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linux/drivers/dma/dw-edma/dw-edma-v0-debugfs.c
Serge Semin d015216853 dmaengine: dw-edma: Move eDMA data pointer to debugfs node descriptor 
The last thing that stops the debugfs part of the eDMA driver from
supporting multi-eDMA platforms is keeping the eDMA private data pointer in
the static area of the debugfs module. Since the debugfs node descriptors
are now heap-allocated, we can freely move that pointer to being preserved
in the descriptors. After the debugfs initialization procedure, that
pointer will be used in the debugfs files getter to access the common CSRs
space and the context CSRs spinlock. So the main part of this change is
connected with the debugfs nodes descriptors initialization macros, which
aside with already defined prototypes now require to have the DW eDMA
private data pointer passed.

[bhelgaas: squash in https://lore.kernel.org/r/20230130185101.2883245-1-arnd@kernel.org]
Link: https://lore.kernel.org/r/20230113171409.30470-17-Sergey.Semin@baikalelectronics.ru
Tested-by: Manivannan Sadhasivam <manivannan.sadhasivam@linaro.org>
Signed-off-by: Serge Semin <Sergey.Semin@baikalelectronics.ru>
Signed-off-by: Lorenzo Pieralisi <lpieralisi@kernel.org>
Signed-off-by: Bjorn Helgaas <bhelgaas@google.com>
Reviewed-by: Manivannan Sadhasivam <manivannan.sadhasivam@linaro.org>
Acked-by: Vinod Koul <vkoul@kernel.org>
2023-02-10 17:14:42 -06:00

301 lines
8.6 KiB
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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/debugfs.h>
#include <linux/bitfield.h>
#include "dw-edma-v0-debugfs.h"
#include "dw-edma-v0-regs.h"
#include "dw-edma-core.h"
#define REGS_ADDR(dw, name) \
({ \
struct dw_edma_v0_regs __iomem *__regs = (dw)->chip->reg_base; \
\
(void __iomem *)&__regs->name; \
})
#define REGS_CH_ADDR(dw, name, _dir, _ch) \
({ \
struct dw_edma_v0_ch_regs __iomem *__ch_regs; \
\
if ((dw)->chip->mf == EDMA_MF_EDMA_LEGACY) \
__ch_regs = REGS_ADDR(dw, type.legacy.ch); \
else if (_dir == EDMA_DIR_READ) \
__ch_regs = REGS_ADDR(dw, type.unroll.ch[_ch].rd); \
else \
__ch_regs = REGS_ADDR(dw, type.unroll.ch[_ch].wr); \
\
(void __iomem *)&__ch_regs->name; \
})
#define REGISTER(dw, name) \
{ dw, #name, REGS_ADDR(dw, name) }
#define CTX_REGISTER(dw, name, dir, ch) \
{ dw, #name, REGS_CH_ADDR(dw, name, dir, ch), dir, ch }
#define WR_REGISTER(dw, name) \
{ dw, #name, REGS_ADDR(dw, wr_##name) }
#define RD_REGISTER(dw, name) \
{ dw, #name, REGS_ADDR(dw, rd_##name) }
#define WR_REGISTER_LEGACY(dw, name) \
{ dw, #name, REGS_ADDR(dw, type.legacy.wr_##name) }
#define RD_REGISTER_LEGACY(name) \
{ dw, #name, REGS_ADDR(dw, type.legacy.rd_##name) }
#define WR_REGISTER_UNROLL(dw, name) \
{ dw, #name, REGS_ADDR(dw, type.unroll.wr_##name) }
#define RD_REGISTER_UNROLL(dw, name) \
{ dw, #name, REGS_ADDR(dw, type.unroll.rd_##name) }
#define WRITE_STR "write"
#define READ_STR "read"
#define CHANNEL_STR "channel"
#define REGISTERS_STR "registers"
struct dw_edma_debugfs_entry {
struct dw_edma *dw;
const char *name;
void __iomem *reg;
enum dw_edma_dir dir;
u16 ch;
};
static int dw_edma_debugfs_u32_get(void *data, u64 *val)
{
struct dw_edma_debugfs_entry *entry = data;
struct dw_edma *dw = entry->dw;
void __iomem *reg = entry->reg;
if (dw->chip->mf == EDMA_MF_EDMA_LEGACY &&
reg >= REGS_ADDR(dw, type.legacy.ch)) {
unsigned long flags;
u32 viewport_sel;
viewport_sel = entry->dir == EDMA_DIR_READ ? BIT(31) : 0;
viewport_sel |= FIELD_PREP(EDMA_V0_VIEWPORT_MASK, entry->ch);
raw_spin_lock_irqsave(&dw->lock, flags);
writel(viewport_sel, REGS_ADDR(dw, type.legacy.viewport_sel));
*val = readl(reg);
raw_spin_unlock_irqrestore(&dw->lock, flags);
} else {
*val = readl(reg);
}
return 0;
}
DEFINE_DEBUGFS_ATTRIBUTE(fops_x32, dw_edma_debugfs_u32_get, NULL, "0x%08llx\n");
static void dw_edma_debugfs_create_x32(struct dw_edma *dw,
const struct dw_edma_debugfs_entry ini[],
int nr_entries, struct dentry *dent)
{
struct dw_edma_debugfs_entry *entries;
int i;
entries = devm_kcalloc(dw->chip->dev, nr_entries, sizeof(*entries),
GFP_KERNEL);
if (!entries)
return;
for (i = 0; i < nr_entries; i++) {
entries[i] = ini[i];
debugfs_create_file_unsafe(entries[i].name, 0444, dent,
&entries[i], &fops_x32);
}
}
static void dw_edma_debugfs_regs_ch(struct dw_edma *dw, enum dw_edma_dir dir,
u16 ch, struct dentry *dent)
{
struct dw_edma_debugfs_entry debugfs_regs[] = {
CTX_REGISTER(dw, ch_control1, dir, ch),
CTX_REGISTER(dw, ch_control2, dir, ch),
CTX_REGISTER(dw, transfer_size, dir, ch),
CTX_REGISTER(dw, sar.lsb, dir, ch),
CTX_REGISTER(dw, sar.msb, dir, ch),
CTX_REGISTER(dw, dar.lsb, dir, ch),
CTX_REGISTER(dw, dar.msb, dir, ch),
CTX_REGISTER(dw, llp.lsb, dir, ch),
CTX_REGISTER(dw, llp.msb, dir, ch),
};
int nr_entries;
nr_entries = ARRAY_SIZE(debugfs_regs);
dw_edma_debugfs_create_x32(dw, debugfs_regs, nr_entries, dent);
}
static noinline_for_stack void
dw_edma_debugfs_regs_wr(struct dw_edma *dw, struct dentry *dent)
{
const struct dw_edma_debugfs_entry debugfs_regs[] = {
/* eDMA global registers */
WR_REGISTER(dw, engine_en),
WR_REGISTER(dw, doorbell),
WR_REGISTER(dw, ch_arb_weight.lsb),
WR_REGISTER(dw, ch_arb_weight.msb),
/* eDMA interrupts registers */
WR_REGISTER(dw, int_status),
WR_REGISTER(dw, int_mask),
WR_REGISTER(dw, int_clear),
WR_REGISTER(dw, err_status),
WR_REGISTER(dw, done_imwr.lsb),
WR_REGISTER(dw, done_imwr.msb),
WR_REGISTER(dw, abort_imwr.lsb),
WR_REGISTER(dw, abort_imwr.msb),
WR_REGISTER(dw, ch01_imwr_data),
WR_REGISTER(dw, ch23_imwr_data),
WR_REGISTER(dw, ch45_imwr_data),
WR_REGISTER(dw, ch67_imwr_data),
WR_REGISTER(dw, linked_list_err_en),
};
const struct dw_edma_debugfs_entry debugfs_unroll_regs[] = {
/* eDMA channel context grouping */
WR_REGISTER_UNROLL(dw, engine_chgroup),
WR_REGISTER_UNROLL(dw, engine_hshake_cnt.lsb),
WR_REGISTER_UNROLL(dw, engine_hshake_cnt.msb),
WR_REGISTER_UNROLL(dw, ch0_pwr_en),
WR_REGISTER_UNROLL(dw, ch1_pwr_en),
WR_REGISTER_UNROLL(dw, ch2_pwr_en),
WR_REGISTER_UNROLL(dw, ch3_pwr_en),
WR_REGISTER_UNROLL(dw, ch4_pwr_en),
WR_REGISTER_UNROLL(dw, ch5_pwr_en),
WR_REGISTER_UNROLL(dw, ch6_pwr_en),
WR_REGISTER_UNROLL(dw, ch7_pwr_en),
};
struct dentry *regs_dent, *ch_dent;
int nr_entries, i;
char name[16];
regs_dent = debugfs_create_dir(WRITE_STR, dent);
nr_entries = ARRAY_SIZE(debugfs_regs);
dw_edma_debugfs_create_x32(dw, debugfs_regs, nr_entries, regs_dent);
if (dw->chip->mf == EDMA_MF_HDMA_COMPAT) {
nr_entries = ARRAY_SIZE(debugfs_unroll_regs);
dw_edma_debugfs_create_x32(dw, debugfs_unroll_regs, nr_entries,
regs_dent);
}
for (i = 0; i < dw->wr_ch_cnt; i++) {
snprintf(name, sizeof(name), "%s:%d", CHANNEL_STR, i);
ch_dent = debugfs_create_dir(name, regs_dent);
dw_edma_debugfs_regs_ch(dw, EDMA_DIR_WRITE, i, ch_dent);
}
}
static noinline_for_stack void dw_edma_debugfs_regs_rd(struct dw_edma *dw,
struct dentry *dent)
{
const struct dw_edma_debugfs_entry debugfs_regs[] = {
/* eDMA global registers */
RD_REGISTER(dw, engine_en),
RD_REGISTER(dw, doorbell),
RD_REGISTER(dw, ch_arb_weight.lsb),
RD_REGISTER(dw, ch_arb_weight.msb),
/* eDMA interrupts registers */
RD_REGISTER(dw, int_status),
RD_REGISTER(dw, int_mask),
RD_REGISTER(dw, int_clear),
RD_REGISTER(dw, err_status.lsb),
RD_REGISTER(dw, err_status.msb),
RD_REGISTER(dw, linked_list_err_en),
RD_REGISTER(dw, done_imwr.lsb),
RD_REGISTER(dw, done_imwr.msb),
RD_REGISTER(dw, abort_imwr.lsb),
RD_REGISTER(dw, abort_imwr.msb),
RD_REGISTER(dw, ch01_imwr_data),
RD_REGISTER(dw, ch23_imwr_data),
RD_REGISTER(dw, ch45_imwr_data),
RD_REGISTER(dw, ch67_imwr_data),
};
const struct dw_edma_debugfs_entry debugfs_unroll_regs[] = {
/* eDMA channel context grouping */
RD_REGISTER_UNROLL(dw, engine_chgroup),
RD_REGISTER_UNROLL(dw, engine_hshake_cnt.lsb),
RD_REGISTER_UNROLL(dw, engine_hshake_cnt.msb),
RD_REGISTER_UNROLL(dw, ch0_pwr_en),
RD_REGISTER_UNROLL(dw, ch1_pwr_en),
RD_REGISTER_UNROLL(dw, ch2_pwr_en),
RD_REGISTER_UNROLL(dw, ch3_pwr_en),
RD_REGISTER_UNROLL(dw, ch4_pwr_en),
RD_REGISTER_UNROLL(dw, ch5_pwr_en),
RD_REGISTER_UNROLL(dw, ch6_pwr_en),
RD_REGISTER_UNROLL(dw, ch7_pwr_en),
};
struct dentry *regs_dent, *ch_dent;
int nr_entries, i;
char name[16];
regs_dent = debugfs_create_dir(READ_STR, dent);
nr_entries = ARRAY_SIZE(debugfs_regs);
dw_edma_debugfs_create_x32(dw, debugfs_regs, nr_entries, regs_dent);
if (dw->chip->mf == EDMA_MF_HDMA_COMPAT) {
nr_entries = ARRAY_SIZE(debugfs_unroll_regs);
dw_edma_debugfs_create_x32(dw, debugfs_unroll_regs, nr_entries,
regs_dent);
}
for (i = 0; i < dw->rd_ch_cnt; i++) {
snprintf(name, sizeof(name), "%s:%d", CHANNEL_STR, i);
ch_dent = debugfs_create_dir(name, regs_dent);
dw_edma_debugfs_regs_ch(dw, EDMA_DIR_READ, i, ch_dent);
}
}
static void dw_edma_debugfs_regs(struct dw_edma *dw)
{
const struct dw_edma_debugfs_entry debugfs_regs[] = {
REGISTER(dw, ctrl_data_arb_prior),
REGISTER(dw, ctrl),
};
struct dentry *regs_dent;
int nr_entries;
regs_dent = debugfs_create_dir(REGISTERS_STR, dw->debugfs);
nr_entries = ARRAY_SIZE(debugfs_regs);
dw_edma_debugfs_create_x32(dw, debugfs_regs, nr_entries, regs_dent);
dw_edma_debugfs_regs_wr(dw, regs_dent);
dw_edma_debugfs_regs_rd(dw, regs_dent);
}
void dw_edma_v0_debugfs_on(struct dw_edma *dw)
{
if (!debugfs_initialized())
return;
dw->debugfs = debugfs_create_dir(dw->name, NULL);
debugfs_create_u32("mf", 0444, dw->debugfs, &dw->chip->mf);
debugfs_create_u16("wr_ch_cnt", 0444, dw->debugfs, &dw->wr_ch_cnt);
debugfs_create_u16("rd_ch_cnt", 0444, dw->debugfs, &dw->rd_ch_cnt);
dw_edma_debugfs_regs(dw);
}
void dw_edma_v0_debugfs_off(struct dw_edma *dw)
{
debugfs_remove_recursive(dw->debugfs);
dw->debugfs = NULL;
}
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