Tube whose memory 0 address to set
* @param addr Address to use as memory 0
*/
static __always_inline void
dma_set_mem0_addr(dma_dev *dev, dma_tube tube, __io void *addr) {
dma_set_mem_n_addr(dev, tube, 0, addr);
}
/**
* @brief Set memory 1 address.
* Availability: STM32F2.
*
* @param dev DMA device
* @param tube Tube whose memory 1 address to set
* @param addr Address to use as memory 1
*/
static __always_inline void
dma_set_mem1_addr(dma_dev *dev, dma_tube tube, __io void *addr) {
dma_set_mem_n_addr(dev, tube, 1, addr);
}
/* Assume the user means SM0AR in a non-double-buffered configuration. */
static __always_inline void
dma_set_mem_addr(dma_dev *dev, dma_tube tube, __io void *addr) {
dma_set_mem0_addr(dev, tube, addr);
}
/* SM0AR and SM1AR are treated as though they have the same size */
static inline dma_xfer_size dma_get_mem_size(dma_dev *dev, dma_tube tube) {
return (dma_xfer_size)(dma_tube_regs(dev, tube)->SCR >> 13);
}
static inline dma_xfer_size dma_get_per_size(dma_dev *dev, dma_tube tube) {
return (dma_xfer_size)(dma_tube_regs(dev, tube)->SCR >> 11);
}
void dma_enable_fifo(dma_dev *dev, dma_tube tube);
void dma_disable_fifo(dma_dev *dev, dma_tube tube);
static __always_inline int dma_is_fifo_enabled(dma_dev *dev, dma_tube tube) {
return dma_tube_regs(dev, tube)->SFCR & DMA_SFCR_DMDIS;
}
/*
* TODO:
* - Double-buffer configuration function
* - FIFO configuration function
* - MBURST/PBURST configuration function
*/
/*
* ISR/IFCR conveniences.
*/
/* (undocumented) helper for reading LISR/HISR and writing
* LIFCR/HIFCR. For these registers,
*
* S0, S4: bits start at bit 0
* S1, S5: 6
* S2, S6: 16
* S3, S7: 22
*
* I can't imagine why ST didn't just use a byte for each group. The
* bits fit, and it would have made functions like these simpler and
* faster. Oh well. */
static __always_inline uint32 _dma_sr_fcr_shift(dma_tube tube) {
switch (tube) {
case DMA_S0: /* fall through */
case DMA_S4:
return 0;
case DMA_S1: /* fall through */
case DMA_S5:
return 6;
case DMA_S2: /* fall through */
case DMA_S6:
return 16;
case DMA_S3: /* fall through */
case DMA_S7:
return 22;
}
/* Can't happen */
ASSERT(0);
return 0;
}
static inline uint8 dma_get_isr_bits(dma_dev *dev, dma_tube tube) {
dma_reg_map *regs = dev->regs;
__io uint32 *isr = tube > DMA_S3 ? ®s->HISR : ®s->LISR;
return (*isr >> _dma_sr_fcr_shift(tube)) & 0x3D;
}
static inline void dma_clear_isr_bits(dma_dev *dev, dma_tube tube) {
dma_reg_map *regs = dev->regs;
__io uint32 *ifcr = tube > DMA_S3 ? ®s->HIFCR : ®s->LIFCR;
*ifcr = (0x3D << _dma_sr_fcr_shift(tube));
}
#undef _DMA_IRQ_BIT_SHIFT
#ifdef __cplusplus
} // extern "C"
#endif
#endif
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