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pigweed / third_party / github / zephyrproject-rtos / zephyr / a4264f3e86b132d6b708461d8b7732645ecd9148 / . / drivers / dma / dma_sam0.c
blob: dae377b9611f74772330f652230c2c97bdf0db22 [file] [log] [blame]
/*
* Copyright (c) 2018 Google LLC.
*
* SPDX-License-Identifier: Apache-2.0
*/
#define DT_DRV_COMPAT atmel_sam0_dmac
#include <zephyr/device.h>
#include <soc.h>
#include <zephyr/drivers/dma.h>
#include <zephyr/logging/log.h>
LOG_MODULE_REGISTER(dma_sam0, CONFIG_DMA_LOG_LEVEL);
#define DMA_REGS ((Dmac *)DT_INST_REG_ADDR(0))
struct dma_sam0_channel {
dma_callback_t cb;
void *user_data;
};
struct dma_sam0_data {
__aligned(16) DmacDescriptor descriptors[DMAC_CH_NUM];
__aligned(16) DmacDescriptor descriptors_wb[DMAC_CH_NUM];
struct dma_sam0_channel channels[DMAC_CH_NUM];
};
/* Handles DMA interrupts and dispatches to the individual channel */
static void dma_sam0_isr(const struct device *dev)
{
struct dma_sam0_data *data = dev->data;
struct dma_sam0_channel *chdata;
uint16_t pend = DMA_REGS->INTPEND.reg;
uint32_t channel;
/* Acknowledge all interrupts for the channel in pend */
DMA_REGS->INTPEND.reg = pend;
channel = (pend & DMAC_INTPEND_ID_Msk) >> DMAC_INTPEND_ID_Pos;
chdata = &data->channels[channel];
if (pend & DMAC_INTPEND_TERR) {
if (chdata->cb) {
chdata->cb(dev, chdata->user_data,
channel, -DMAC_INTPEND_TERR);
}
} else if (pend & DMAC_INTPEND_TCMPL) {
if (chdata->cb) {
chdata->cb(dev, chdata->user_data, channel, 0);
}
}
/*
* If more than one channel is pending, we'll just immediately
* interrupt again and handle it through a different INTPEND value.
*/
}
/* Configure a channel */
static int dma_sam0_config(const struct device *dev, uint32_t channel,
struct dma_config *config)
{
struct dma_sam0_data *data = dev->data;
DmacDescriptor *desc = &data->descriptors[channel];
struct dma_block_config *block = config->head_block;
struct dma_sam0_channel *channel_control;
DMAC_BTCTRL_Type btctrl = { .reg = 0 };
unsigned int key;
if (channel >= DMAC_CH_NUM) {
LOG_ERR("Unsupported channel");
return -EINVAL;
}
if (config->block_count > 1) {
LOG_ERR("Chained transfers not supported");
/* TODO: add support for chained transfers. */
return -ENOTSUP;
}
if (config->dma_slot >= DMAC_TRIG_NUM) {
LOG_ERR("Invalid trigger number");
return -EINVAL;
}
/* Lock and page in the channel configuration */
key = irq_lock();
/*
* The "bigger" DMAC on some SAM0 chips (e.g. SAMD5x) has
* independently accessible registers for each channel, while
* the other ones require an indirect channel selection before
* accessing shared registers. The simplest way to detect the
* difference is the presence of the DMAC_CHID_ID macro from the
* ASF HAL (i.e. it's only defined if indirect access is required).
*/
#ifdef DMAC_CHID_ID
/* Select the channel for configuration */
DMA_REGS->CHID.reg = DMAC_CHID_ID(channel);
DMA_REGS->CHCTRLA.reg = 0;
/* Connect the peripheral trigger */
if (config->channel_direction == MEMORY_TO_MEMORY) {
/*
* A single software trigger will start the
* transfer
*/
DMA_REGS->CHCTRLB.reg = DMAC_CHCTRLB_TRIGACT_TRANSACTION |
DMAC_CHCTRLB_TRIGSRC(config->dma_slot);
} else {
/* One peripheral trigger per beat */
DMA_REGS->CHCTRLB.reg = DMAC_CHCTRLB_TRIGACT_BEAT |
DMAC_CHCTRLB_TRIGSRC(config->dma_slot);
}
/* Set the priority */
if (config->channel_priority >= DMAC_LVL_NUM) {
LOG_ERR("Invalid priority");
goto inval;
}
DMA_REGS->CHCTRLB.bit.LVL = config->channel_priority;
/* Enable the interrupts */
DMA_REGS->CHINTENSET.reg = DMAC_CHINTENSET_TCMPL;
if (!config->error_callback_en) {
DMA_REGS->CHINTENSET.reg = DMAC_CHINTENSET_TERR;
} else {
DMA_REGS->CHINTENCLR.reg = DMAC_CHINTENSET_TERR;
}
DMA_REGS->CHINTFLAG.reg = DMAC_CHINTFLAG_TERR | DMAC_CHINTFLAG_TCMPL;
#else
/* Channels have separate configuration registers */
DmacChannel * chcfg = &DMA_REGS->Channel[channel];
if (config->channel_direction == MEMORY_TO_MEMORY) {
/*
* A single software trigger will start the
* transfer
*/
chcfg->CHCTRLA.reg = DMAC_CHCTRLA_TRIGACT_TRANSACTION |
DMAC_CHCTRLA_TRIGSRC(config->dma_slot);
} else if ((config->channel_direction == MEMORY_TO_PERIPHERAL) ||
(config->channel_direction == PERIPHERAL_TO_MEMORY)) {
/* One peripheral trigger per beat */
chcfg->CHCTRLA.reg = DMAC_CHCTRLA_TRIGACT_BURST |
DMAC_CHCTRLA_TRIGSRC(config->dma_slot);
} else {
LOG_ERR("Direction error. %d", config->channel_direction);
goto inval;
}
/* Set the priority */
if (config->channel_priority >= DMAC_LVL_NUM) {
LOG_ERR("Invalid priority");
goto inval;
}
chcfg->CHPRILVL.bit.PRILVL = config->channel_priority;
/* Set the burst length */
if (config->source_burst_length != config->dest_burst_length) {
LOG_ERR("Source and destination burst lengths must be equal");
goto inval;
}
if (config->source_burst_length > 16U) {
LOG_ERR("Invalid burst length");
goto inval;
}
if (config->source_burst_length > 0U) {
chcfg->CHCTRLA.reg |= DMAC_CHCTRLA_BURSTLEN(
config->source_burst_length - 1U);
}
/* Enable the interrupts */
chcfg->CHINTENSET.reg = DMAC_CHINTENSET_TCMPL;
if (!config->error_callback_en) {
chcfg->CHINTENSET.reg = DMAC_CHINTENSET_TERR;
} else {
chcfg->CHINTENCLR.reg = DMAC_CHINTENSET_TERR;
}
chcfg->CHINTFLAG.reg = DMAC_CHINTFLAG_TERR | DMAC_CHINTFLAG_TCMPL;
#endif
/* Set the beat (single transfer) size */
if (config->source_data_size != config->dest_data_size) {
LOG_ERR("Source and destination data sizes must be equal");
goto inval;
}
switch (config->source_data_size) {
case 1:
btctrl.bit.BEATSIZE = DMAC_BTCTRL_BEATSIZE_BYTE_Val;
break;
case 2:
btctrl.bit.BEATSIZE = DMAC_BTCTRL_BEATSIZE_HWORD_Val;
break;
case 4:
btctrl.bit.BEATSIZE = DMAC_BTCTRL_BEATSIZE_WORD_Val;
break;
default:
LOG_ERR("Invalid data size");
goto inval;
}
/* Set up the one and only block */
desc->BTCNT.reg = block->block_size / config->source_data_size;
desc->DESCADDR.reg = 0;
/* Set the automatic source / dest increment */
switch (block->source_addr_adj) {
case DMA_ADDR_ADJ_INCREMENT:
desc->SRCADDR.reg = block->source_address + block->block_size;
btctrl.bit.SRCINC = 1;
break;
case DMA_ADDR_ADJ_NO_CHANGE:
desc->SRCADDR.reg = block->source_address;
break;
default:
LOG_ERR("Invalid source increment");
goto inval;
}
switch (block->dest_addr_adj) {
case DMA_ADDR_ADJ_INCREMENT:
desc->DSTADDR.reg = block->dest_address + block->block_size;
btctrl.bit.DSTINC = 1;
break;
case DMA_ADDR_ADJ_NO_CHANGE:
desc->DSTADDR.reg = block->dest_address;
break;
default:
LOG_ERR("Invalid destination increment");
goto inval;
}
btctrl.bit.VALID = 1;
desc->BTCTRL = btctrl;
channel_control = &data->channels[channel];
channel_control->cb = config->dma_callback;
channel_control->user_data = config->user_data;
LOG_DBG("Configured channel %d for %08X to %08X (%u)",
channel,
block->source_address,
block->dest_address,
block->block_size);
irq_unlock(key);
return 0;
inval:
irq_unlock(key);
return -EINVAL;
}
static int dma_sam0_start(const struct device *dev, uint32_t channel)
{
unsigned int key = irq_lock();
ARG_UNUSED(dev);
#ifdef DMAC_CHID_ID
DMA_REGS->CHID.reg = channel;
DMA_REGS->CHCTRLA.reg = DMAC_CHCTRLA_ENABLE;
if (DMA_REGS->CHCTRLB.bit.TRIGSRC == 0) {
/* Trigger via software */
DMA_REGS->SWTRIGCTRL.reg = 1U << channel;
}
#else
DmacChannel * chcfg = &DMA_REGS->Channel[channel];
chcfg->CHCTRLA.bit.ENABLE = 1;
if (chcfg->CHCTRLA.bit.TRIGSRC == 0) {
/* Trigger via software */
DMA_REGS->SWTRIGCTRL.reg = 1U << channel;
}
#endif
irq_unlock(key);
return 0;
}
static int dma_sam0_stop(const struct device *dev, uint32_t channel)
{
unsigned int key = irq_lock();
ARG_UNUSED(dev);
#ifdef DMAC_CHID_ID
DMA_REGS->CHID.reg = channel;
DMA_REGS->CHCTRLA.reg = 0;
#else
DmacChannel * chcfg = &DMA_REGS->Channel[channel];
chcfg->CHCTRLA.bit.ENABLE = 0;
#endif
irq_unlock(key);
return 0;
}
static int dma_sam0_reload(const struct device *dev, uint32_t channel,
uint32_t src, uint32_t dst, size_t size)
{
struct dma_sam0_data *data = dev->data;
DmacDescriptor *desc = &data->descriptors[channel];
unsigned int key = irq_lock();
switch (desc->BTCTRL.bit.BEATSIZE) {
case DMAC_BTCTRL_BEATSIZE_BYTE_Val:
desc->BTCNT.reg = size;
break;
case DMAC_BTCTRL_BEATSIZE_HWORD_Val:
desc->BTCNT.reg = size / 2U;
break;
case DMAC_BTCTRL_BEATSIZE_WORD_Val:
desc->BTCNT.reg = size / 4U;
break;
default:
goto inval;
}
if (desc->BTCTRL.bit.SRCINC) {
desc->SRCADDR.reg = src + size;
} else {
desc->SRCADDR.reg = src;
}
if (desc->BTCTRL.bit.DSTINC) {
desc->DSTADDR.reg = dst + size;
} else {
desc->DSTADDR.reg = dst;
}
LOG_DBG("Reloaded channel %d for %08X to %08X (%u)",
channel, src, dst, size);
irq_unlock(key);
return 0;
inval:
irq_unlock(key);
return -EINVAL;
}
static int dma_sam0_get_status(const struct device *dev, uint32_t channel,
struct dma_status *stat)
{
struct dma_sam0_data *data = dev->data;
uint32_t act;
if (channel >= DMAC_CH_NUM || stat == NULL) {
return -EINVAL;
}
act = DMA_REGS->ACTIVE.reg;
if ((act & DMAC_ACTIVE_ABUSY) &&
((act & DMAC_ACTIVE_ID_Msk) >> DMAC_ACTIVE_ID_Pos) == channel) {
stat->busy = true;
stat->pending_length = (act & DMAC_ACTIVE_BTCNT_Msk) >>
DMAC_ACTIVE_BTCNT_Pos;
} else {
stat->busy = false;
stat->pending_length = data->descriptors_wb[channel].BTCNT.reg;
}
switch (data->descriptors[channel].BTCTRL.bit.BEATSIZE) {
case DMAC_BTCTRL_BEATSIZE_BYTE_Val:
break;
case DMAC_BTCTRL_BEATSIZE_HWORD_Val:
stat->pending_length *= 2U;
break;
case DMAC_BTCTRL_BEATSIZE_WORD_Val:
stat->pending_length *= 4U;
break;
default:
return -EINVAL;
}
return 0;
}
#define DMA_SAM0_IRQ_CONNECT(n) \
do { \
IRQ_CONNECT(DT_INST_IRQ_BY_IDX(0, n, irq), \
DT_INST_IRQ_BY_IDX(0, n, priority), \
dma_sam0_isr, DEVICE_DT_INST_GET(0), 0); \
irq_enable(DT_INST_IRQ_BY_IDX(0, n, irq)); \
} while (false)
static int dma_sam0_init(const struct device *dev)
{
struct dma_sam0_data *data = dev->data;
/* Enable clocks. */
#ifdef MCLK
MCLK->AHBMASK.bit.DMAC_ = 1;
#else
PM->AHBMASK.bit.DMAC_ = 1;
PM->APBBMASK.bit.DMAC_ = 1;
#endif
/* Set up the descriptor and write back addresses */
DMA_REGS->BASEADDR.reg = (uintptr_t)&data->descriptors;
DMA_REGS->WRBADDR.reg = (uintptr_t)&data->descriptors_wb;
/* Statically map each level to the same numeric priority */
DMA_REGS->PRICTRL0.reg =
DMAC_PRICTRL0_LVLPRI0(0) | DMAC_PRICTRL0_LVLPRI1(1) |
DMAC_PRICTRL0_LVLPRI2(2) | DMAC_PRICTRL0_LVLPRI3(3);
/* Enable the unit and enable all priorities */
DMA_REGS->CTRL.reg = DMAC_CTRL_DMAENABLE | DMAC_CTRL_LVLEN(0x0F);
#if DT_INST_IRQ_HAS_CELL(0, irq)
DMA_SAM0_IRQ_CONNECT(0);
#endif
#if DT_INST_IRQ_HAS_IDX(0, 1)
DMA_SAM0_IRQ_CONNECT(1);
#endif
#if DT_INST_IRQ_HAS_IDX(0, 2)
DMA_SAM0_IRQ_CONNECT(2);
#endif
#if DT_INST_IRQ_HAS_IDX(0, 3)
DMA_SAM0_IRQ_CONNECT(3);
#endif
#if DT_INST_IRQ_HAS_IDX(0, 4)
DMA_SAM0_IRQ_CONNECT(4);
#endif
return 0;
}
static struct dma_sam0_data dmac_data;
static const struct dma_driver_api dma_sam0_api = {
.config = dma_sam0_config,
.start = dma_sam0_start,
.stop = dma_sam0_stop,
.reload = dma_sam0_reload,
.get_status = dma_sam0_get_status,
};
DEVICE_DT_INST_DEFINE(0, &dma_sam0_init, NULL,
&dmac_data, NULL, PRE_KERNEL_1,
CONFIG_DMA_INIT_PRIORITY, &dma_sam0_api);