linux-zen-server/drivers/dma/dw-edma/dw-edma-v0-debugfs.c

293 lines
8.5 KiB
C

// 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->dma.dbg_dev_root);
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;
debugfs_create_u32("mf", 0444, dw->dma.dbg_dev_root, &dw->chip->mf);
debugfs_create_u16("wr_ch_cnt", 0444, dw->dma.dbg_dev_root, &dw->wr_ch_cnt);
debugfs_create_u16("rd_ch_cnt", 0444, dw->dma.dbg_dev_root, &dw->rd_ch_cnt);
dw_edma_debugfs_regs(dw);
}