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Release 4.7 drivers/dma/stm32-dma.c

Directory: drivers/dma
/*
 * Driver for STM32 DMA controller
 *
 * Inspired by dma-jz4740.c and tegra20-apb-dma.c
 *
 * Copyright (C) M'boumba Cedric Madianga 2015
 * Author: M'boumba Cedric Madianga <cedric.madianga@gmail.com>
 *
 * License terms:  GNU General Public License (GPL), version 2
 */

#include <linux/clk.h>
#include <linux/delay.h>
#include <linux/dmaengine.h>
#include <linux/dma-mapping.h>
#include <linux/err.h>
#include <linux/init.h>
#include <linux/jiffies.h>
#include <linux/list.h>
#include <linux/module.h>
#include <linux/of.h>
#include <linux/of_device.h>
#include <linux/of_dma.h>
#include <linux/platform_device.h>
#include <linux/reset.h>
#include <linux/sched.h>
#include <linux/slab.h>

#include "virt-dma.h"


#define STM32_DMA_LISR			0x0000 
/* DMA Low Int Status Reg */

#define STM32_DMA_HISR			0x0004 
/* DMA High Int Status Reg */

#define STM32_DMA_LIFCR			0x0008 
/* DMA Low Int Flag Clear Reg */

#define STM32_DMA_HIFCR			0x000c 
/* DMA High Int Flag Clear Reg */

#define STM32_DMA_TCI			BIT(5) 
/* Transfer Complete Interrupt */

#define STM32_DMA_TEI			BIT(3) 
/* Transfer Error Interrupt */

#define STM32_DMA_DMEI			BIT(2) 
/* Direct Mode Error Interrupt */

#define STM32_DMA_FEI			BIT(0) 
/* FIFO Error Interrupt */

/* DMA Stream x Configuration Register */

#define STM32_DMA_SCR(x)		(0x0010 + 0x18 * (x)) 
/* x = 0..7 */

#define STM32_DMA_SCR_REQ(n)		((n & 0x7) << 25)

#define STM32_DMA_SCR_MBURST_MASK	GENMASK(24, 23)

#define STM32_DMA_SCR_MBURST(n)	        ((n & 0x3) << 23)

#define STM32_DMA_SCR_PBURST_MASK	GENMASK(22, 21)

#define STM32_DMA_SCR_PBURST(n)	        ((n & 0x3) << 21)

#define STM32_DMA_SCR_PL_MASK		GENMASK(17, 16)

#define STM32_DMA_SCR_PL(n)		((n & 0x3) << 16)

#define STM32_DMA_SCR_MSIZE_MASK	GENMASK(14, 13)

#define STM32_DMA_SCR_MSIZE(n)		((n & 0x3) << 13)

#define STM32_DMA_SCR_PSIZE_MASK	GENMASK(12, 11)

#define STM32_DMA_SCR_PSIZE(n)		((n & 0x3) << 11)

#define STM32_DMA_SCR_PSIZE_GET(n)	((n & STM32_DMA_SCR_PSIZE_MASK) >> 11)

#define STM32_DMA_SCR_DIR_MASK		GENMASK(7, 6)

#define STM32_DMA_SCR_DIR(n)		((n & 0x3) << 6)

#define STM32_DMA_SCR_CT		BIT(19) 
/* Target in double buffer */

#define STM32_DMA_SCR_DBM		BIT(18) 
/* Double Buffer Mode */

#define STM32_DMA_SCR_PINCOS		BIT(15) 
/* Peripheral inc offset size */

#define STM32_DMA_SCR_MINC		BIT(10) 
/* Memory increment mode */

#define STM32_DMA_SCR_PINC		BIT(9) 
/* Peripheral increment mode */

#define STM32_DMA_SCR_CIRC		BIT(8) 
/* Circular mode */

#define STM32_DMA_SCR_PFCTRL		BIT(5) 
/* Peripheral Flow Controller */

#define STM32_DMA_SCR_TCIE		BIT(4) 
/* Transfer Cplete Int Enable*/

#define STM32_DMA_SCR_TEIE		BIT(2) 
/* Transfer Error Int Enable */

#define STM32_DMA_SCR_DMEIE		BIT(1) 
/* Direct Mode Err Int Enable */

#define STM32_DMA_SCR_EN		BIT(0) 
/* Stream Enable */

#define STM32_DMA_SCR_CFG_MASK		(STM32_DMA_SCR_PINC \
                                        | STM32_DMA_SCR_MINC \
                                        | STM32_DMA_SCR_PINCOS \
                                        | STM32_DMA_SCR_PL_MASK)

#define STM32_DMA_SCR_IRQ_MASK		(STM32_DMA_SCR_TCIE \
                                        | STM32_DMA_SCR_TEIE \
                                        | STM32_DMA_SCR_DMEIE)

/* DMA Stream x number of data register */

#define STM32_DMA_SNDTR(x)		(0x0014 + 0x18 * (x))

/* DMA stream peripheral address register */

#define STM32_DMA_SPAR(x)		(0x0018 + 0x18 * (x))

/* DMA stream x memory 0 address register */

#define STM32_DMA_SM0AR(x)		(0x001c + 0x18 * (x))

/* DMA stream x memory 1 address register */

#define STM32_DMA_SM1AR(x)		(0x0020 + 0x18 * (x))

/* DMA stream x FIFO control register */

#define STM32_DMA_SFCR(x)		(0x0024 + 0x18 * (x))

#define STM32_DMA_SFCR_FTH_MASK		GENMASK(1, 0)

#define STM32_DMA_SFCR_FTH(n)		(n & STM32_DMA_SFCR_FTH_MASK)

#define STM32_DMA_SFCR_FEIE		BIT(7) 
/* FIFO error interrupt enable */

#define STM32_DMA_SFCR_DMDIS		BIT(2) 
/* Direct mode disable */

#define STM32_DMA_SFCR_MASK		(STM32_DMA_SFCR_FEIE \
                                        | STM32_DMA_SFCR_DMDIS)

/* DMA direction */

#define STM32_DMA_DEV_TO_MEM		0x00

#define	STM32_DMA_MEM_TO_DEV		0x01

#define	STM32_DMA_MEM_TO_MEM		0x02

/* DMA priority level */

#define STM32_DMA_PRIORITY_LOW		0x00

#define STM32_DMA_PRIORITY_MEDIUM	0x01

#define STM32_DMA_PRIORITY_HIGH		0x02

#define STM32_DMA_PRIORITY_VERY_HIGH	0x03

/* DMA FIFO threshold selection */

#define STM32_DMA_FIFO_THRESHOLD_1QUARTERFULL		0x00

#define STM32_DMA_FIFO_THRESHOLD_HALFFULL		0x01

#define STM32_DMA_FIFO_THRESHOLD_3QUARTERSFULL		0x02

#define STM32_DMA_FIFO_THRESHOLD_FULL			0x03


#define STM32_DMA_MAX_DATA_ITEMS	0xffff

#define STM32_DMA_MAX_CHANNELS		0x08

#define STM32_DMA_MAX_REQUEST_ID	0x08

#define STM32_DMA_MAX_DATA_PARAM	0x03


enum stm32_dma_width {
	
STM32_DMA_BYTE,
	
STM32_DMA_HALF_WORD,
	
STM32_DMA_WORD,
};


enum stm32_dma_burst_size {
	
STM32_DMA_BURST_SINGLE,
	
STM32_DMA_BURST_INCR4,
	
STM32_DMA_BURST_INCR8,
	
STM32_DMA_BURST_INCR16,
};


struct stm32_dma_cfg {
	
u32 channel_id;
	
u32 request_line;
	
u32 stream_config;
	
u32 threshold;
};


struct stm32_dma_chan_reg {
	
u32 dma_lisr;
	
u32 dma_hisr;
	
u32 dma_lifcr;
	
u32 dma_hifcr;
	
u32 dma_scr;
	
u32 dma_sndtr;
	
u32 dma_spar;
	
u32 dma_sm0ar;
	
u32 dma_sm1ar;
	
u32 dma_sfcr;
};


struct stm32_dma_sg_req {
	
u32 len;
	
struct stm32_dma_chan_reg chan_reg;
};


struct stm32_dma_desc {
	
struct virt_dma_desc vdesc;
	
bool cyclic;
	
u32 num_sgs;
	
struct stm32_dma_sg_req sg_req[];
};


struct stm32_dma_chan {
	
struct virt_dma_chan vchan;
	
bool config_init;
	
bool busy;
	
u32 id;
	
u32 irq;
	
struct stm32_dma_desc *desc;
	
u32 next_sg;
	
struct dma_slave_config	dma_sconfig;
	
struct stm32_dma_chan_reg chan_reg;
};


struct stm32_dma_device {
	
struct dma_device ddev;
	
void __iomem *base;
	
struct clk *clk;
	
struct reset_control *rst;
	
bool mem2mem;
	
struct stm32_dma_chan chan[STM32_DMA_MAX_CHANNELS];
};


static struct stm32_dma_device *stm32_dma_get_dev(struct stm32_dma_chan *chan) { return container_of(chan->vchan.chan.device, struct stm32_dma_device, ddev); }

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static struct stm32_dma_chan *to_stm32_dma_chan(struct dma_chan *c) { return container_of(c, struct stm32_dma_chan, vchan.chan); }

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static struct stm32_dma_desc *to_stm32_dma_desc(struct virt_dma_desc *vdesc) { return container_of(vdesc, struct stm32_dma_desc, vdesc); }

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static struct device *chan2dev(struct stm32_dma_chan *chan) { return &chan->vchan.chan.dev->device; }

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static u32 stm32_dma_read(struct stm32_dma_device *dmadev, u32 reg) { return readl_relaxed(dmadev->base + reg); }

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static void stm32_dma_write(struct stm32_dma_device *dmadev, u32 reg, u32 val) { writel_relaxed(val, dmadev->base + reg); }

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static struct stm32_dma_desc *stm32_dma_alloc_desc(u32 num_sgs) { return kzalloc(sizeof(struct stm32_dma_desc) + sizeof(struct stm32_dma_sg_req) * num_sgs, GFP_NOWAIT); }

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static int stm32_dma_get_width(struct stm32_dma_chan *chan, enum dma_slave_buswidth width) { switch (width) { case DMA_SLAVE_BUSWIDTH_1_BYTE: return STM32_DMA_BYTE; case DMA_SLAVE_BUSWIDTH_2_BYTES: return STM32_DMA_HALF_WORD; case DMA_SLAVE_BUSWIDTH_4_BYTES: return STM32_DMA_WORD; default: dev_err(chan2dev(chan), "Dma bus width not supported\n"); return -EINVAL; } }

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static int stm32_dma_get_burst(struct stm32_dma_chan *chan, u32 maxburst) { switch (maxburst) { case 0: case 1: return STM32_DMA_BURST_SINGLE; case 4: return STM32_DMA_BURST_INCR4; case 8: return STM32_DMA_BURST_INCR8; case 16: return STM32_DMA_BURST_INCR16; default: dev_err(chan2dev(chan), "Dma burst size not supported\n"); return -EINVAL; } }

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static void stm32_dma_set_fifo_config(struct stm32_dma_chan *chan, u32 src_maxburst, u32 dst_maxburst) { chan->chan_reg.dma_sfcr &= ~STM32_DMA_SFCR_MASK; chan->chan_reg.dma_scr &= ~STM32_DMA_SCR_DMEIE; if ((!src_maxburst) && (!dst_maxburst)) { /* Using direct mode */ chan->chan_reg.dma_scr |= STM32_DMA_SCR_DMEIE; } else { /* Using FIFO mode */ chan->chan_reg.dma_sfcr |= STM32_DMA_SFCR_MASK; } }

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static int stm32_dma_slave_config(struct dma_chan *c, struct dma_slave_config *config) { struct stm32_dma_chan *chan = to_stm32_dma_chan(c); memcpy(&chan->dma_sconfig, config, sizeof(*config)); chan->config_init = true; return 0; }

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static u32 stm32_dma_irq_status(struct stm32_dma_chan *chan) { struct stm32_dma_device *dmadev = stm32_dma_get_dev(chan); u32 flags, dma_isr; /* * Read "flags" from DMA_xISR register corresponding to the selected * DMA channel at the correct bit offset inside that register. * * If (ch % 4) is 2 or 3, left shift the mask by 16 bits. * If (ch % 4) is 1 or 3, additionally left shift the mask by 6 bits. */ if (chan->id & 4) dma_isr = stm32_dma_read(dmadev, STM32_DMA_HISR); else dma_isr = stm32_dma_read(dmadev, STM32_DMA_LISR); flags = dma_isr >> (((chan->id & 2) << 3) | ((chan->id & 1) * 6)); return flags; }

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static void stm32_dma_irq_clear(struct stm32_dma_chan *chan, u32 flags) { struct stm32_dma_device *dmadev = stm32_dma_get_dev(chan); u32 dma_ifcr; /* * Write "flags" to the DMA_xIFCR register corresponding to the selected * DMA channel at the correct bit offset inside that register. * * If (ch % 4) is 2 or 3, left shift the mask by 16 bits. * If (ch % 4) is 1 or 3, additionally left shift the mask by 6 bits. */ dma_ifcr = flags << (((chan->id & 2) << 3) | ((chan->id & 1) * 6)); if (chan->id & 4) stm32_dma_write(dmadev, STM32_DMA_HIFCR, dma_ifcr); else stm32_dma_write(dmadev, STM32_DMA_LIFCR, dma_ifcr); }

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static int stm32_dma_disable_chan(struct stm32_dma_chan *chan) { struct stm32_dma_device *dmadev = stm32_dma_get_dev(chan); unsigned long timeout = jiffies + msecs_to_jiffies(5000); u32 dma_scr, id; id = chan->id; dma_scr = stm32_dma_read(dmadev, STM32_DMA_SCR(id)); if (dma_scr & STM32_DMA_SCR_EN) { dma_scr &= ~STM32_DMA_SCR_EN; stm32_dma_write(dmadev, STM32_DMA_SCR(id), dma_scr); do { dma_scr = stm32_dma_read(dmadev, STM32_DMA_SCR(id)); dma_scr &= STM32_DMA_SCR_EN; if (!dma_scr) break; if (time_after_eq(jiffies, timeout)) { dev_err(chan2dev(chan), "%s: timeout!\n", __func__); return -EBUSY; } cond_resched(); } while (1); } return 0; }

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static void stm32_dma_stop(struct stm32_dma_chan *chan) { struct stm32_dma_device *dmadev = stm32_dma_get_dev(chan); u32 dma_scr, dma_sfcr, status; int ret; /* Disable interrupts */ dma_scr = stm32_dma_read(dmadev, STM32_DMA_SCR(chan->id)); dma_scr &= ~STM32_DMA_SCR_IRQ_MASK; stm32_dma_write(dmadev, STM32_DMA_SCR(chan->id), dma_scr); dma_sfcr = stm32_dma_read(dmadev, STM32_DMA_SFCR(chan->id)); dma_sfcr &= ~STM32_DMA_SFCR_FEIE; stm32_dma_write(dmadev, STM32_DMA_SFCR(chan->id), dma_sfcr); /* Disable DMA */ ret = stm32_dma_disable_chan(chan); if (ret < 0) return; /* Clear interrupt status if it is there */ status = stm32_dma_irq_status(chan); if (status) { dev_dbg(chan2dev(chan), "%s(): clearing interrupt: 0x%08x\n", __func__, status); stm32_dma_irq_clear(chan, status); } chan->busy = false; }

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static int stm32_dma_terminate_all(struct dma_chan *c) { struct stm32_dma_chan *chan = to_stm32_dma_chan(c); unsigned long flags; LIST_HEAD(head); spin_lock_irqsave(&chan->vchan.lock, flags); if (chan->busy) { stm32_dma_stop(chan); chan->desc = NULL; } vchan_get_all_descriptors(&chan->vchan, &head); spin_unlock_irqrestore(&chan->vchan.lock, flags); vchan_dma_desc_free_list(&chan->vchan, &head); return 0; }

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static void stm32_dma_dump_reg(struct stm32_dma_chan *chan) { struct stm32_dma_device *dmadev = stm32_dma_get_dev(chan); u32 scr = stm32_dma_read(dmadev, STM32_DMA_SCR(chan->id)); u32 ndtr = stm32_dma_read(dmadev, STM32_DMA_SNDTR(chan->id)); u32 spar = stm32_dma_read(dmadev, STM32_DMA_SPAR(chan->id)); u32 sm0ar = stm32_dma_read(dmadev, STM32_DMA_SM0AR(chan->id)); u32 sm1ar = stm32_dma_read(dmadev, STM32_DMA_SM1AR(chan->id)); u32 sfcr = stm32_dma_read(dmadev, STM32_DMA_SFCR(chan->id)); dev_dbg(chan2dev(chan), "SCR: 0x%08x\n", scr); dev_dbg(chan2dev(chan), "NDTR: 0x%08x\n", ndtr); dev_dbg(chan2dev(chan), "SPAR: 0x%08x\n", spar); dev_dbg(chan2dev(chan), "SM0AR: 0x%08x\n", sm0ar); dev_dbg(chan2dev(chan), "SM1AR: 0x%08x\n", sm1ar); dev_dbg(chan2dev(chan), "SFCR: 0x%08x\n", sfcr); }

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static int stm32_dma_start_transfer(struct stm32_dma_chan *chan) { struct stm32_dma_device *dmadev = stm32_dma_get_dev(chan); struct virt_dma_desc *vdesc; struct stm32_dma_sg_req *sg_req; struct stm32_dma_chan_reg *reg; u32 status; int ret; ret = stm32_dma_disable_chan(chan); if (ret < 0) return ret; if (!chan->desc) { vdesc = vchan_next_desc(&chan->vchan); if (!vdesc) return -EPERM; chan->desc = to_stm32_dma_desc(vdesc); chan->next_sg = 0; } if (chan->next_sg == chan->desc->num_sgs) chan->next_sg = 0; sg_req = &chan->desc->sg_req[chan->next_sg]; reg = &sg_req->chan_reg; stm32_dma_write(dmadev, STM32_DMA_SCR(chan->id), reg->dma_scr); stm32_dma_write(dmadev, STM32_DMA_SPAR(chan->id), reg->dma_spar); stm32_dma_write(dmadev, STM32_DMA_SM0AR(chan->id), reg->dma_sm0ar); stm32_dma_write(dmadev, STM32_DMA_SFCR(chan->id), reg->dma_sfcr); stm32_dma_write(dmadev, STM32_DMA_SM1AR(chan->id), reg->dma_sm1ar); stm32_dma_write(dmadev, STM32_DMA_SNDTR(chan->id), reg->dma_sndtr); chan->next_sg++; /* Clear interrupt status if it is there */ status = stm32_dma_irq_status(chan); if (status) stm32_dma_irq_clear(chan, status); stm32_dma_dump_reg(chan); /* Start DMA */ reg->dma_scr |= STM32_DMA_SCR_EN; stm32_dma_write(dmadev, STM32_DMA_SCR(chan->id), reg->dma_scr); chan->busy = true; return 0; }

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static void stm32_dma_configure_next_sg(struct stm32_dma_chan *chan) { struct stm32_dma_device *dmadev = stm32_dma_get_dev(chan); struct stm32_dma_sg_req *sg_req; u32 dma_scr, dma_sm0ar, dma_sm1ar, id; id = chan->id; dma_scr = stm32_dma_read(dmadev, STM32_DMA_SCR(id)); if (dma_scr & STM32_DMA_SCR_DBM) { if (chan->next_sg == chan->desc->num_sgs) chan->next_sg = 0; sg_req = &chan->desc->sg_req[chan->next_sg]; if (dma_scr & STM32_DMA_SCR_CT) { dma_sm0ar = sg_req->chan_reg.dma_sm0ar; stm32_dma_write(dmadev, STM32_DMA_SM0AR(id), dma_sm0ar); dev_dbg(chan2dev(chan), "CT=1 <=> SM0AR: 0x%08x\n", stm32_dma_read(dmadev, STM32_DMA_SM0AR(id))); } else { dma_sm1ar = sg_req->chan_reg.dma_sm1ar; stm32_dma_write(dmadev, STM32_DMA_SM1AR(id), dma_sm1ar); dev_dbg(chan2dev(chan), "CT=0 <=> SM1AR: 0x%08x\n", stm32_dma_read(dmadev, STM32_DMA_SM1AR(id))); } chan->next_sg++; } }

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static void stm32_dma_handle_chan_done(struct stm32_dma_chan *chan) { if (chan->desc) { if (chan->desc->cyclic) { vchan_cyclic_callback(&chan->desc->vdesc); stm32_dma_configure_next_sg(chan); } else { chan->busy = false; if (chan->next_sg == chan->desc->num_sgs) { list_del(&chan->desc->vdesc.node); vchan_cookie_complete(&chan->desc->vdesc); chan->desc = NULL; } stm32_dma_start_transfer(chan); } } }

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static irqreturn_t stm32_dma_chan_irq(int irq, void *devid) { struct stm32_dma_chan *chan = devid; struct stm32_dma_device *dmadev = stm32_dma_get_dev(chan); u32 status, scr, sfcr; spin_lock(&chan->vchan.lock); status = stm32_dma_irq_status(chan); scr = stm32_dma_read(dmadev, STM32_DMA_SCR(chan->id)); sfcr = stm32_dma_read(dmadev, STM32_DMA_SFCR(chan->id)); if ((status & STM32_DMA_TCI) && (scr & STM32_DMA_SCR_TCIE)) { stm32_dma_irq_clear(chan, STM32_DMA_TCI); stm32_dma_handle_chan_done(chan); } else { stm32_dma_irq_clear(chan, status); dev_err(chan2dev(chan), "DMA error: status=0x%08x\n", status); } spin_unlock(&chan->vchan.lock); return IRQ_HANDLED; }

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static void stm32_dma_issue_pending(struct dma_chan *c) { struct stm32_dma_chan *chan = to_stm32_dma_chan(c); unsigned long flags; int ret; spin_lock_irqsave(&chan->vchan.lock, flags); if (!chan->busy) { if (vchan_issue_pending(&chan->vchan) && !chan->desc) { ret = stm32_dma_start_transfer(chan); if ((!ret) && (chan->desc->cyclic)) stm32_dma_configure_next_sg(chan); } } spin_unlock_irqrestore(&chan->vchan.lock, flags); }

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static int stm32_dma_set_xfer_param(struct stm32_dma_chan *chan, enum dma_transfer_direction direction, enum dma_slave_buswidth *buswidth) { enum dma_slave_buswidth src_addr_width, dst_addr_width; int src_bus_width, dst_bus_width; int src_burst_size, dst_burst_size; u32 src_maxburst, dst_maxburst; dma_addr_t src_addr, dst_addr; u32 dma_scr = 0; src_addr_width = chan->dma_sconfig.src_addr_width; dst_addr_width = chan->dma_sconfig.dst_addr_width; src_maxburst = chan->dma_sconfig.src_maxburst; dst_maxburst = chan->dma_sconfig.dst_maxburst; src_addr = chan->dma_sconfig.src_addr; dst_addr = chan->dma_sconfig.dst_addr; switch (direction) { case DMA_MEM_TO_DEV: dst_bus_width = stm32_dma_get_width(chan, dst_addr_width); if (dst_bus_width < 0) return dst_bus_width; dst_burst_size = stm32_dma_get_burst(chan, dst_maxburst); if (dst_burst_size < 0) return dst_burst_size; if (!src_addr_width) src_addr_width = dst_addr_width; src_bus_width = stm32_dma_get_width(chan, src_addr_width); if (src_bus_width < 0) return src_bus_width; src_burst_size = stm32_dma_get_burst(chan, src_maxburst); if (src_burst_size < 0) return src_burst_size; dma_scr = STM32_DMA_SCR_DIR(STM32_DMA_MEM_TO_DEV) | STM32_DMA_SCR_PSIZE(dst_bus_width) | STM32_DMA_SCR_MSIZE(src_bus_width) | STM32_DMA_SCR_PBURST(dst_burst_size) | STM32_DMA_SCR_MBURST(src_burst_size); chan->chan_reg.dma_spar = chan->dma_sconfig.dst_addr; *buswidth = dst_addr_width; break; case DMA_DEV_TO_MEM: src_bus_width = stm32_dma_get_width(chan, src_addr_width); if (src_bus_width < 0) return src_bus_width; src_burst_size = stm32_dma_get_burst(chan, src_maxburst); if (src_burst_size < 0) return src_burst_size; if (!dst_addr_width) dst_addr_width = src_addr_width; dst_bus_width = stm32_dma_get_width(chan, dst_addr_width); if (dst_bus_width < 0) return dst_bus_width; dst_burst_size = stm32_dma_get_burst(chan, dst_maxburst); if (dst_burst_size < 0) return dst_burst_size; dma_scr = STM32_DMA_SCR_DIR(STM32_DMA_DEV_TO_MEM) | STM32_DMA_SCR_PSIZE(src_bus_width) | STM32_DMA_SCR_MSIZE(dst_bus_width) | STM32_DMA_SCR_PBURST(src_burst_size) | STM32_DMA_SCR_MBURST(dst_burst_size); chan->chan_reg.dma_spar = chan->dma_sconfig.src_addr; *buswidth = chan->dma_sconfig.src_addr_width; break; default: dev_err(chan2dev(chan), "Dma direction is not supported\n"); return -EINVAL; } stm32_dma_set_fifo_config(chan, src_maxburst, dst_maxburst); chan->chan_reg.dma_scr &= ~(STM32_DMA_SCR_DIR_MASK | STM32_DMA_SCR_PSIZE_MASK | STM32_DMA_SCR_MSIZE_MASK | STM32_DMA_SCR_PBURST_MASK | STM32_DMA_SCR_MBURST_MASK); chan->chan_reg.dma_scr |= dma_scr; return 0; }

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static void stm32_dma_clear_reg(struct stm32_dma_chan_reg *regs) { memset(regs, 0, sizeof(struct stm32_dma_chan_reg)); }

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static struct dma_async_tx_descriptor *stm32_dma_prep_slave_sg( struct dma_chan *c, struct scatterlist *sgl, u32 sg_len, enum dma_transfer_direction direction, unsigned long flags, void *context) { struct stm32_dma_chan *chan = to_stm32_dma_chan(c); struct stm32_dma_desc *desc; struct scatterlist *sg; enum dma_slave_buswidth buswidth; u32 nb_data_items; int i, ret; if (!chan->config_init) { dev_err(chan2dev(chan), "dma channel is not configured\n"); return NULL; } if (sg_len < 1) { dev_err(chan2dev(chan), "Invalid segment length %d\n", sg_len); return NULL; } desc = stm32_dma_alloc_desc(sg_len); if (!desc) return NULL; ret = stm32_dma_set_xfer_param(chan, direction, &buswidth); if (ret < 0) goto err; /* Set peripheral flow controller */ if (chan->dma_sconfig.device_fc) chan->chan_reg.dma_scr |= STM32_DMA_SCR_PFCTRL; else chan->chan_reg.dma_scr &= ~STM32_DMA_SCR_PFCTRL; for_each_sg(sgl, sg, sg_len, i) { desc->sg_req[i].len = sg_dma_len(sg); nb_data_items = desc->sg_req[i].len / buswidth; if (nb_data_items > STM32_DMA_MAX_DATA_ITEMS) { dev_err(chan2dev(chan), "nb items not supported\n"); goto err; } stm32_dma_clear_reg(&desc->sg_req[i].chan_reg); desc->sg_req[i].chan_reg.dma_scr = chan->chan_reg.dma_scr; desc->sg_req[i].chan_reg.dma_sfcr = chan->chan_reg.dma_sfcr; desc->sg_req[i].chan_reg.dma_spar = chan->chan_reg.dma_spar; desc->sg_req[i].chan_reg.dma_sm0ar = sg_dma_address(sg); desc->sg_req[i].chan_reg.dma_sm1ar = sg_dma_address(sg); desc->sg_req[i].chan_reg.dma_sndtr = nb_data_items; } desc->num_sgs = sg_len; desc->cyclic = false; return vchan_tx_prep(&chan->vchan, &desc->vdesc, flags); err: kfree(desc); return NULL; }

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static struct dma_async_tx_descriptor *stm32_dma_prep_dma_cyclic( struct dma_chan *c, dma_addr_t buf_addr, size_t buf_len, size_t period_len, enum dma_transfer_direction direction, unsigned long flags) { struct stm32_dma_chan *chan = to_stm32_dma_chan(c); struct stm32_dma_desc *desc; enum dma_slave_buswidth buswidth; u32 num_periods, nb_data_items; int i, ret; if (!buf_len || !period_len) { dev_err(chan2dev(chan), "Invalid buffer/period len\n"); return NULL; } if (!chan->config_init) { dev_err(chan2dev(chan), "dma channel is not configured\n"); return NULL; } if (buf_len % period_len) { dev_err(chan2dev(chan), "buf_len not multiple of period_len\n"); return NULL; } /* * We allow to take more number of requests till DMA is * not started. The driver will loop over all requests. * Once DMA is started then new requests can be queued only after * terminating the DMA. */ if (chan->busy) { dev_err(chan2dev(chan), "Request not allowed when dma busy\n"); return NULL; } ret = stm32_dma_set_xfer_param(chan, direction, &buswidth); if (ret < 0) return NULL; nb_data_items = period_len / buswidth; if (nb_data_items > STM32_DMA_MAX_DATA_ITEMS) { dev_err(chan2dev(chan), "number of items not supported\n"); return NULL; } /* Enable Circular mode or double buffer mode */ if (buf_len == period_len) chan->chan_reg.dma_scr |= STM32_DMA_SCR_CIRC; else chan->chan_reg.dma_scr |= STM32_DMA_SCR_DBM; /* Clear periph ctrl if client set it */ chan->chan_reg.dma_scr &= ~STM32_DMA_SCR_PFCTRL; num_periods = buf_len / period_len; desc = stm32_dma_alloc_desc(num_periods); if (!desc) return NULL; for (i = 0; i < num_periods; i++) { desc->sg_req[i].len = period_len; stm32_dma_clear_reg(&desc->sg_req[i].chan_reg); desc->sg_req[i].chan_reg.dma_scr = chan->chan_reg.dma_scr; desc->sg_req[i].chan_reg.dma_sfcr = chan->chan_reg.dma_sfcr; desc->sg_req[i].chan_reg.dma_spar = chan->chan_reg.dma_spar; desc->sg_req[i].chan_reg.dma_sm0ar = buf_addr; desc->sg_req[i].chan_reg.dma_sm1ar = buf_addr; desc->sg_req[i].chan_reg.dma_sndtr = nb_data_items; buf_addr += period_len; } desc->num_sgs = num_periods; desc->cyclic = true; return vchan_tx_prep(&chan->vchan, &desc->vdesc, flags); }

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static struct dma_async_tx_descriptor *stm32_dma_prep_dma_memcpy( struct dma_chan *c, dma_addr_t dest, dma_addr_t src, size_t len, unsigned long flags) { struct stm32_dma_chan *chan = to_stm32_dma_chan(c); u32 num_sgs; struct stm32_dma_desc *desc; size_t xfer_count, offset; int i; num_sgs = DIV_ROUND_UP(len, STM32_DMA_MAX_DATA_ITEMS); desc = stm32_dma_alloc_desc(num_sgs); if (!desc) return NULL; for (offset = 0, i = 0; offset < len; offset += xfer_count, i++) { xfer_count = min_t(size_t, len - offset, STM32_DMA_MAX_DATA_ITEMS); desc->sg_req[i].len = xfer_count; stm32_dma_clear_reg(&desc->sg_req[i].chan_reg); desc->sg_req[i].chan_reg.dma_scr = STM32_DMA_SCR_DIR(STM32_DMA_MEM_TO_MEM) | STM32_DMA_SCR_MINC | STM32_DMA_SCR_PINC | STM32_DMA_SCR_TCIE | STM32_DMA_SCR_TEIE; desc->sg_req[i].chan_reg.dma_sfcr = STM32_DMA_SFCR_DMDIS | STM32_DMA_SFCR_FTH(STM32_DMA_FIFO_THRESHOLD_FULL) | STM32_DMA_SFCR_FEIE; desc->sg_req[i].chan_reg.dma_spar = src + offset; desc->sg_req[i].chan_reg.dma_sm0ar = dest + offset; desc->sg_req[i].chan_reg.dma_sndtr = xfer_count; } desc->num_sgs = num_sgs; desc->cyclic = false; return vchan_tx_prep(&chan->vchan, &desc->vdesc, flags); }

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static size_t stm32_dma_desc_residue(struct stm32_dma_chan *chan, struct stm32_dma_desc *desc, u32 next_sg) { struct stm32_dma_device *dmadev = stm32_dma_get_dev(chan); u32 dma_scr, width, residue, count; int i; residue = 0; for (i = next_sg; i < desc->num_sgs; i++) residue += desc->sg_req[i].len; if (next_sg != 0) { dma_scr = stm32_dma_read(dmadev, STM32_DMA_SCR(chan->id)); width = STM32_DMA_SCR_PSIZE_GET(dma_scr); count = stm32_dma_read(dmadev, STM32_DMA_SNDTR(chan->id)); residue += count << width; } return residue; }

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static enum dma_status stm32_dma_tx_status(struct dma_chan *c, dma_cookie_t cookie, struct dma_tx_state *state) { struct stm32_dma_chan *chan = to_stm32_dma_chan(c); struct virt_dma_desc *vdesc; enum dma_status status; unsigned long flags; u32 residue; status = dma_cookie_status(c, cookie, state); if ((status == DMA_COMPLETE) || (!state)) return status; spin_lock_irqsave(&chan->vchan.lock, flags); vdesc = vchan_find_desc(&chan->vchan, cookie); if (cookie == chan->desc->vdesc.tx.cookie) { residue = stm32_dma_desc_residue(chan, chan->desc, chan->next_sg); } else if (vdesc) { residue = stm32_dma_desc_residue(chan, to_stm32_dma_desc(vdesc), 0); } else { residue = 0; } dma_set_residue(state, residue); spin_unlock_irqrestore(&chan->vchan.lock, flags); return status; }

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static int stm32_dma_alloc_chan_resources(struct dma_chan *c) { struct stm32_dma_chan *chan = to_stm32_dma_chan(c); struct stm32_dma_device *dmadev = stm32_dma_get_dev(chan); int ret; chan->config_init = false; ret = clk_prepare_enable(dmadev->clk); if (ret < 0) { dev_err(chan2dev(chan), "clk_prepare_enable failed: %d\n", ret); return ret; } ret = stm32_dma_disable_chan(chan); if (ret < 0) clk_disable_unprepare(dmadev->clk); return ret; }

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static void stm32_dma_free_chan_resources(struct dma_chan *c) { struct stm32_dma_chan *chan = to_stm32_dma_chan(c); struct stm32_dma_device *dmadev = stm32_dma_get_dev(chan); unsigned long flags; dev_dbg(chan2dev(chan), "Freeing channel %d\n", chan->id); if (chan->busy) { spin_lock_irqsave(&chan->vchan.lock, flags); stm32_dma_stop(chan); chan->desc = NULL; spin_unlock_irqrestore(&chan->vchan.lock, flags); } clk_disable_unprepare(dmadev->clk); vchan_free_chan_resources(to_virt_chan(c)); }

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static void stm32_dma_desc_free(struct virt_dma_desc *vdesc) { kfree(container_of(vdesc, struct stm32_dma_desc, vdesc)); }

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void stm32_dma_set_config(struct stm32_dma_chan *chan, struct stm32_dma_cfg *cfg) { stm32_dma_clear_reg(&chan->chan_reg); chan->chan_reg.dma_scr = cfg->stream_config & STM32_DMA_SCR_CFG_MASK; chan->chan_reg.dma_scr |= STM32_DMA_SCR_REQ(cfg->request_line); /* Enable Interrupts */ chan->chan_reg.dma_scr |= STM32_DMA_SCR_TEIE | STM32_DMA_SCR_TCIE; chan->chan_reg.dma_sfcr = cfg->threshold & STM32_DMA_SFCR_FTH_MASK; }

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static struct dma_chan *stm32_dma_of_xlate(struct of_phandle_args *dma_spec, struct of_dma *ofdma) { struct stm32_dma_device *dmadev = ofdma->of_dma_data; struct stm32_dma_cfg cfg; struct stm32_dma_chan *chan; struct dma_chan *c; if (dma_spec->args_count < 3) return NULL; cfg.channel_id = dma_spec->args[0]; cfg.request_line = dma_spec->args[1]; cfg.stream_config = dma_spec->args[2]; cfg.threshold = 0; if ((cfg.channel_id >= STM32_DMA_MAX_CHANNELS) || (cfg.request_line >= STM32_DMA_MAX_REQUEST_ID)) return NULL; if (dma_spec->args_count > 3) cfg.threshold = dma_spec->args[3]; chan = &dmadev->chan[cfg.channel_id]; c = dma_get_slave_channel(&chan->vchan.chan); if (c) stm32_dma_set_config(chan, &cfg); return c; }

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static const struct of_device_id stm32_dma_of_match[] = { { .compatible = "st,stm32-dma", }, { /* sentinel */ }, }; MODULE_DEVICE_TABLE(of, stm32_dma_of_match);
static int stm32_dma_probe(struct platform_device *pdev) { struct stm32_dma_chan *chan; struct stm32_dma_device *dmadev; struct dma_device *dd; const struct of_device_id *match; struct resource *res; int i, ret; match = of_match_device(stm32_dma_of_match, &pdev->dev); if (!match) { dev_err(&pdev->dev, "Error: No device match found\n"); return -ENODEV; } dmadev = devm_kzalloc(&pdev->dev, sizeof(*dmadev), GFP_KERNEL); if (!dmadev) return -ENOMEM; dd = &dmadev->ddev; res = platform_get_resource(pdev, IORESOURCE_MEM, 0); dmadev->base = devm_ioremap_resource(&pdev->dev, res); if (IS_ERR(dmadev->base)) return PTR_ERR(dmadev->base); dmadev->clk = devm_clk_get(&pdev->dev, NULL); if (IS_ERR(dmadev->clk)) { dev_err(&pdev->dev, "Error: Missing controller clock\n"); return PTR_ERR(dmadev->clk); } dmadev->mem2mem = of_property_read_bool(pdev->dev.of_node, "st,mem2mem"); dmadev->rst = devm_reset_control_get(&pdev->dev, NULL); if (!IS_ERR(dmadev->rst)) { reset_control_assert(dmadev->rst); udelay(2); reset_control_deassert(dmadev->rst); } dma_cap_set(DMA_SLAVE, dd->cap_mask); dma_cap_set(DMA_PRIVATE, dd->cap_mask); dma_cap_set(DMA_CYCLIC, dd->cap_mask); dd->device_alloc_chan_resources = stm32_dma_alloc_chan_resources; dd->device_free_chan_resources = stm32_dma_free_chan_resources; dd->device_tx_status = stm32_dma_tx_status; dd->device_issue_pending = stm32_dma_issue_pending; dd->device_prep_slave_sg = stm32_dma_prep_slave_sg; dd->device_prep_dma_cyclic = stm32_dma_prep_dma_cyclic; dd->device_config = stm32_dma_slave_config; dd->device_terminate_all = stm32_dma_terminate_all; dd->src_addr_widths = BIT(DMA_SLAVE_BUSWIDTH_1_BYTE) | BIT(DMA_SLAVE_BUSWIDTH_2_BYTES) | BIT(DMA_SLAVE_BUSWIDTH_4_BYTES); dd->dst_addr_widths = BIT(DMA_SLAVE_BUSWIDTH_1_BYTE) | BIT(DMA_SLAVE_BUSWIDTH_2_BYTES) | BIT(DMA_SLAVE_BUSWIDTH_4_BYTES); dd->directions = BIT(DMA_DEV_TO_MEM) | BIT(DMA_MEM_TO_DEV); dd->residue_granularity = DMA_RESIDUE_GRANULARITY_BURST; dd->dev = &pdev->dev; INIT_LIST_HEAD(&dd->channels); if (dmadev->mem2mem) { dma_cap_set(DMA_MEMCPY, dd->cap_mask); dd->device_prep_dma_memcpy = stm32_dma_prep_dma_memcpy; dd->directions |= BIT(DMA_MEM_TO_MEM); } for (i = 0; i < STM32_DMA_MAX_CHANNELS; i++) { chan = &dmadev->chan[i]; chan->id = i; chan->vchan.desc_free = stm32_dma_desc_free; vchan_init(&chan->vchan, dd); } ret = dma_async_device_register(dd); if (ret) return ret; for (i = 0; i < STM32_DMA_MAX_CHANNELS; i++) { chan = &dmadev->chan[i]; res = platform_get_resource(pdev, IORESOURCE_IRQ, i); if (!res) { ret = -EINVAL; dev_err(&pdev->dev, "No irq resource for chan %d\n", i); goto err_unregister; } chan->irq = res->start; ret = devm_request_irq(&pdev->dev, chan->irq, stm32_dma_chan_irq, 0, dev_name(chan2dev(chan)), chan); if (ret) { dev_err(&pdev->dev, "request_irq failed with err %d channel %d\n", ret, i); goto err_unregister; } } ret = of_dma_controller_register(pdev->dev.of_node, stm32_dma_of_xlate, dmadev); if (ret < 0) { dev_err(&pdev->dev, "STM32 DMA DMA OF registration failed %d\n", ret); goto err_unregister; } platform_set_drvdata(pdev, dmadev); dev_info(&pdev->dev, "STM32 DMA driver registered\n"); return 0; err_unregister: dma_async_device_unregister(dd); return ret; }

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static struct platform_driver stm32_dma_driver = { .driver = { .name = "stm32-dma", .of_match_table = stm32_dma_of_match, }, };
static int __init stm32_dma_init(void) { return platform_driver_probe(&stm32_dma_driver, stm32_dma_probe); }

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subsys_initcall(stm32_dma_init);

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Directory: drivers/dma
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