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Release 4.7 drivers/dma/tegra20-apb-dma.c

Directory: drivers/dma
/*
 * DMA driver for Nvidia's Tegra20 APB DMA controller.
 *
 * Copyright (c) 2012-2013, NVIDIA CORPORATION.  All rights reserved.
 *
 * This program is free software; you can redistribute it and/or modify it
 * under the terms and conditions of the GNU General Public License,
 * version 2, as published by the Free Software Foundation.
 *
 * This program is distributed in the hope it will be useful, but WITHOUT
 * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
 * FITNESS FOR A PARTICULAR PURPOSE.  See the GNU General Public License for
 * more details.
 *
 * You should have received a copy of the GNU General Public License
 * along with this program.  If not, see <http://www.gnu.org/licenses/>.
 */

#include <linux/bitops.h>
#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/interrupt.h>
#include <linux/io.h>
#include <linux/mm.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/pm.h>
#include <linux/pm_runtime.h>
#include <linux/reset.h>
#include <linux/slab.h>

#include "dmaengine.h"


#define TEGRA_APBDMA_GENERAL			0x0

#define TEGRA_APBDMA_GENERAL_ENABLE		BIT(31)


#define TEGRA_APBDMA_CONTROL			0x010

#define TEGRA_APBDMA_IRQ_MASK			0x01c

#define TEGRA_APBDMA_IRQ_MASK_SET		0x020

/* CSR register */

#define TEGRA_APBDMA_CHAN_CSR			0x00

#define TEGRA_APBDMA_CSR_ENB			BIT(31)

#define TEGRA_APBDMA_CSR_IE_EOC			BIT(30)

#define TEGRA_APBDMA_CSR_HOLD			BIT(29)

#define TEGRA_APBDMA_CSR_DIR			BIT(28)

#define TEGRA_APBDMA_CSR_ONCE			BIT(27)

#define TEGRA_APBDMA_CSR_FLOW			BIT(21)

#define TEGRA_APBDMA_CSR_REQ_SEL_SHIFT		16

#define TEGRA_APBDMA_CSR_REQ_SEL_MASK		0x1F

#define TEGRA_APBDMA_CSR_WCOUNT_MASK		0xFFFC

/* STATUS register */

#define TEGRA_APBDMA_CHAN_STATUS		0x004

#define TEGRA_APBDMA_STATUS_BUSY		BIT(31)

#define TEGRA_APBDMA_STATUS_ISE_EOC		BIT(30)

#define TEGRA_APBDMA_STATUS_HALT		BIT(29)

#define TEGRA_APBDMA_STATUS_PING_PONG		BIT(28)

#define TEGRA_APBDMA_STATUS_COUNT_SHIFT		2

#define TEGRA_APBDMA_STATUS_COUNT_MASK		0xFFFC


#define TEGRA_APBDMA_CHAN_CSRE			0x00C

#define TEGRA_APBDMA_CHAN_CSRE_PAUSE		(1 << 31)

/* AHB memory address */

#define TEGRA_APBDMA_CHAN_AHBPTR		0x010

/* AHB sequence register */

#define TEGRA_APBDMA_CHAN_AHBSEQ		0x14

#define TEGRA_APBDMA_AHBSEQ_INTR_ENB		BIT(31)

#define TEGRA_APBDMA_AHBSEQ_BUS_WIDTH_8		(0 << 28)

#define TEGRA_APBDMA_AHBSEQ_BUS_WIDTH_16	(1 << 28)

#define TEGRA_APBDMA_AHBSEQ_BUS_WIDTH_32	(2 << 28)

#define TEGRA_APBDMA_AHBSEQ_BUS_WIDTH_64	(3 << 28)

#define TEGRA_APBDMA_AHBSEQ_BUS_WIDTH_128	(4 << 28)

#define TEGRA_APBDMA_AHBSEQ_DATA_SWAP		BIT(27)

#define TEGRA_APBDMA_AHBSEQ_BURST_1		(4 << 24)

#define TEGRA_APBDMA_AHBSEQ_BURST_4		(5 << 24)

#define TEGRA_APBDMA_AHBSEQ_BURST_8		(6 << 24)

#define TEGRA_APBDMA_AHBSEQ_DBL_BUF		BIT(19)

#define TEGRA_APBDMA_AHBSEQ_WRAP_SHIFT		16

#define TEGRA_APBDMA_AHBSEQ_WRAP_NONE		0

/* APB address */

#define TEGRA_APBDMA_CHAN_APBPTR		0x018

/* APB sequence register */

#define TEGRA_APBDMA_CHAN_APBSEQ		0x01c

#define TEGRA_APBDMA_APBSEQ_BUS_WIDTH_8		(0 << 28)

#define TEGRA_APBDMA_APBSEQ_BUS_WIDTH_16	(1 << 28)

#define TEGRA_APBDMA_APBSEQ_BUS_WIDTH_32	(2 << 28)

#define TEGRA_APBDMA_APBSEQ_BUS_WIDTH_64	(3 << 28)

#define TEGRA_APBDMA_APBSEQ_BUS_WIDTH_128	(4 << 28)

#define TEGRA_APBDMA_APBSEQ_DATA_SWAP		BIT(27)

#define TEGRA_APBDMA_APBSEQ_WRAP_WORD_1		(1 << 16)

/* Tegra148 specific registers */

#define TEGRA_APBDMA_CHAN_WCOUNT		0x20


#define TEGRA_APBDMA_CHAN_WORD_TRANSFER		0x24

/*
 * If any burst is in flight and DMA paused then this is the time to complete
 * on-flight burst and update DMA status register.
 */

#define TEGRA_APBDMA_BURST_COMPLETE_TIME	20

/* Channel base address offset from APBDMA base address */

#define TEGRA_APBDMA_CHANNEL_BASE_ADD_OFFSET	0x1000


#define TEGRA_APBDMA_SLAVE_ID_INVALID	(TEGRA_APBDMA_CSR_REQ_SEL_MASK + 1)

struct tegra_dma;

/*
 * tegra_dma_chip_data Tegra chip specific DMA data
 * @nr_channels: Number of channels available in the controller.
 * @channel_reg_size: Channel register size/stride.
 * @max_dma_count: Maximum DMA transfer count supported by DMA controller.
 * @support_channel_pause: Support channel wise pause of dma.
 * @support_separate_wcount_reg: Support separate word count register.
 */

struct tegra_dma_chip_data {
	
int nr_channels;
	
int channel_reg_size;
	
int max_dma_count;
	
bool support_channel_pause;
	
bool support_separate_wcount_reg;
};

/* DMA channel registers */

struct tegra_dma_channel_regs {
	
unsigned long	csr;
	
unsigned long	ahb_ptr;
	
unsigned long	apb_ptr;
	
unsigned long	ahb_seq;
	
unsigned long	apb_seq;
	
unsigned long	wcount;
};

/*
 * tegra_dma_sg_req: Dma request details to configure hardware. This
 * contains the details for one transfer to configure DMA hw.
 * The client's request for data transfer can be broken into multiple
 * sub-transfer as per requester details and hw support.
 * This sub transfer get added in the list of transfer and point to Tegra
 * DMA descriptor which manages the transfer details.
 */

struct tegra_dma_sg_req {
	
struct tegra_dma_channel_regs	ch_regs;
	
int				req_len;
	
bool				configured;
	
bool				last_sg;
	
struct list_head		node;
	
struct tegra_dma_desc		*dma_desc;
};

/*
 * tegra_dma_desc: Tegra DMA descriptors which manages the client requests.
 * This descriptor keep track of transfer status, callbacks and request
 * counts etc.
 */

struct tegra_dma_desc {
	
struct dma_async_tx_descriptor	txd;
	
int				bytes_requested;
	
int				bytes_transferred;
	
enum dma_status			dma_status;
	
struct list_head		node;
	
struct list_head		tx_list;
	
struct list_head		cb_node;
	
int				cb_count;
};

struct tegra_dma_channel;


typedef void (*dma_isr_handler)(struct tegra_dma_channel *tdc,
				bool to_terminate);

/* tegra_dma_channel: Channel specific information */

struct tegra_dma_channel {
	
struct dma_chan		dma_chan;
	
char			name[30];
	
bool			config_init;
	
int			id;
	
int			irq;
	
void __iomem		*chan_addr;
	
spinlock_t		lock;
	
bool			busy;
	
struct tegra_dma	*tdma;
	
bool			cyclic;

	/* Different lists for managing the requests */
	
struct list_head	free_sg_req;
	
struct list_head	pending_sg_req;
	
struct list_head	free_dma_desc;
	
struct list_head	cb_desc;

	/* ISR handler and tasklet for bottom half of isr handling */
	
dma_isr_handler		isr_handler;
	
struct tasklet_struct	tasklet;

	/* Channel-slave specific configuration */
	
unsigned int slave_id;
	
struct dma_slave_config dma_sconfig;
	
struct tegra_dma_channel_regs	channel_reg;
};

/* tegra_dma: Tegra DMA specific information */

struct tegra_dma {
	
struct dma_device		dma_dev;
	
struct device			*dev;
	
struct clk			*dma_clk;
	
struct reset_control		*rst;
	
spinlock_t			global_lock;
	
void __iomem			*base_addr;
	
const struct tegra_dma_chip_data *chip_data;

	/*
         * Counter for managing global pausing of the DMA controller.
         * Only applicable for devices that don't support individual
         * channel pausing.
         */
	
u32				global_pause_count;

	/* Some register need to be cache before suspend */
	
u32				reg_gen;

	/* Last member of the structure */
	
struct tegra_dma_channel channels[0];
};


static inline void tdma_write(struct tegra_dma *tdma, u32 reg, u32 val) { writel(val, tdma->base_addr + reg); }

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static inline u32 tdma_read(struct tegra_dma *tdma, u32 reg) { return readl(tdma->base_addr + reg); }

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static inline void tdc_write(struct tegra_dma_channel *tdc, u32 reg, u32 val) { writel(val, tdc->chan_addr + reg); }

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static inline u32 tdc_read(struct tegra_dma_channel *tdc, u32 reg) { return readl(tdc->chan_addr + reg); }

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static inline struct tegra_dma_channel *to_tegra_dma_chan(struct dma_chan *dc) { return container_of(dc, struct tegra_dma_channel, dma_chan); }

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static inline struct tegra_dma_desc *txd_to_tegra_dma_desc( struct dma_async_tx_descriptor *td) { return container_of(td, struct tegra_dma_desc, txd); }

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static inline struct device *tdc2dev(struct tegra_dma_channel *tdc) { return &tdc->dma_chan.dev->device; }

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static dma_cookie_t tegra_dma_tx_submit(struct dma_async_tx_descriptor *tx); static int tegra_dma_runtime_suspend(struct device *dev); static int tegra_dma_runtime_resume(struct device *dev); /* Get DMA desc from free list, if not there then allocate it. */
static struct tegra_dma_desc *tegra_dma_desc_get( struct tegra_dma_channel *tdc) { struct tegra_dma_desc *dma_desc; unsigned long flags; spin_lock_irqsave(&tdc->lock, flags); /* Do not allocate if desc are waiting for ack */ list_for_each_entry(dma_desc, &tdc->free_dma_desc, node) { if (async_tx_test_ack(&dma_desc->txd)) { list_del(&dma_desc->node); spin_unlock_irqrestore(&tdc->lock, flags); dma_desc->txd.flags = 0; return dma_desc; } } spin_unlock_irqrestore(&tdc->lock, flags); /* Allocate DMA desc */ dma_desc = kzalloc(sizeof(*dma_desc), GFP_NOWAIT); if (!dma_desc) { dev_err(tdc2dev(tdc), "dma_desc alloc failed\n"); return NULL; } dma_async_tx_descriptor_init(&dma_desc->txd, &tdc->dma_chan); dma_desc->txd.tx_submit = tegra_dma_tx_submit; dma_desc->txd.flags = 0; return dma_desc; }

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static void tegra_dma_desc_put(struct tegra_dma_channel *tdc, struct tegra_dma_desc *dma_desc) { unsigned long flags; spin_lock_irqsave(&tdc->lock, flags); if (!list_empty(&dma_desc->tx_list)) list_splice_init(&dma_desc->tx_list, &tdc->free_sg_req); list_add_tail(&dma_desc->node, &tdc->free_dma_desc); spin_unlock_irqrestore(&tdc->lock, flags); }

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static struct tegra_dma_sg_req *tegra_dma_sg_req_get( struct tegra_dma_channel *tdc) { struct tegra_dma_sg_req *sg_req = NULL; unsigned long flags; spin_lock_irqsave(&tdc->lock, flags); if (!list_empty(&tdc->free_sg_req)) { sg_req = list_first_entry(&tdc->free_sg_req, typeof(*sg_req), node); list_del(&sg_req->node); spin_unlock_irqrestore(&tdc->lock, flags); return sg_req; } spin_unlock_irqrestore(&tdc->lock, flags); sg_req = kzalloc(sizeof(struct tegra_dma_sg_req), GFP_NOWAIT); if (!sg_req) dev_err(tdc2dev(tdc), "sg_req alloc failed\n"); return sg_req; }

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static int tegra_dma_slave_config(struct dma_chan *dc, struct dma_slave_config *sconfig) { struct tegra_dma_channel *tdc = to_tegra_dma_chan(dc); if (!list_empty(&tdc->pending_sg_req)) { dev_err(tdc2dev(tdc), "Configuration not allowed\n"); return -EBUSY; } memcpy(&tdc->dma_sconfig, sconfig, sizeof(*sconfig)); if (tdc->slave_id == TEGRA_APBDMA_SLAVE_ID_INVALID) { if (sconfig->slave_id > TEGRA_APBDMA_CSR_REQ_SEL_MASK) return -EINVAL; tdc->slave_id = sconfig->slave_id; } tdc->config_init = true; return 0; }

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static void tegra_dma_global_pause(struct tegra_dma_channel *tdc, bool wait_for_burst_complete) { struct tegra_dma *tdma = tdc->tdma; spin_lock(&tdma->global_lock); if (tdc->tdma->global_pause_count == 0) { tdma_write(tdma, TEGRA_APBDMA_GENERAL, 0); if (wait_for_burst_complete) udelay(TEGRA_APBDMA_BURST_COMPLETE_TIME); } tdc->tdma->global_pause_count++; spin_unlock(&tdma->global_lock); }

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static void tegra_dma_global_resume(struct tegra_dma_channel *tdc) { struct tegra_dma *tdma = tdc->tdma; spin_lock(&tdma->global_lock); if (WARN_ON(tdc->tdma->global_pause_count == 0)) goto out; if (--tdc->tdma->global_pause_count == 0) tdma_write(tdma, TEGRA_APBDMA_GENERAL, TEGRA_APBDMA_GENERAL_ENABLE); out: spin_unlock(&tdma->global_lock); }

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static void tegra_dma_pause(struct tegra_dma_channel *tdc, bool wait_for_burst_complete) { struct tegra_dma *tdma = tdc->tdma; if (tdma->chip_data->support_channel_pause) { tdc_write(tdc, TEGRA_APBDMA_CHAN_CSRE, TEGRA_APBDMA_CHAN_CSRE_PAUSE); if (wait_for_burst_complete) udelay(TEGRA_APBDMA_BURST_COMPLETE_TIME); } else { tegra_dma_global_pause(tdc, wait_for_burst_complete); } }

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static void tegra_dma_resume(struct tegra_dma_channel *tdc) { struct tegra_dma *tdma = tdc->tdma; if (tdma->chip_data->support_channel_pause) { tdc_write(tdc, TEGRA_APBDMA_CHAN_CSRE, 0); } else { tegra_dma_global_resume(tdc); } }

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static void tegra_dma_stop(struct tegra_dma_channel *tdc) { u32 csr; u32 status; /* Disable interrupts */ csr = tdc_read(tdc, TEGRA_APBDMA_CHAN_CSR); csr &= ~TEGRA_APBDMA_CSR_IE_EOC; tdc_write(tdc, TEGRA_APBDMA_CHAN_CSR, csr); /* Disable DMA */ csr &= ~TEGRA_APBDMA_CSR_ENB; tdc_write(tdc, TEGRA_APBDMA_CHAN_CSR, csr); /* Clear interrupt status if it is there */ status = tdc_read(tdc, TEGRA_APBDMA_CHAN_STATUS); if (status & TEGRA_APBDMA_STATUS_ISE_EOC) { dev_dbg(tdc2dev(tdc), "%s():clearing interrupt\n", __func__); tdc_write(tdc, TEGRA_APBDMA_CHAN_STATUS, status); } tdc->busy = false; }

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static void tegra_dma_start(struct tegra_dma_channel *tdc, struct tegra_dma_sg_req *sg_req) { struct tegra_dma_channel_regs *ch_regs = &sg_req->ch_regs; tdc_write(tdc, TEGRA_APBDMA_CHAN_CSR, ch_regs->csr); tdc_write(tdc, TEGRA_APBDMA_CHAN_APBSEQ, ch_regs->apb_seq); tdc_write(tdc, TEGRA_APBDMA_CHAN_APBPTR, ch_regs->apb_ptr); tdc_write(tdc, TEGRA_APBDMA_CHAN_AHBSEQ, ch_regs->ahb_seq); tdc_write(tdc, TEGRA_APBDMA_CHAN_AHBPTR, ch_regs->ahb_ptr); if (tdc->tdma->chip_data->support_separate_wcount_reg) tdc_write(tdc, TEGRA_APBDMA_CHAN_WCOUNT, ch_regs->wcount); /* Start DMA */ tdc_write(tdc, TEGRA_APBDMA_CHAN_CSR, ch_regs->csr | TEGRA_APBDMA_CSR_ENB); }

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static void tegra_dma_configure_for_next(struct tegra_dma_channel *tdc, struct tegra_dma_sg_req *nsg_req) { unsigned long status; /* * The DMA controller reloads the new configuration for next transfer * after last burst of current transfer completes. * If there is no IEC status then this makes sure that last burst * has not be completed. There may be case that last burst is on * flight and so it can complete but because DMA is paused, it * will not generates interrupt as well as not reload the new * configuration. * If there is already IEC status then interrupt handler need to * load new configuration. */ tegra_dma_pause(tdc, false); status = tdc_read(tdc, TEGRA_APBDMA_CHAN_STATUS); /* * If interrupt is pending then do nothing as the ISR will handle * the programing for new request. */ if (status & TEGRA_APBDMA_STATUS_ISE_EOC) { dev_err(tdc2dev(tdc), "Skipping new configuration as interrupt is pending\n"); tegra_dma_resume(tdc); return; } /* Safe to program new configuration */ tdc_write(tdc, TEGRA_APBDMA_CHAN_APBPTR, nsg_req->ch_regs.apb_ptr); tdc_write(tdc, TEGRA_APBDMA_CHAN_AHBPTR, nsg_req->ch_regs.ahb_ptr); if (tdc->tdma->chip_data->support_separate_wcount_reg) tdc_write(tdc, TEGRA_APBDMA_CHAN_WCOUNT, nsg_req->ch_regs.wcount); tdc_write(tdc, TEGRA_APBDMA_CHAN_CSR, nsg_req->ch_regs.csr | TEGRA_APBDMA_CSR_ENB); nsg_req->configured = true; tegra_dma_resume(tdc); }

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static void tdc_start_head_req(struct tegra_dma_channel *tdc) { struct tegra_dma_sg_req *sg_req; if (list_empty(&tdc->pending_sg_req)) return; sg_req = list_first_entry(&tdc->pending_sg_req, typeof(*sg_req), node); tegra_dma_start(tdc, sg_req); sg_req->configured = true; tdc->busy = true; }

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static void tdc_configure_next_head_desc(struct tegra_dma_channel *tdc) { struct tegra_dma_sg_req *hsgreq; struct tegra_dma_sg_req *hnsgreq; if (list_empty(&tdc->pending_sg_req)) return; hsgreq = list_first_entry(&tdc->pending_sg_req, typeof(*hsgreq), node); if (!list_is_last(&hsgreq->node, &tdc->pending_sg_req)) { hnsgreq = list_first_entry(&hsgreq->node, typeof(*hnsgreq), node); tegra_dma_configure_for_next(tdc, hnsgreq); } }

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static inline int get_current_xferred_count(struct tegra_dma_channel *tdc, struct tegra_dma_sg_req *sg_req, unsigned long status) { return sg_req->req_len - (status & TEGRA_APBDMA_STATUS_COUNT_MASK) - 4; }

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static void tegra_dma_abort_all(struct tegra_dma_channel *tdc) { struct tegra_dma_sg_req *sgreq; struct tegra_dma_desc *dma_desc; while (!list_empty(&tdc->pending_sg_req)) { sgreq = list_first_entry(&tdc->pending_sg_req, typeof(*sgreq), node); list_move_tail(&sgreq->node, &tdc->free_sg_req); if (sgreq->last_sg) { dma_desc = sgreq->dma_desc; dma_desc->dma_status = DMA_ERROR; list_add_tail(&dma_desc->node, &tdc->free_dma_desc); /* Add in cb list if it is not there. */ if (!dma_desc->cb_count) list_add_tail(&dma_desc->cb_node, &tdc->cb_desc); dma_desc->cb_count++; } } tdc->isr_handler = NULL; }

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static bool handle_continuous_head_request(struct tegra_dma_channel *tdc, struct tegra_dma_sg_req *last_sg_req, bool to_terminate) { struct tegra_dma_sg_req *hsgreq = NULL; if (list_empty(&tdc->pending_sg_req)) { dev_err(tdc2dev(tdc), "Dma is running without req\n"); tegra_dma_stop(tdc); return false; } /* * Check that head req on list should be in flight. * If it is not in flight then abort transfer as * looping of transfer can not continue. */ hsgreq = list_first_entry(&tdc->pending_sg_req, typeof(*hsgreq), node); if (!hsgreq->configured) { tegra_dma_stop(tdc); dev_err(tdc2dev(tdc), "Error in dma transfer, aborting dma\n"); tegra_dma_abort_all(tdc); return false; } /* Configure next request */ if (!to_terminate) tdc_configure_next_head_desc(tdc); return true; }

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static void handle_once_dma_done(struct tegra_dma_channel *tdc, bool to_terminate) { struct tegra_dma_sg_req *sgreq; struct tegra_dma_desc *dma_desc; tdc->busy = false; sgreq = list_first_entry(&tdc->pending_sg_req, typeof(*sgreq), node); dma_desc = sgreq->dma_desc; dma_desc->bytes_transferred += sgreq->req_len; list_del(&sgreq->node); if (sgreq->last_sg) { dma_desc->dma_status = DMA_COMPLETE; dma_cookie_complete(&dma_desc->txd); if (!dma_desc->cb_count) list_add_tail(&dma_desc->cb_node, &tdc->cb_desc); dma_desc->cb_count++; list_add_tail(&dma_desc->node, &tdc->free_dma_desc); } list_add_tail(&sgreq->node, &tdc->free_sg_req); /* Do not start DMA if it is going to be terminate */ if (to_terminate || list_empty(&tdc->pending_sg_req)) return; tdc_start_head_req(tdc); }

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static void handle_cont_sngl_cycle_dma_done(struct tegra_dma_channel *tdc, bool to_terminate) { struct tegra_dma_sg_req *sgreq; struct tegra_dma_desc *dma_desc; bool st; sgreq = list_first_entry(&tdc->pending_sg_req, typeof(*sgreq), node); dma_desc = sgreq->dma_desc; dma_desc->bytes_transferred += sgreq->req_len; /* Callback need to be call */ if (!dma_desc->cb_count) list_add_tail(&dma_desc->cb_node, &tdc->cb_desc); dma_desc->cb_count++; /* If not last req then put at end of pending list */ if (!list_is_last(&sgreq->node, &tdc->pending_sg_req)) { list_move_tail(&sgreq->node, &tdc->pending_sg_req); sgreq->configured = false; st = handle_continuous_head_request(tdc, sgreq, to_terminate); if (!st) dma_desc->dma_status = DMA_ERROR; } }

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static void tegra_dma_tasklet(unsigned long data) { struct tegra_dma_channel *tdc = (struct tegra_dma_channel *)data; dma_async_tx_callback callback = NULL; void *callback_param = NULL; struct tegra_dma_desc *dma_desc; unsigned long flags; int cb_count; spin_lock_irqsave(&tdc->lock, flags); while (!list_empty(&tdc->cb_desc)) { dma_desc = list_first_entry(&tdc->cb_desc, typeof(*dma_desc), cb_node); list_del(&dma_desc->cb_node); callback = dma_desc->txd.callback; callback_param = dma_desc->txd.callback_param; cb_count = dma_desc->cb_count; dma_desc->cb_count = 0; spin_unlock_irqrestore(&tdc->lock, flags); while (cb_count-- && callback) callback(callback_param); spin_lock_irqsave(&tdc->lock, flags); } spin_unlock_irqrestore(&tdc->lock, flags); }

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static irqreturn_t tegra_dma_isr(int irq, void *dev_id) { struct tegra_dma_channel *tdc = dev_id; unsigned long status; unsigned long flags; spin_lock_irqsave(&tdc->lock, flags); status = tdc_read(tdc, TEGRA_APBDMA_CHAN_STATUS); if (status & TEGRA_APBDMA_STATUS_ISE_EOC) { tdc_write(tdc, TEGRA_APBDMA_CHAN_STATUS, status); tdc->isr_handler(tdc, false); tasklet_schedule(&tdc->tasklet); spin_unlock_irqrestore(&tdc->lock, flags); return IRQ_HANDLED; } spin_unlock_irqrestore(&tdc->lock, flags); dev_info(tdc2dev(tdc), "Interrupt already served status 0x%08lx\n", status); return IRQ_NONE; }

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static dma_cookie_t tegra_dma_tx_submit(struct dma_async_tx_descriptor *txd) { struct tegra_dma_desc *dma_desc = txd_to_tegra_dma_desc(txd); struct tegra_dma_channel *tdc = to_tegra_dma_chan(txd->chan); unsigned long flags; dma_cookie_t cookie; spin_lock_irqsave(&tdc->lock, flags); dma_desc->dma_status = DMA_IN_PROGRESS; cookie = dma_cookie_assign(&dma_desc->txd); list_splice_tail_init(&dma_desc->tx_list, &tdc->pending_sg_req); spin_unlock_irqrestore(&tdc->lock, flags); return cookie; }

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static void tegra_dma_issue_pending(struct dma_chan *dc) { struct tegra_dma_channel *tdc = to_tegra_dma_chan(dc); unsigned long flags; spin_lock_irqsave(&tdc->lock, flags); if (list_empty(&tdc->pending_sg_req)) { dev_err(tdc2dev(tdc), "No DMA request\n"); goto end; } if (!tdc->busy) { tdc_start_head_req(tdc); /* Continuous single mode: Configure next req */ if (tdc->cyclic) { /* * Wait for 1 burst time for configure DMA for * next transfer. */ udelay(TEGRA_APBDMA_BURST_COMPLETE_TIME); tdc_configure_next_head_desc(tdc); } } end: spin_unlock_irqrestore(&tdc->lock, flags); }

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static int tegra_dma_terminate_all(struct dma_chan *dc) { struct tegra_dma_channel *tdc = to_tegra_dma_chan(dc); struct tegra_dma_sg_req *sgreq; struct tegra_dma_desc *dma_desc; unsigned long flags; unsigned long status; unsigned long wcount; bool was_busy; spin_lock_irqsave(&tdc->lock, flags); if (list_empty(&tdc->pending_sg_req)) { spin_unlock_irqrestore(&tdc->lock, flags); return 0; } if (!tdc->busy) goto skip_dma_stop; /* Pause DMA before checking the queue status */ tegra_dma_pause(tdc, true); status = tdc_read(tdc, TEGRA_APBDMA_CHAN_STATUS); if (status & TEGRA_APBDMA_STATUS_ISE_EOC) { dev_dbg(tdc2dev(tdc), "%s():handling isr\n", __func__); tdc->isr_handler(tdc, true); status = tdc_read(tdc, TEGRA_APBDMA_CHAN_STATUS); } if (tdc->tdma->chip_data->support_separate_wcount_reg) wcount = tdc_read(tdc, TEGRA_APBDMA_CHAN_WORD_TRANSFER); else wcount = status; was_busy = tdc->busy; tegra_dma_stop(tdc); if (!list_empty(&tdc->pending_sg_req) && was_busy) { sgreq = list_first_entry(&tdc->pending_sg_req, typeof(*sgreq), node); sgreq->dma_desc->bytes_transferred += get_current_xferred_count(tdc, sgreq, wcount); } tegra_dma_resume(tdc); skip_dma_stop: tegra_dma_abort_all(tdc); while (!list_empty(&tdc->cb_desc)) { dma_desc = list_first_entry(&tdc->cb_desc, typeof(*dma_desc), cb_node); list_del(&dma_desc->cb_node); dma_desc->cb_count = 0; } spin_unlock_irqrestore(&tdc->lock, flags); return 0; }

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static enum dma_status tegra_dma_tx_status(struct dma_chan *dc, dma_cookie_t cookie, struct dma_tx_state *txstate) { struct tegra_dma_channel *tdc = to_tegra_dma_chan(dc); struct tegra_dma_desc *dma_desc; struct tegra_dma_sg_req *sg_req; enum dma_status ret; unsigned long flags; unsigned int residual; ret = dma_cookie_status(dc, cookie, txstate); if (ret == DMA_COMPLETE) return ret; spin_lock_irqsave(&tdc->lock, flags); /* Check on wait_ack desc status */ list_for_each_entry(dma_desc, &tdc->free_dma_desc, node) { if (dma_desc->txd.cookie == cookie) { residual = dma_desc->bytes_requested - (dma_desc->bytes_transferred % dma_desc->bytes_requested); dma_set_residue(txstate, residual); ret = dma_desc->dma_status; spin_unlock_irqrestore(&tdc->lock, flags); return ret; } } /* Check in pending list */ list_for_each_entry(sg_req, &tdc->pending_sg_req, node) { dma_desc = sg_req->dma_desc; if (dma_desc->txd.cookie == cookie) { residual = dma_desc->bytes_requested - (dma_desc->bytes_transferred % dma_desc->bytes_requested); dma_set_residue(txstate, residual); ret = dma_desc->dma_status; spin_unlock_irqrestore(&tdc->lock, flags); return ret; } } dev_dbg(tdc2dev(tdc), "cookie %d does not found\n", cookie); spin_unlock_irqrestore(&tdc->lock, flags); return ret; }

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Total243100.00%4100.00%


static inline int get_bus_width(struct tegra_dma_channel *tdc, enum dma_slave_buswidth slave_bw) { switch (slave_bw) { case DMA_SLAVE_BUSWIDTH_1_BYTE: return TEGRA_APBDMA_APBSEQ_BUS_WIDTH_8; case DMA_SLAVE_BUSWIDTH_2_BYTES: return TEGRA_APBDMA_APBSEQ_BUS_WIDTH_16; case DMA_SLAVE_BUSWIDTH_4_BYTES: return TEGRA_APBDMA_APBSEQ_BUS_WIDTH_32; case DMA_SLAVE_BUSWIDTH_8_BYTES: return TEGRA_APBDMA_APBSEQ_BUS_WIDTH_64; default: dev_warn(tdc2dev(tdc), "slave bw is not supported, using 32bits\n"); return TEGRA_APBDMA_APBSEQ_BUS_WIDTH_32; } }

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static inline int get_burst_size(struct tegra_dma_channel *tdc, u32 burst_size, enum dma_slave_buswidth slave_bw, int len) { int burst_byte; int burst_ahb_width; /* * burst_size from client is in terms of the bus_width. * convert them into AHB memory width which is 4 byte. */ burst_byte = burst_size * slave_bw; burst_ahb_width = burst_byte / 4; /* If burst size is 0 then calculate the burst size based on length */ if (!burst_ahb_width) { if (len & 0xF) return TEGRA_APBDMA_AHBSEQ_BURST_1; else if ((len >> 4) & 0x1) return TEGRA_APBDMA_AHBSEQ_BURST_4; else return TEGRA_APBDMA_AHBSEQ_BURST_8; } if (burst_ahb_width < 4) return TEGRA_APBDMA_AHBSEQ_BURST_1; else if (burst_ahb_width < 8) return TEGRA_APBDMA_AHBSEQ_BURST_4; else return TEGRA_APBDMA_AHBSEQ_BURST_8; }

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static int get_transfer_param(struct tegra_dma_channel *tdc, enum dma_transfer_direction direction, unsigned long *apb_addr, unsigned long *apb_seq, unsigned long *csr, unsigned int *burst_size, enum dma_slave_buswidth *slave_bw) { switch (direction) { case DMA_MEM_TO_DEV: *apb_addr = tdc->dma_sconfig.dst_addr; *apb_seq = get_bus_width(tdc, tdc->dma_sconfig.dst_addr_width); *burst_size = tdc->dma_sconfig.dst_maxburst; *slave_bw = tdc->dma_sconfig.dst_addr_width; *csr = TEGRA_APBDMA_CSR_DIR; return 0; case DMA_DEV_TO_MEM: *apb_addr = tdc->dma_sconfig.src_addr; *apb_seq = get_bus_width(tdc, tdc->dma_sconfig.src_addr_width); *burst_size = tdc->dma_sconfig.src_maxburst; *slave_bw = tdc->dma_sconfig.src_addr_width; *csr = 0; return 0; default: dev_err(tdc2dev(tdc), "Dma direction is not supported\n"); return -EINVAL; } return -EINVAL; }

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static void tegra_dma_prep_wcount(struct tegra_dma_channel *tdc, struct tegra_dma_channel_regs *ch_regs, u32 len) { u32 len_field = (len - 4) & 0xFFFC; if (tdc->tdma->chip_data->support_separate_wcount_reg) ch_regs->wcount = len_field; else ch_regs->csr |= len_field; }

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static struct dma_async_tx_descriptor *tegra_dma_prep_slave_sg( struct dma_chan *dc, struct scatterlist *sgl, unsigned int sg_len, enum dma_transfer_direction direction, unsigned long flags, void *context) { struct tegra_dma_channel *tdc = to_tegra_dma_chan(dc); struct tegra_dma_desc *dma_desc; unsigned int i; struct scatterlist *sg; unsigned long csr, ahb_seq, apb_ptr, apb_seq; struct list_head req_list; struct tegra_dma_sg_req *sg_req = NULL; u32 burst_size; enum dma_slave_buswidth slave_bw; if (!tdc->config_init) { dev_err(tdc2dev(tdc), "dma channel is not configured\n"); return NULL; } if (sg_len < 1) { dev_err(tdc2dev(tdc), "Invalid segment length %d\n", sg_len); return NULL; } if (get_transfer_param(tdc, direction, &apb_ptr, &apb_seq, &csr, &burst_size, &slave_bw) < 0) return NULL; INIT_LIST_HEAD(&req_list); ahb_seq = TEGRA_APBDMA_AHBSEQ_INTR_ENB; ahb_seq |= TEGRA_APBDMA_AHBSEQ_WRAP_NONE << TEGRA_APBDMA_AHBSEQ_WRAP_SHIFT; ahb_seq |= TEGRA_APBDMA_AHBSEQ_BUS_WIDTH_32; csr |= TEGRA_APBDMA_CSR_ONCE | TEGRA_APBDMA_CSR_FLOW; csr |= tdc->slave_id << TEGRA_APBDMA_CSR_REQ_SEL_SHIFT; if (flags & DMA_PREP_INTERRUPT) csr |= TEGRA_APBDMA_CSR_IE_EOC; apb_seq |= TEGRA_APBDMA_APBSEQ_WRAP_WORD_1; dma_desc = tegra_dma_desc_get(tdc); if (!dma_desc) { dev_err(tdc2dev(tdc), "Dma descriptors not available\n"); return NULL; } INIT_LIST_HEAD(&dma_desc->tx_list); INIT_LIST_HEAD(&dma_desc->cb_node); dma_desc->cb_count = 0; dma_desc->bytes_requested = 0; dma_desc->bytes_transferred = 0; dma_desc->dma_status = DMA_IN_PROGRESS; /* Make transfer requests */ for_each_sg(sgl, sg, sg_len, i) { u32 len, mem; mem = sg_dma_address(sg); len = sg_dma_len(sg); if ((len & 3) || (mem & 3) || (len > tdc->tdma->chip_data->max_dma_count)) { dev_err(tdc2dev(tdc), "Dma length/memory address is not supported\n"); tegra_dma_desc_put(tdc, dma_desc); return NULL; } sg_req = tegra_dma_sg_req_get(tdc); if (!sg_req) { dev_err(tdc2dev(tdc), "Dma sg-req not available\n"); tegra_dma_desc_put(tdc, dma_desc); return NULL; } ahb_seq |= get_burst_size(tdc, burst_size, slave_bw, len); dma_desc->bytes_requested += len; sg_req->ch_regs.apb_ptr = apb_ptr; sg_req->ch_regs.ahb_ptr = mem; sg_req->ch_regs.csr = csr; tegra_dma_prep_wcount(tdc, &sg_req->ch_regs, len); sg_req->ch_regs.apb_seq = apb_seq; sg_req->ch_regs.ahb_seq = ahb_seq; sg_req->configured = false; sg_req->last_sg = false; sg_req->dma_desc = dma_desc; sg_req->req_len = len; list_add_tail(&sg_req->node, &dma_desc->tx_list); } sg_req->last_sg = true; if (flags & DMA_CTRL_ACK) dma_desc->txd.flags = DMA_CTRL_ACK; /* * Make sure that mode should not be conflicting with currently * configured mode. */ if (!tdc->isr_handler) { tdc->isr_handler = handle_once_dma_done; tdc->cyclic = false; } else { if (tdc->cyclic) { dev_err(tdc2dev(tdc), "DMA configured in cyclic mode\n"); tegra_dma_desc_put(tdc, dma_desc); return NULL; } } return &dma_desc->txd; }

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static struct dma_async_tx_descriptor *tegra_dma_prep_dma_cyclic( struct dma_chan *dc, dma_addr_t buf_addr, size_t buf_len, size_t period_len, enum dma_transfer_direction direction, unsigned long flags) { struct tegra_dma_channel *tdc = to_tegra_dma_chan(dc); struct tegra_dma_desc *dma_desc = NULL; struct tegra_dma_sg_req *sg_req = NULL; unsigned long csr, ahb_seq, apb_ptr, apb_seq; int len; size_t remain_len; dma_addr_t mem = buf_addr; u32 burst_size; enum dma_slave_buswidth slave_bw; if (!buf_len || !period_len) { dev_err(tdc2dev(tdc), "Invalid buffer/period len\n"); return NULL; } if (!tdc->config_init) { dev_err(tdc2dev(tdc), "DMA slave is not configured\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 (tdc->busy) { dev_err(tdc2dev(tdc), "Request not allowed when dma running\n"); return NULL; } /* * We only support cycle transfer when buf_len is multiple of * period_len. */ if (buf_len % period_len) { dev_err(tdc2dev(tdc), "buf_len is not multiple of period_len\n"); return NULL; } len = period_len; if ((len & 3) || (buf_addr & 3) || (len > tdc->tdma->chip_data->max_dma_count)) { dev_err(tdc2dev(tdc), "Req len/mem address is not correct\n"); return NULL; } if (get_transfer_param(tdc, direction, &apb_ptr, &apb_seq, &csr, &burst_size, &slave_bw) < 0) return NULL; ahb_seq = TEGRA_APBDMA_AHBSEQ_INTR_ENB; ahb_seq |= TEGRA_APBDMA_AHBSEQ_WRAP_NONE << TEGRA_APBDMA_AHBSEQ_WRAP_SHIFT; ahb_seq |= TEGRA_APBDMA_AHBSEQ_BUS_WIDTH_32; csr |= TEGRA_APBDMA_CSR_FLOW; if (flags & DMA_PREP_INTERRUPT) csr |= TEGRA_APBDMA_CSR_IE_EOC; csr |= tdc->slave_id << TEGRA_APBDMA_CSR_REQ_SEL_SHIFT; apb_seq |= TEGRA_APBDMA_APBSEQ_WRAP_WORD_1; dma_desc = tegra_dma_desc_get(tdc); if (!dma_desc) { dev_err(tdc2dev(tdc), "not enough descriptors available\n"); return NULL; } INIT_LIST_HEAD(&dma_desc->tx_list); INIT_LIST_HEAD(&dma_desc->cb_node); dma_desc->cb_count = 0; dma_desc->bytes_transferred = 0; dma_desc->bytes_requested = buf_len; remain_len = buf_len; /* Split transfer equal to period size */ while (remain_len) { sg_req = tegra_dma_sg_req_get(tdc); if (!sg_req) { dev_err(tdc2dev(tdc), "Dma sg-req not available\n"); tegra_dma_desc_put(tdc, dma_desc); return NULL; } ahb_seq |= get_burst_size(tdc, burst_size, slave_bw, len); sg_req->ch_regs.apb_ptr = apb_ptr; sg_req->ch_regs.ahb_ptr = mem; sg_req->ch_regs.csr = csr; tegra_dma_prep_wcount(tdc, &sg_req->ch_regs, len); sg_req->ch_regs.apb_seq = apb_seq; sg_req->ch_regs.ahb_seq = ahb_seq; sg_req->configured = false; sg_req->last_sg = false; sg_req->dma_desc = dma_desc; sg_req->req_len = len; list_add_tail(&sg_req->node, &dma_desc->tx_list); remain_len -= len; mem += len; } sg_req->last_sg = true; if (flags & DMA_CTRL_ACK) dma_desc->txd.flags = DMA_CTRL_ACK; /* * Make sure that mode should not be conflicting with currently * configured mode. */ if (!tdc->isr_handler) { tdc->isr_handler = handle_cont_sngl_cycle_dma_done; tdc->cyclic = true; } else { if (!tdc->cyclic) { dev_err(tdc2dev(tdc), "DMA configuration conflict\n"); tegra_dma_desc_put(tdc, dma_desc); return NULL; } } return &dma_desc->txd; }

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static int tegra_dma_alloc_chan_resources(struct dma_chan *dc) { struct tegra_dma_channel *tdc = to_tegra_dma_chan(dc); struct tegra_dma *tdma = tdc->tdma; int ret; dma_cookie_init(&tdc->dma_chan); tdc->config_init = false; ret = pm_runtime_get_sync(tdma->dev); if (ret < 0) return ret; return 0; }

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static void tegra_dma_free_chan_resources(struct dma_chan *dc) { struct tegra_dma_channel *tdc = to_tegra_dma_chan(dc); struct tegra_dma *tdma = tdc->tdma; struct tegra_dma_desc *dma_desc; struct tegra_dma_sg_req *sg_req; struct list_head dma_desc_list; struct list_head sg_req_list; unsigned long flags; INIT_LIST_HEAD(&dma_desc_list); INIT_LIST_HEAD(&sg_req_list); dev_dbg(tdc2dev(tdc), "Freeing channel %d\n", tdc->id); if (tdc->busy) tegra_dma_terminate_all(dc); spin_lock_irqsave(&tdc->lock, flags); list_splice_init(&tdc->pending_sg_req, &sg_req_list); list_splice_init(&tdc->free_sg_req, &sg_req_list); list_splice_init(&tdc->free_dma_desc, &dma_desc_list); INIT_LIST_HEAD(&tdc->cb_desc); tdc->config_init = false; tdc->isr_handler = NULL; spin_unlock_irqrestore(&tdc->lock, flags); while (!list_empty(&dma_desc_list)) { dma_desc = list_first_entry(&dma_desc_list, typeof(*dma_desc), node); list_del(&dma_desc->node); kfree(dma_desc); } while (!list_empty(&sg_req_list)) { sg_req = list_first_entry(&sg_req_list, typeof(*sg_req), node); list_del(&sg_req->node); kfree(sg_req); } pm_runtime_put(tdma->dev); tdc->slave_id = TEGRA_APBDMA_SLAVE_ID_INVALID; }

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static struct dma_chan *tegra_dma_of_xlate(struct of_phandle_args *dma_spec, struct of_dma *ofdma) { struct tegra_dma *tdma = ofdma->of_dma_data; struct dma_chan *chan; struct tegra_dma_channel *tdc; if (dma_spec->args[0] > TEGRA_APBDMA_CSR_REQ_SEL_MASK) { dev_err(tdma->dev, "Invalid slave id: %d\n", dma_spec->args[0]); return NULL; } chan = dma_get_any_slave_channel(&tdma->dma_dev); if (!chan) return NULL; tdc = to_tegra_dma_chan(chan); tdc->slave_id = dma_spec->args[0]; return chan; }

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Total108100.00%3100.00%

/* Tegra20 specific DMA controller information */ static const struct tegra_dma_chip_data tegra20_dma_chip_data = { .nr_channels = 16, .channel_reg_size = 0x20, .max_dma_count = 1024UL * 64, .support_channel_pause = false, .support_separate_wcount_reg = false, }; /* Tegra30 specific DMA controller information */ static const struct tegra_dma_chip_data tegra30_dma_chip_data = { .nr_channels = 32, .channel_reg_size = 0x20, .max_dma_count = 1024UL * 64, .support_channel_pause = false, .support_separate_wcount_reg = false, }; /* Tegra114 specific DMA controller information */ static const struct tegra_dma_chip_data tegra114_dma_chip_data = { .nr_channels = 32, .channel_reg_size = 0x20, .max_dma_count = 1024UL * 64, .support_channel_pause = true, .support_separate_wcount_reg = false, }; /* Tegra148 specific DMA controller information */ static const struct tegra_dma_chip_data tegra148_dma_chip_data = { .nr_channels = 32, .channel_reg_size = 0x40, .max_dma_count = 1024UL * 64, .support_channel_pause = true, .support_separate_wcount_reg = true, };
static int tegra_dma_probe(struct platform_device *pdev) { struct resource *res; struct tegra_dma *tdma; int ret; int i; const struct tegra_dma_chip_data *cdata; cdata = of_device_get_match_data(&pdev->dev); if (!cdata) { dev_err(&pdev->dev, "Error: No device match data found\n"); return -ENODEV; } tdma = devm_kzalloc(&pdev->dev, sizeof(*tdma) + cdata->nr_channels * sizeof(struct tegra_dma_channel), GFP_KERNEL); if (!tdma) { dev_err(&pdev->dev, "Error: memory allocation failed\n"); return -ENOMEM; } tdma->dev = &pdev->dev; tdma->chip_data = cdata; platform_set_drvdata(pdev, tdma); res = platform_get_resource(pdev, IORESOURCE_MEM, 0); tdma->base_addr = devm_ioremap_resource(&pdev->dev, res); if (IS_ERR(tdma->base_addr)) return PTR_ERR(tdma->base_addr); tdma->dma_clk = devm_clk_get(&pdev->dev, NULL); if (IS_ERR(tdma->dma_clk)) { dev_err(&pdev->dev, "Error: Missing controller clock\n"); return PTR_ERR(tdma->dma_clk); } tdma->rst = devm_reset_control_get(&pdev->dev, "dma"); if (IS_ERR(tdma->rst)) { dev_err(&pdev->dev, "Error: Missing reset\n"); return PTR_ERR(tdma->rst); } spin_lock_init(&tdma->global_lock); pm_runtime_enable(&pdev->dev); if (!pm_runtime_enabled(&pdev->dev)) ret = tegra_dma_runtime_resume(&pdev->dev); else ret = pm_runtime_get_sync(&pdev->dev); if (ret < 0) { pm_runtime_disable(&pdev->dev); return ret; } /* Reset DMA controller */ reset_control_assert(tdma->rst); udelay(2); reset_control_deassert(tdma->rst); /* Enable global DMA registers */ tdma_write(tdma, TEGRA_APBDMA_GENERAL, TEGRA_APBDMA_GENERAL_ENABLE); tdma_write(tdma, TEGRA_APBDMA_CONTROL, 0); tdma_write(tdma, TEGRA_APBDMA_IRQ_MASK_SET, 0xFFFFFFFFul); pm_runtime_put(&pdev->dev); INIT_LIST_HEAD(&tdma->dma_dev.channels); for (i = 0; i < cdata->nr_channels; i++) { struct tegra_dma_channel *tdc = &tdma->channels[i]; tdc->chan_addr = tdma->base_addr + TEGRA_APBDMA_CHANNEL_BASE_ADD_OFFSET + (i * cdata->channel_reg_size); 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_irq; } tdc->irq = res->start; snprintf(tdc->name, sizeof(tdc->name), "apbdma.%d", i); ret = request_irq(tdc->irq, tegra_dma_isr, 0, tdc->name, tdc); if (ret) { dev_err(&pdev->dev, "request_irq failed with err %d channel %d\n", ret, i); goto err_irq; } tdc->dma_chan.device = &tdma->dma_dev; dma_cookie_init(&tdc->dma_chan); list_add_tail(&tdc->dma_chan.device_node, &tdma->dma_dev.channels); tdc->tdma = tdma; tdc->id = i; tdc->slave_id = TEGRA_APBDMA_SLAVE_ID_INVALID; tasklet_init(&tdc->tasklet, tegra_dma_tasklet, (unsigned long)tdc); spin_lock_init(&tdc->lock); INIT_LIST_HEAD(&tdc->pending_sg_req); INIT_LIST_HEAD(&tdc->free_sg_req); INIT_LIST_HEAD(&tdc->free_dma_desc); INIT_LIST_HEAD(&tdc->cb_desc); } dma_cap_set(DMA_SLAVE, tdma->dma_dev.cap_mask); dma_cap_set(DMA_PRIVATE, tdma->dma_dev.cap_mask); dma_cap_set(DMA_CYCLIC, tdma->dma_dev.cap_mask); tdma->global_pause_count = 0; tdma->dma_dev.dev = &pdev->dev; tdma->dma_dev.device_alloc_chan_resources = tegra_dma_alloc_chan_resources; tdma->dma_dev.device_free_chan_resources = tegra_dma_free_chan_resources; tdma->dma_dev.device_prep_slave_sg = tegra_dma_prep_slave_sg; tdma->dma_dev.device_prep_dma_cyclic = tegra_dma_prep_dma_cyclic; tdma->dma_dev.src_addr_widths = BIT(DMA_SLAVE_BUSWIDTH_1_BYTE) | BIT(DMA_SLAVE_BUSWIDTH_2_BYTES) | BIT(DMA_SLAVE_BUSWIDTH_4_BYTES) | BIT(DMA_SLAVE_BUSWIDTH_8_BYTES); tdma->dma_dev.dst_addr_widths = BIT(DMA_SLAVE_BUSWIDTH_1_BYTE) | BIT(DMA_SLAVE_BUSWIDTH_2_BYTES) | BIT(DMA_SLAVE_BUSWIDTH_4_BYTES) | BIT(DMA_SLAVE_BUSWIDTH_8_BYTES); tdma->dma_dev.directions = BIT(DMA_DEV_TO_MEM) | BIT(DMA_MEM_TO_DEV); /* * XXX The hardware appears to support * DMA_RESIDUE_GRANULARITY_BURST-level reporting, but it's * only used by this driver during tegra_dma_terminate_all() */ tdma->dma_dev.residue_granularity = DMA_RESIDUE_GRANULARITY_SEGMENT; tdma->dma_dev.device_config = tegra_dma_slave_config; tdma->dma_dev.device_terminate_all = tegra_dma_terminate_all; tdma->dma_dev.device_tx_status = tegra_dma_tx_status; tdma->dma_dev.device_issue_pending = tegra_dma_issue_pending; ret = dma_async_device_register(&tdma->dma_dev); if (ret < 0) { dev_err(&pdev->dev, "Tegra20 APB DMA driver registration failed %d\n", ret); goto err_irq; } ret = of_dma_controller_register(pdev->dev.of_node, tegra_dma_of_xlate, tdma); if (ret < 0) { dev_err(&pdev->dev, "Tegra20 APB DMA OF registration failed %d\n", ret); goto err_unregister_dma_dev; } dev_info(&pdev->dev, "Tegra20 APB DMA driver register %d channels\n", cdata->nr_channels); return 0; err_unregister_dma_dev: dma_async_device_unregister(&tdma->dma_dev); err_irq: while (--i >= 0) { struct tegra_dma_channel *tdc = &tdma->channels[i]; free_irq(tdc->irq, tdc); tasklet_kill(&tdc->tasklet); } pm_runtime_disable(&pdev->dev); if (!pm_runtime_status_suspended(&pdev->dev)) tegra_dma_runtime_suspend(&pdev->dev); return ret; }

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static int tegra_dma_remove(struct platform_device *pdev) { struct tegra_dma *tdma = platform_get_drvdata(pdev); int i; struct tegra_dma_channel *tdc; dma_async_device_unregister(&tdma->dma_dev); for (i = 0; i < tdma->chip_data->nr_channels; ++i) { tdc = &tdma->channels[i]; free_irq(tdc->irq, tdc); tasklet_kill(&tdc->tasklet); } pm_runtime_disable(&pdev->dev); if (!pm_runtime_status_suspended(&pdev->dev)) tegra_dma_runtime_suspend(&pdev->dev); return 0; }

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static int tegra_dma_runtime_suspend(struct device *dev) { struct tegra_dma *tdma = dev_get_drvdata(dev); clk_disable_unprepare(tdma->dma_clk); return 0; }

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static int tegra_dma_runtime_resume(struct device *dev) { struct tegra_dma *tdma = dev_get_drvdata(dev); int ret; ret = clk_prepare_enable(tdma->dma_clk); if (ret < 0) { dev_err(dev, "clk_enable failed: %d\n", ret); return ret; } return 0; }

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#ifdef CONFIG_PM_SLEEP
static int tegra_dma_pm_suspend(struct device *dev) { struct tegra_dma *tdma = dev_get_drvdata(dev); int i; int ret; /* Enable clock before accessing register */ ret = pm_runtime_get_sync(dev); if (ret < 0) return ret; tdma->reg_gen = tdma_read(tdma, TEGRA_APBDMA_GENERAL); for (i = 0; i < tdma->chip_data->nr_channels; i++) { struct tegra_dma_channel *tdc = &tdma->channels[i]; struct tegra_dma_channel_regs *ch_reg = &tdc->channel_reg; /* Only save the state of DMA channels that are in use */ if (!tdc->config_init) continue; ch_reg->csr = tdc_read(tdc, TEGRA_APBDMA_CHAN_CSR); ch_reg->ahb_ptr = tdc_read(tdc, TEGRA_APBDMA_CHAN_AHBPTR); ch_reg->apb_ptr = tdc_read(tdc, TEGRA_APBDMA_CHAN_APBPTR); ch_reg->ahb_seq = tdc_read(tdc, TEGRA_APBDMA_CHAN_AHBSEQ); ch_reg->apb_seq = tdc_read(tdc, TEGRA_APBDMA_CHAN_APBSEQ); if (tdma->chip_data->support_separate_wcount_reg) ch_reg->wcount = tdc_read(tdc, TEGRA_APBDMA_CHAN_WCOUNT); } /* Disable clock */ pm_runtime_put(dev); return 0; }

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static int tegra_dma_pm_resume(struct device *dev) { struct tegra_dma *tdma = dev_get_drvdata(dev); int i; int ret; /* Enable clock before accessing register */ ret = pm_runtime_get_sync(dev); if (ret < 0) return ret; tdma_write(tdma, TEGRA_APBDMA_GENERAL, tdma->reg_gen); tdma_write(tdma, TEGRA_APBDMA_CONTROL, 0); tdma_write(tdma, TEGRA_APBDMA_IRQ_MASK_SET, 0xFFFFFFFFul); for (i = 0; i < tdma->chip_data->nr_channels; i++) { struct tegra_dma_channel *tdc = &tdma->channels[i]; struct tegra_dma_channel_regs *ch_reg = &tdc->channel_reg; /* Only restore the state of DMA channels that are in use */ if (!tdc->config_init) continue; if (tdma->chip_data->support_separate_wcount_reg) tdc_write(tdc, TEGRA_APBDMA_CHAN_WCOUNT, ch_reg->wcount); tdc_write(tdc, TEGRA_APBDMA_CHAN_APBSEQ, ch_reg->apb_seq); tdc_write(tdc, TEGRA_APBDMA_CHAN_APBPTR, ch_reg->apb_ptr); tdc_write(tdc, TEGRA_APBDMA_CHAN_AHBSEQ, ch_reg->ahb_seq); tdc_write(tdc, TEGRA_APBDMA_CHAN_AHBPTR, ch_reg->ahb_ptr); tdc_write(tdc, TEGRA_APBDMA_CHAN_CSR, (ch_reg->csr & ~TEGRA_APBDMA_CSR_ENB)); } /* Disable clock */ pm_runtime_put(dev); return 0; }

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#endif static const struct dev_pm_ops tegra_dma_dev_pm_ops = { SET_RUNTIME_PM_OPS(tegra_dma_runtime_suspend, tegra_dma_runtime_resume, NULL) SET_SYSTEM_SLEEP_PM_OPS(tegra_dma_pm_suspend, tegra_dma_pm_resume) }; static const struct of_device_id tegra_dma_of_match[] = { { .compatible = "nvidia,tegra148-apbdma", .data = &tegra148_dma_chip_data, }, { .compatible = "nvidia,tegra114-apbdma", .data = &tegra114_dma_chip_data, }, { .compatible = "nvidia,tegra30-apbdma", .data = &tegra30_dma_chip_data, }, { .compatible = "nvidia,tegra20-apbdma", .data = &tegra20_dma_chip_data, }, { }, }; MODULE_DEVICE_TABLE(of, tegra_dma_of_match); static struct platform_driver tegra_dmac_driver = { .driver = { .name = "tegra-apbdma", .pm = &tegra_dma_dev_pm_ops, .of_match_table = tegra_dma_of_match, }, .probe = tegra_dma_probe, .remove = tegra_dma_remove, }; module_platform_driver(tegra_dmac_driver); MODULE_ALIAS("platform:tegra20-apbdma"); MODULE_DESCRIPTION("NVIDIA Tegra APB DMA Controller driver"); MODULE_AUTHOR("Laxman Dewangan <ldewangan@nvidia.com>"); MODULE_LICENSE("GPL v2");

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paul walmsleypaul walmsley771.02%12.50%
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Directory: drivers/dma
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