linux-zen-desktop/drivers/dma/dw-edma/dw-edma-v0-core.c

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// SPDX-License-Identifier: GPL-2.0
/*
* Copyright (c) 2018-2019 Synopsys, Inc. and/or its affiliates.
* Synopsys DesignWare eDMA v0 core
*
* Author: Gustavo Pimentel <gustavo.pimentel@synopsys.com>
*/
#include <linux/bitfield.h>
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#include <linux/irqreturn.h>
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#include <linux/io-64-nonatomic-lo-hi.h>
#include "dw-edma-core.h"
#include "dw-edma-v0-core.h"
#include "dw-edma-v0-regs.h"
#include "dw-edma-v0-debugfs.h"
enum dw_edma_control {
DW_EDMA_V0_CB = BIT(0),
DW_EDMA_V0_TCB = BIT(1),
DW_EDMA_V0_LLP = BIT(2),
DW_EDMA_V0_LIE = BIT(3),
DW_EDMA_V0_RIE = BIT(4),
DW_EDMA_V0_CCS = BIT(8),
DW_EDMA_V0_LLE = BIT(9),
};
static inline struct dw_edma_v0_regs __iomem *__dw_regs(struct dw_edma *dw)
{
return dw->chip->reg_base;
}
#define SET_32(dw, name, value) \
writel(value, &(__dw_regs(dw)->name))
#define GET_32(dw, name) \
readl(&(__dw_regs(dw)->name))
#define SET_RW_32(dw, dir, name, value) \
do { \
if ((dir) == EDMA_DIR_WRITE) \
SET_32(dw, wr_##name, value); \
else \
SET_32(dw, rd_##name, value); \
} while (0)
#define GET_RW_32(dw, dir, name) \
((dir) == EDMA_DIR_WRITE \
? GET_32(dw, wr_##name) \
: GET_32(dw, rd_##name))
#define SET_BOTH_32(dw, name, value) \
do { \
SET_32(dw, wr_##name, value); \
SET_32(dw, rd_##name, value); \
} while (0)
#define SET_64(dw, name, value) \
writeq(value, &(__dw_regs(dw)->name))
#define GET_64(dw, name) \
readq(&(__dw_regs(dw)->name))
#define SET_RW_64(dw, dir, name, value) \
do { \
if ((dir) == EDMA_DIR_WRITE) \
SET_64(dw, wr_##name, value); \
else \
SET_64(dw, rd_##name, value); \
} while (0)
#define GET_RW_64(dw, dir, name) \
((dir) == EDMA_DIR_WRITE \
? GET_64(dw, wr_##name) \
: GET_64(dw, rd_##name))
#define SET_BOTH_64(dw, name, value) \
do { \
SET_64(dw, wr_##name, value); \
SET_64(dw, rd_##name, value); \
} while (0)
#define SET_COMPAT(dw, name, value) \
writel(value, &(__dw_regs(dw)->type.unroll.name))
#define SET_RW_COMPAT(dw, dir, name, value) \
do { \
if ((dir) == EDMA_DIR_WRITE) \
SET_COMPAT(dw, wr_##name, value); \
else \
SET_COMPAT(dw, rd_##name, value); \
} while (0)
static inline struct dw_edma_v0_ch_regs __iomem *
__dw_ch_regs(struct dw_edma *dw, enum dw_edma_dir dir, u16 ch)
{
if (dw->chip->mf == EDMA_MF_EDMA_LEGACY)
return &(__dw_regs(dw)->type.legacy.ch);
if (dir == EDMA_DIR_WRITE)
return &__dw_regs(dw)->type.unroll.ch[ch].wr;
return &__dw_regs(dw)->type.unroll.ch[ch].rd;
}
static inline void writel_ch(struct dw_edma *dw, enum dw_edma_dir dir, u16 ch,
u32 value, void __iomem *addr)
{
if (dw->chip->mf == EDMA_MF_EDMA_LEGACY) {
u32 viewport_sel;
unsigned long flags;
raw_spin_lock_irqsave(&dw->lock, flags);
viewport_sel = FIELD_PREP(EDMA_V0_VIEWPORT_MASK, ch);
if (dir == EDMA_DIR_READ)
viewport_sel |= BIT(31);
writel(viewport_sel,
&(__dw_regs(dw)->type.legacy.viewport_sel));
writel(value, addr);
raw_spin_unlock_irqrestore(&dw->lock, flags);
} else {
writel(value, addr);
}
}
static inline u32 readl_ch(struct dw_edma *dw, enum dw_edma_dir dir, u16 ch,
const void __iomem *addr)
{
u32 value;
if (dw->chip->mf == EDMA_MF_EDMA_LEGACY) {
u32 viewport_sel;
unsigned long flags;
raw_spin_lock_irqsave(&dw->lock, flags);
viewport_sel = FIELD_PREP(EDMA_V0_VIEWPORT_MASK, ch);
if (dir == EDMA_DIR_READ)
viewport_sel |= BIT(31);
writel(viewport_sel,
&(__dw_regs(dw)->type.legacy.viewport_sel));
value = readl(addr);
raw_spin_unlock_irqrestore(&dw->lock, flags);
} else {
value = readl(addr);
}
return value;
}
#define SET_CH_32(dw, dir, ch, name, value) \
writel_ch(dw, dir, ch, value, &(__dw_ch_regs(dw, dir, ch)->name))
#define GET_CH_32(dw, dir, ch, name) \
readl_ch(dw, dir, ch, &(__dw_ch_regs(dw, dir, ch)->name))
/* eDMA management callbacks */
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static void dw_edma_v0_core_off(struct dw_edma *dw)
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{
SET_BOTH_32(dw, int_mask,
EDMA_V0_DONE_INT_MASK | EDMA_V0_ABORT_INT_MASK);
SET_BOTH_32(dw, int_clear,
EDMA_V0_DONE_INT_MASK | EDMA_V0_ABORT_INT_MASK);
SET_BOTH_32(dw, engine_en, 0);
}
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static u16 dw_edma_v0_core_ch_count(struct dw_edma *dw, enum dw_edma_dir dir)
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{
u32 num_ch;
if (dir == EDMA_DIR_WRITE)
num_ch = FIELD_GET(EDMA_V0_WRITE_CH_COUNT_MASK,
GET_32(dw, ctrl));
else
num_ch = FIELD_GET(EDMA_V0_READ_CH_COUNT_MASK,
GET_32(dw, ctrl));
if (num_ch > EDMA_V0_MAX_NR_CH)
num_ch = EDMA_V0_MAX_NR_CH;
return (u16)num_ch;
}
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static enum dma_status dw_edma_v0_core_ch_status(struct dw_edma_chan *chan)
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{
struct dw_edma *dw = chan->dw;
u32 tmp;
tmp = FIELD_GET(EDMA_V0_CH_STATUS_MASK,
GET_CH_32(dw, chan->dir, chan->id, ch_control1));
if (tmp == 1)
return DMA_IN_PROGRESS;
else if (tmp == 3)
return DMA_COMPLETE;
else
return DMA_ERROR;
}
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static void dw_edma_v0_core_clear_done_int(struct dw_edma_chan *chan)
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{
struct dw_edma *dw = chan->dw;
SET_RW_32(dw, chan->dir, int_clear,
FIELD_PREP(EDMA_V0_DONE_INT_MASK, BIT(chan->id)));
}
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static void dw_edma_v0_core_clear_abort_int(struct dw_edma_chan *chan)
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{
struct dw_edma *dw = chan->dw;
SET_RW_32(dw, chan->dir, int_clear,
FIELD_PREP(EDMA_V0_ABORT_INT_MASK, BIT(chan->id)));
}
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static u32 dw_edma_v0_core_status_done_int(struct dw_edma *dw, enum dw_edma_dir dir)
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{
return FIELD_GET(EDMA_V0_DONE_INT_MASK,
GET_RW_32(dw, dir, int_status));
}
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static u32 dw_edma_v0_core_status_abort_int(struct dw_edma *dw, enum dw_edma_dir dir)
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{
return FIELD_GET(EDMA_V0_ABORT_INT_MASK,
GET_RW_32(dw, dir, int_status));
}
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static irqreturn_t
dw_edma_v0_core_handle_int(struct dw_edma_irq *dw_irq, enum dw_edma_dir dir,
dw_edma_handler_t done, dw_edma_handler_t abort)
{
struct dw_edma *dw = dw_irq->dw;
unsigned long total, pos, val;
irqreturn_t ret = IRQ_NONE;
struct dw_edma_chan *chan;
unsigned long off;
u32 mask;
if (dir == EDMA_DIR_WRITE) {
total = dw->wr_ch_cnt;
off = 0;
mask = dw_irq->wr_mask;
} else {
total = dw->rd_ch_cnt;
off = dw->wr_ch_cnt;
mask = dw_irq->rd_mask;
}
val = dw_edma_v0_core_status_done_int(dw, dir);
val &= mask;
for_each_set_bit(pos, &val, total) {
chan = &dw->chan[pos + off];
dw_edma_v0_core_clear_done_int(chan);
done(chan);
ret = IRQ_HANDLED;
}
val = dw_edma_v0_core_status_abort_int(dw, dir);
val &= mask;
for_each_set_bit(pos, &val, total) {
chan = &dw->chan[pos + off];
dw_edma_v0_core_clear_abort_int(chan);
abort(chan);
ret = IRQ_HANDLED;
}
return ret;
}
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static void dw_edma_v0_write_ll_data(struct dw_edma_chunk *chunk, int i,
u32 control, u32 size, u64 sar, u64 dar)
{
ptrdiff_t ofs = i * sizeof(struct dw_edma_v0_lli);
if (chunk->chan->dw->chip->flags & DW_EDMA_CHIP_LOCAL) {
struct dw_edma_v0_lli *lli = chunk->ll_region.vaddr.mem + ofs;
lli->control = control;
lli->transfer_size = size;
lli->sar.reg = sar;
lli->dar.reg = dar;
} else {
struct dw_edma_v0_lli __iomem *lli = chunk->ll_region.vaddr.io + ofs;
writel(control, &lli->control);
writel(size, &lli->transfer_size);
writeq(sar, &lli->sar.reg);
writeq(dar, &lli->dar.reg);
}
}
static void dw_edma_v0_write_ll_link(struct dw_edma_chunk *chunk,
int i, u32 control, u64 pointer)
{
ptrdiff_t ofs = i * sizeof(struct dw_edma_v0_lli);
if (chunk->chan->dw->chip->flags & DW_EDMA_CHIP_LOCAL) {
struct dw_edma_v0_llp *llp = chunk->ll_region.vaddr.mem + ofs;
llp->control = control;
llp->llp.reg = pointer;
} else {
struct dw_edma_v0_llp __iomem *llp = chunk->ll_region.vaddr.io + ofs;
writel(control, &llp->control);
writeq(pointer, &llp->llp.reg);
}
}
static void dw_edma_v0_core_write_chunk(struct dw_edma_chunk *chunk)
{
struct dw_edma_burst *child;
struct dw_edma_chan *chan = chunk->chan;
u32 control = 0, i = 0;
int j;
if (chunk->cb)
control = DW_EDMA_V0_CB;
j = chunk->bursts_alloc;
list_for_each_entry(child, &chunk->burst->list, list) {
j--;
if (!j) {
control |= DW_EDMA_V0_LIE;
if (!(chan->dw->chip->flags & DW_EDMA_CHIP_LOCAL))
control |= DW_EDMA_V0_RIE;
}
dw_edma_v0_write_ll_data(chunk, i++, control, child->sz,
child->sar, child->dar);
}
control = DW_EDMA_V0_LLP | DW_EDMA_V0_TCB;
if (!chunk->cb)
control |= DW_EDMA_V0_CB;
dw_edma_v0_write_ll_link(chunk, i, control, chunk->ll_region.paddr);
}
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static void dw_edma_v0_core_start(struct dw_edma_chunk *chunk, bool first)
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{
struct dw_edma_chan *chan = chunk->chan;
struct dw_edma *dw = chan->dw;
u32 tmp;
dw_edma_v0_core_write_chunk(chunk);
if (first) {
/* Enable engine */
SET_RW_32(dw, chan->dir, engine_en, BIT(0));
if (dw->chip->mf == EDMA_MF_HDMA_COMPAT) {
switch (chan->id) {
case 0:
SET_RW_COMPAT(dw, chan->dir, ch0_pwr_en,
BIT(0));
break;
case 1:
SET_RW_COMPAT(dw, chan->dir, ch1_pwr_en,
BIT(0));
break;
case 2:
SET_RW_COMPAT(dw, chan->dir, ch2_pwr_en,
BIT(0));
break;
case 3:
SET_RW_COMPAT(dw, chan->dir, ch3_pwr_en,
BIT(0));
break;
case 4:
SET_RW_COMPAT(dw, chan->dir, ch4_pwr_en,
BIT(0));
break;
case 5:
SET_RW_COMPAT(dw, chan->dir, ch5_pwr_en,
BIT(0));
break;
case 6:
SET_RW_COMPAT(dw, chan->dir, ch6_pwr_en,
BIT(0));
break;
case 7:
SET_RW_COMPAT(dw, chan->dir, ch7_pwr_en,
BIT(0));
break;
}
}
/* Interrupt unmask - done, abort */
tmp = GET_RW_32(dw, chan->dir, int_mask);
tmp &= ~FIELD_PREP(EDMA_V0_DONE_INT_MASK, BIT(chan->id));
tmp &= ~FIELD_PREP(EDMA_V0_ABORT_INT_MASK, BIT(chan->id));
SET_RW_32(dw, chan->dir, int_mask, tmp);
/* Linked list error */
tmp = GET_RW_32(dw, chan->dir, linked_list_err_en);
tmp |= FIELD_PREP(EDMA_V0_LINKED_LIST_ERR_MASK, BIT(chan->id));
SET_RW_32(dw, chan->dir, linked_list_err_en, tmp);
/* Channel control */
SET_CH_32(dw, chan->dir, chan->id, ch_control1,
(DW_EDMA_V0_CCS | DW_EDMA_V0_LLE));
/* Linked list */
/* llp is not aligned on 64bit -> keep 32bit accesses */
SET_CH_32(dw, chan->dir, chan->id, llp.lsb,
lower_32_bits(chunk->ll_region.paddr));
SET_CH_32(dw, chan->dir, chan->id, llp.msb,
upper_32_bits(chunk->ll_region.paddr));
}
/* Doorbell */
SET_RW_32(dw, chan->dir, doorbell,
FIELD_PREP(EDMA_V0_DOORBELL_CH_MASK, chan->id));
}
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static void dw_edma_v0_core_ch_config(struct dw_edma_chan *chan)
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{
struct dw_edma *dw = chan->dw;
u32 tmp = 0;
/* MSI done addr - low, high */
SET_RW_32(dw, chan->dir, done_imwr.lsb, chan->msi.address_lo);
SET_RW_32(dw, chan->dir, done_imwr.msb, chan->msi.address_hi);
/* MSI abort addr - low, high */
SET_RW_32(dw, chan->dir, abort_imwr.lsb, chan->msi.address_lo);
SET_RW_32(dw, chan->dir, abort_imwr.msb, chan->msi.address_hi);
/* MSI data - low, high */
switch (chan->id) {
case 0:
case 1:
tmp = GET_RW_32(dw, chan->dir, ch01_imwr_data);
break;
case 2:
case 3:
tmp = GET_RW_32(dw, chan->dir, ch23_imwr_data);
break;
case 4:
case 5:
tmp = GET_RW_32(dw, chan->dir, ch45_imwr_data);
break;
case 6:
case 7:
tmp = GET_RW_32(dw, chan->dir, ch67_imwr_data);
break;
}
if (chan->id & BIT(0)) {
/* Channel odd {1, 3, 5, 7} */
tmp &= EDMA_V0_CH_EVEN_MSI_DATA_MASK;
tmp |= FIELD_PREP(EDMA_V0_CH_ODD_MSI_DATA_MASK,
chan->msi.data);
} else {
/* Channel even {0, 2, 4, 6} */
tmp &= EDMA_V0_CH_ODD_MSI_DATA_MASK;
tmp |= FIELD_PREP(EDMA_V0_CH_EVEN_MSI_DATA_MASK,
chan->msi.data);
}
switch (chan->id) {
case 0:
case 1:
SET_RW_32(dw, chan->dir, ch01_imwr_data, tmp);
break;
case 2:
case 3:
SET_RW_32(dw, chan->dir, ch23_imwr_data, tmp);
break;
case 4:
case 5:
SET_RW_32(dw, chan->dir, ch45_imwr_data, tmp);
break;
case 6:
case 7:
SET_RW_32(dw, chan->dir, ch67_imwr_data, tmp);
break;
}
}
/* eDMA debugfs callbacks */
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static void dw_edma_v0_core_debugfs_on(struct dw_edma *dw)
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{
dw_edma_v0_debugfs_on(dw);
}
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static const struct dw_edma_core_ops dw_edma_v0_core = {
.off = dw_edma_v0_core_off,
.ch_count = dw_edma_v0_core_ch_count,
.ch_status = dw_edma_v0_core_ch_status,
.handle_int = dw_edma_v0_core_handle_int,
.start = dw_edma_v0_core_start,
.ch_config = dw_edma_v0_core_ch_config,
.debugfs_on = dw_edma_v0_core_debugfs_on,
};
void dw_edma_v0_core_register(struct dw_edma *dw)
{
dw->core = &dw_edma_v0_core;
}