Commit 82435166 authored by Pandith N's avatar Pandith N Committed by Vinod Koul

dmaengine: dw-axi-dmac: support DMAX_NUM_CHANNELS > 8

Added support for DMA controller with more than 8 channels.
DMAC register map changes based on number of channels.

Enabling DMAC channel:
DMAC_CHENREG has to be used when number of channels <= 8
DMAC_CHENREG2 has to be used when number of channels > 8

Configuring DMA channel:
CHx_CFG has to be used when number of channels <= 8
CHx_CFG2 has to be used when number of channels > 8

Suspending and resuming channel:
DMAC_CHENREG has to be used when number of channels <= 8 DMAC_CHSUSPREG
has to be used for suspending a channel > 8
Signed-off-by: default avatarPandith N <pandith.n@intel.com>
Reviewed-by: default avatarAndy Shevchenko <andriy.shevchenko@linux.intel.com>

Link: https://lore.kernel.org/r/20211001140812.24977-2-pandith.n@intel.comSigned-off-by: default avatarVinod Koul <vkoul@kernel.org>
parent af229d2c
......@@ -79,6 +79,32 @@ axi_chan_iowrite64(struct axi_dma_chan *chan, u32 reg, u64 val)
iowrite32(upper_32_bits(val), chan->chan_regs + reg + 4);
}
static inline void axi_chan_config_write(struct axi_dma_chan *chan,
struct axi_dma_chan_config *config)
{
u32 cfg_lo, cfg_hi;
cfg_lo = (config->dst_multblk_type << CH_CFG_L_DST_MULTBLK_TYPE_POS |
config->src_multblk_type << CH_CFG_L_SRC_MULTBLK_TYPE_POS);
if (chan->chip->dw->hdata->reg_map_8_channels) {
cfg_hi = config->tt_fc << CH_CFG_H_TT_FC_POS |
config->hs_sel_src << CH_CFG_H_HS_SEL_SRC_POS |
config->hs_sel_dst << CH_CFG_H_HS_SEL_DST_POS |
config->src_per << CH_CFG_H_SRC_PER_POS |
config->dst_per << CH_CFG_H_DST_PER_POS |
config->prior << CH_CFG_H_PRIORITY_POS;
} else {
cfg_lo |= config->src_per << CH_CFG2_L_SRC_PER_POS |
config->dst_per << CH_CFG2_L_DST_PER_POS;
cfg_hi = config->tt_fc << CH_CFG2_H_TT_FC_POS |
config->hs_sel_src << CH_CFG2_H_HS_SEL_SRC_POS |
config->hs_sel_dst << CH_CFG2_H_HS_SEL_DST_POS |
config->prior << CH_CFG2_H_PRIORITY_POS;
}
axi_chan_iowrite32(chan, CH_CFG_L, cfg_lo);
axi_chan_iowrite32(chan, CH_CFG_H, cfg_hi);
}
static inline void axi_dma_disable(struct axi_dma_chip *chip)
{
u32 val;
......@@ -154,7 +180,10 @@ static inline void axi_chan_disable(struct axi_dma_chan *chan)
val = axi_dma_ioread32(chan->chip, DMAC_CHEN);
val &= ~(BIT(chan->id) << DMAC_CHAN_EN_SHIFT);
val |= BIT(chan->id) << DMAC_CHAN_EN_WE_SHIFT;
if (chan->chip->dw->hdata->reg_map_8_channels)
val |= BIT(chan->id) << DMAC_CHAN_EN_WE_SHIFT;
else
val |= BIT(chan->id) << DMAC_CHAN_EN2_WE_SHIFT;
axi_dma_iowrite32(chan->chip, DMAC_CHEN, val);
}
......@@ -163,8 +192,12 @@ static inline void axi_chan_enable(struct axi_dma_chan *chan)
u32 val;
val = axi_dma_ioread32(chan->chip, DMAC_CHEN);
val |= BIT(chan->id) << DMAC_CHAN_EN_SHIFT |
BIT(chan->id) << DMAC_CHAN_EN_WE_SHIFT;
if (chan->chip->dw->hdata->reg_map_8_channels)
val |= BIT(chan->id) << DMAC_CHAN_EN_SHIFT |
BIT(chan->id) << DMAC_CHAN_EN_WE_SHIFT;
else
val |= BIT(chan->id) << DMAC_CHAN_EN_SHIFT |
BIT(chan->id) << DMAC_CHAN_EN2_WE_SHIFT;
axi_dma_iowrite32(chan->chip, DMAC_CHEN, val);
}
......@@ -336,7 +369,8 @@ static void axi_chan_block_xfer_start(struct axi_dma_chan *chan,
struct axi_dma_desc *first)
{
u32 priority = chan->chip->dw->hdata->priority[chan->id];
u32 reg, irq_mask;
struct axi_dma_chan_config config;
u32 irq_mask;
u8 lms = 0; /* Select AXI0 master for LLI fetching */
if (unlikely(axi_chan_is_hw_enable(chan))) {
......@@ -348,36 +382,32 @@ static void axi_chan_block_xfer_start(struct axi_dma_chan *chan,
axi_dma_enable(chan->chip);
reg = (DWAXIDMAC_MBLK_TYPE_LL << CH_CFG_L_DST_MULTBLK_TYPE_POS |
DWAXIDMAC_MBLK_TYPE_LL << CH_CFG_L_SRC_MULTBLK_TYPE_POS);
axi_chan_iowrite32(chan, CH_CFG_L, reg);
reg = (DWAXIDMAC_TT_FC_MEM_TO_MEM_DMAC << CH_CFG_H_TT_FC_POS |
priority << CH_CFG_H_PRIORITY_POS |
DWAXIDMAC_HS_SEL_HW << CH_CFG_H_HS_SEL_DST_POS |
DWAXIDMAC_HS_SEL_HW << CH_CFG_H_HS_SEL_SRC_POS);
config.dst_multblk_type = DWAXIDMAC_MBLK_TYPE_LL;
config.src_multblk_type = DWAXIDMAC_MBLK_TYPE_LL;
config.tt_fc = DWAXIDMAC_TT_FC_MEM_TO_MEM_DMAC;
config.prior = priority;
config.hs_sel_dst = DWAXIDMAC_HS_SEL_HW;
config.hs_sel_dst = DWAXIDMAC_HS_SEL_HW;
switch (chan->direction) {
case DMA_MEM_TO_DEV:
dw_axi_dma_set_byte_halfword(chan, true);
reg |= (chan->config.device_fc ?
DWAXIDMAC_TT_FC_MEM_TO_PER_DST :
DWAXIDMAC_TT_FC_MEM_TO_PER_DMAC)
<< CH_CFG_H_TT_FC_POS;
config.tt_fc = chan->config.device_fc ?
DWAXIDMAC_TT_FC_MEM_TO_PER_DST :
DWAXIDMAC_TT_FC_MEM_TO_PER_DMAC;
if (chan->chip->apb_regs)
reg |= (chan->id << CH_CFG_H_DST_PER_POS);
config.dst_per = chan->id;
break;
case DMA_DEV_TO_MEM:
reg |= (chan->config.device_fc ?
DWAXIDMAC_TT_FC_PER_TO_MEM_SRC :
DWAXIDMAC_TT_FC_PER_TO_MEM_DMAC)
<< CH_CFG_H_TT_FC_POS;
config.tt_fc = chan->config.device_fc ?
DWAXIDMAC_TT_FC_PER_TO_MEM_SRC :
DWAXIDMAC_TT_FC_PER_TO_MEM_DMAC;
if (chan->chip->apb_regs)
reg |= (chan->id << CH_CFG_H_SRC_PER_POS);
config.src_per = chan->id;
break;
default:
break;
}
axi_chan_iowrite32(chan, CH_CFG_H, reg);
axi_chan_config_write(chan, &config);
write_chan_llp(chan, first->hw_desc[0].llp | lms);
......@@ -1120,10 +1150,17 @@ static int dma_chan_pause(struct dma_chan *dchan)
spin_lock_irqsave(&chan->vc.lock, flags);
val = axi_dma_ioread32(chan->chip, DMAC_CHEN);
val |= BIT(chan->id) << DMAC_CHAN_SUSP_SHIFT |
BIT(chan->id) << DMAC_CHAN_SUSP_WE_SHIFT;
axi_dma_iowrite32(chan->chip, DMAC_CHEN, val);
if (chan->chip->dw->hdata->reg_map_8_channels) {
val = axi_dma_ioread32(chan->chip, DMAC_CHEN);
val |= BIT(chan->id) << DMAC_CHAN_SUSP_SHIFT |
BIT(chan->id) << DMAC_CHAN_SUSP_WE_SHIFT;
axi_dma_iowrite32(chan->chip, DMAC_CHEN, val);
} else {
val = 0;
val |= BIT(chan->id) << DMAC_CHAN_SUSP2_SHIFT |
BIT(chan->id) << DMAC_CHAN_SUSP2_WE_SHIFT;
axi_dma_iowrite32(chan->chip, DMAC_CHSUSPREG, val);
}
do {
if (axi_chan_irq_read(chan) & DWAXIDMAC_IRQ_SUSPENDED)
......@@ -1147,9 +1184,15 @@ static inline void axi_chan_resume(struct axi_dma_chan *chan)
u32 val;
val = axi_dma_ioread32(chan->chip, DMAC_CHEN);
val &= ~(BIT(chan->id) << DMAC_CHAN_SUSP_SHIFT);
val |= (BIT(chan->id) << DMAC_CHAN_SUSP_WE_SHIFT);
axi_dma_iowrite32(chan->chip, DMAC_CHEN, val);
if (chan->chip->dw->hdata->reg_map_8_channels) {
val &= ~(BIT(chan->id) << DMAC_CHAN_SUSP_SHIFT);
val |= (BIT(chan->id) << DMAC_CHAN_SUSP_WE_SHIFT);
axi_dma_iowrite32(chan->chip, DMAC_CHEN, val);
} else {
val &= ~(BIT(chan->id) << DMAC_CHAN_SUSP2_SHIFT);
val |= (BIT(chan->id) << DMAC_CHAN_SUSP2_WE_SHIFT);
axi_dma_iowrite32(chan->chip, DMAC_CHSUSPREG, val);
}
chan->is_paused = false;
}
......@@ -1241,6 +1284,8 @@ static int parse_device_properties(struct axi_dma_chip *chip)
return -EINVAL;
chip->dw->hdata->nr_channels = tmp;
if (tmp <= DMA_REG_MAP_CH_REF)
chip->dw->hdata->reg_map_8_channels = true;
ret = device_property_read_u32(dev, "snps,dma-masters", &tmp);
if (ret)
......
......@@ -18,7 +18,7 @@
#include "../virt-dma.h"
#define DMAC_MAX_CHANNELS 8
#define DMAC_MAX_CHANNELS 16
#define DMAC_MAX_MASTERS 2
#define DMAC_MAX_BLK_SIZE 0x200000
......@@ -30,6 +30,8 @@ struct dw_axi_dma_hcfg {
u32 priority[DMAC_MAX_CHANNELS];
/* maximum supported axi burst length */
u32 axi_rw_burst_len;
/* Register map for DMAX_NUM_CHANNELS <= 8 */
bool reg_map_8_channels;
bool restrict_axi_burst_len;
};
......@@ -103,6 +105,17 @@ struct axi_dma_desc {
u32 period_len;
};
struct axi_dma_chan_config {
u8 dst_multblk_type;
u8 src_multblk_type;
u8 dst_per;
u8 src_per;
u8 tt_fc;
u8 prior;
u8 hs_sel_dst;
u8 hs_sel_src;
};
static inline struct device *dchan2dev(struct dma_chan *dchan)
{
return &dchan->dev->device;
......@@ -139,6 +152,8 @@ static inline struct axi_dma_chan *dchan_to_axi_dma_chan(struct dma_chan *dchan)
#define DMAC_CHEN 0x018 /* R/W DMAC Channel Enable */
#define DMAC_CHEN_L 0x018 /* R/W DMAC Channel Enable 00-31 */
#define DMAC_CHEN_H 0x01C /* R/W DMAC Channel Enable 32-63 */
#define DMAC_CHSUSPREG 0x020 /* R/W DMAC Channel Suspend */
#define DMAC_CHABORTREG 0x028 /* R/W DMAC Channel Abort */
#define DMAC_INTSTATUS 0x030 /* R DMAC Interrupt Status */
#define DMAC_COMMON_INTCLEAR 0x038 /* W DMAC Interrupt Clear */
#define DMAC_COMMON_INTSTATUS_ENA 0x040 /* R DMAC Interrupt Status Enable */
......@@ -187,6 +202,7 @@ static inline struct axi_dma_chan *dchan_to_axi_dma_chan(struct dma_chan *dchan)
#define DMA_APB_HS_SEL_BIT_SIZE 0x08 /* HW handshake bits per channel */
#define DMA_APB_HS_SEL_MASK 0xFF /* HW handshake select masks */
#define MAX_BLOCK_SIZE 0x1000 /* 1024 blocks * 4 bytes data width */
#define DMA_REG_MAP_CH_REF 0x08 /* Channel count to choose register map */
/* DMAC_CFG */
#define DMAC_EN_POS 0
......@@ -195,12 +211,20 @@ static inline struct axi_dma_chan *dchan_to_axi_dma_chan(struct dma_chan *dchan)
#define INT_EN_POS 1
#define INT_EN_MASK BIT(INT_EN_POS)
/* DMAC_CHEN */
#define DMAC_CHAN_EN_SHIFT 0
#define DMAC_CHAN_EN_WE_SHIFT 8
#define DMAC_CHAN_SUSP_SHIFT 16
#define DMAC_CHAN_SUSP_WE_SHIFT 24
/* DMAC_CHEN2 */
#define DMAC_CHAN_EN2_WE_SHIFT 16
/* DMAC_CHSUSP */
#define DMAC_CHAN_SUSP2_SHIFT 0
#define DMAC_CHAN_SUSP2_WE_SHIFT 16
/* CH_CTL_H */
#define CH_CTL_H_ARLEN_EN BIT(6)
#define CH_CTL_H_ARLEN_POS 7
......@@ -289,6 +313,15 @@ enum {
DWAXIDMAC_MBLK_TYPE_LL
};
/* CH_CFG2 */
#define CH_CFG2_L_SRC_PER_POS 4
#define CH_CFG2_L_DST_PER_POS 11
#define CH_CFG2_H_TT_FC_POS 0
#define CH_CFG2_H_HS_SEL_SRC_POS 3
#define CH_CFG2_H_HS_SEL_DST_POS 4
#define CH_CFG2_H_PRIORITY_POS 20
/**
* DW AXI DMA channel interrupts
*
......
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