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// SPDX-License-Identifier: GPL-2.0-only
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/*
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* Copyright ( C ) ST - Ericsson SA 2007 - 2010
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* Author : Per Forlin < per . forlin @ stericsson . com > for ST - Ericsson
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* Author : Jonas Aaberg < jonas . aberg @ stericsson . com > for ST - Ericsson
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*/
# include <linux/kernel.h>
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# include <linux/platform_data/dma-ste-dma40.h>
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# include "ste_dma40_ll.h"
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static u8 d40_width_to_bits ( enum dma_slave_buswidth width )
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{
if ( width = = DMA_SLAVE_BUSWIDTH_1_BYTE )
return STEDMA40_ESIZE_8_BIT ;
else if ( width = = DMA_SLAVE_BUSWIDTH_2_BYTES )
return STEDMA40_ESIZE_16_BIT ;
else if ( width = = DMA_SLAVE_BUSWIDTH_8_BYTES )
return STEDMA40_ESIZE_64_BIT ;
else
return STEDMA40_ESIZE_32_BIT ;
}
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/* Sets up proper LCSP1 and LCSP3 register for a logical channel */
void d40_log_cfg ( struct stedma40_chan_cfg * cfg ,
u32 * lcsp1 , u32 * lcsp3 )
{
u32 l3 = 0 ; /* dst */
u32 l1 = 0 ; /* src */
/* src is mem? -> increase address pos */
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if ( cfg - > dir = = DMA_MEM_TO_DEV | |
cfg - > dir = = DMA_MEM_TO_MEM )
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l1 | = BIT ( D40_MEM_LCSP1_SCFG_INCR_POS ) ;
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/* dst is mem? -> increase address pos */
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if ( cfg - > dir = = DMA_DEV_TO_MEM | |
cfg - > dir = = DMA_MEM_TO_MEM )
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l3 | = BIT ( D40_MEM_LCSP3_DCFG_INCR_POS ) ;
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/* src is hw? -> master port 1 */
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if ( cfg - > dir = = DMA_DEV_TO_MEM | |
cfg - > dir = = DMA_DEV_TO_DEV )
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l1 | = BIT ( D40_MEM_LCSP1_SCFG_MST_POS ) ;
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/* dst is hw? -> master port 1 */
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if ( cfg - > dir = = DMA_MEM_TO_DEV | |
cfg - > dir = = DMA_DEV_TO_DEV )
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l3 | = BIT ( D40_MEM_LCSP3_DCFG_MST_POS ) ;
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l3 | = BIT ( D40_MEM_LCSP3_DCFG_EIM_POS ) ;
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l3 | = cfg - > dst_info . psize < < D40_MEM_LCSP3_DCFG_PSIZE_POS ;
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l3 | = d40_width_to_bits ( cfg - > dst_info . data_width )
< < D40_MEM_LCSP3_DCFG_ESIZE_POS ;
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l1 | = BIT ( D40_MEM_LCSP1_SCFG_EIM_POS ) ;
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l1 | = cfg - > src_info . psize < < D40_MEM_LCSP1_SCFG_PSIZE_POS ;
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l1 | = d40_width_to_bits ( cfg - > src_info . data_width )
< < D40_MEM_LCSP1_SCFG_ESIZE_POS ;
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* lcsp1 = l1 ;
* lcsp3 = l3 ;
}
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void d40_phy_cfg ( struct stedma40_chan_cfg * cfg , u32 * src_cfg , u32 * dst_cfg )
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{
u32 src = 0 ;
u32 dst = 0 ;
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if ( ( cfg - > dir = = DMA_DEV_TO_MEM ) | |
( cfg - > dir = = DMA_DEV_TO_DEV ) ) {
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/* Set master port to 1 */
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src | = BIT ( D40_SREG_CFG_MST_POS ) ;
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src | = D40_TYPE_TO_EVENT ( cfg - > dev_type ) ;
if ( cfg - > src_info . flow_ctrl = = STEDMA40_NO_FLOW_CTRL )
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src | = BIT ( D40_SREG_CFG_PHY_TM_POS ) ;
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else
src | = 3 < < D40_SREG_CFG_PHY_TM_POS ;
}
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if ( ( cfg - > dir = = DMA_MEM_TO_DEV ) | |
( cfg - > dir = = DMA_DEV_TO_DEV ) ) {
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/* Set master port to 1 */
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dst | = BIT ( D40_SREG_CFG_MST_POS ) ;
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dst | = D40_TYPE_TO_EVENT ( cfg - > dev_type ) ;
if ( cfg - > dst_info . flow_ctrl = = STEDMA40_NO_FLOW_CTRL )
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dst | = BIT ( D40_SREG_CFG_PHY_TM_POS ) ;
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else
dst | = 3 < < D40_SREG_CFG_PHY_TM_POS ;
}
/* Interrupt on end of transfer for destination */
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dst | = BIT ( D40_SREG_CFG_TIM_POS ) ;
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/* Generate interrupt on error */
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src | = BIT ( D40_SREG_CFG_EIM_POS ) ;
dst | = BIT ( D40_SREG_CFG_EIM_POS ) ;
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/* PSIZE */
if ( cfg - > src_info . psize ! = STEDMA40_PSIZE_PHY_1 ) {
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src | = BIT ( D40_SREG_CFG_PHY_PEN_POS ) ;
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src | = cfg - > src_info . psize < < D40_SREG_CFG_PSIZE_POS ;
}
if ( cfg - > dst_info . psize ! = STEDMA40_PSIZE_PHY_1 ) {
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dst | = BIT ( D40_SREG_CFG_PHY_PEN_POS ) ;
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dst | = cfg - > dst_info . psize < < D40_SREG_CFG_PSIZE_POS ;
}
/* Element size */
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src | = d40_width_to_bits ( cfg - > src_info . data_width )
< < D40_SREG_CFG_ESIZE_POS ;
dst | = d40_width_to_bits ( cfg - > dst_info . data_width )
< < D40_SREG_CFG_ESIZE_POS ;
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/* Set the priority bit to high for the physical channel */
if ( cfg - > high_priority ) {
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src | = BIT ( D40_SREG_CFG_PRI_POS ) ;
dst | = BIT ( D40_SREG_CFG_PRI_POS ) ;
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}
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if ( cfg - > src_info . big_endian )
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src | = BIT ( D40_SREG_CFG_LBE_POS ) ;
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if ( cfg - > dst_info . big_endian )
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dst | = BIT ( D40_SREG_CFG_LBE_POS ) ;
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* src_cfg = src ;
* dst_cfg = dst ;
}
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static int d40_phy_fill_lli ( struct d40_phy_lli * lli ,
dma_addr_t data ,
u32 data_size ,
dma_addr_t next_lli ,
u32 reg_cfg ,
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struct stedma40_half_channel_info * info ,
unsigned int flags )
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{
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bool addr_inc = flags & LLI_ADDR_INC ;
bool term_int = flags & LLI_TERM_INT ;
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unsigned int data_width = info - > data_width ;
int psize = info - > psize ;
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int num_elems ;
if ( psize = = STEDMA40_PSIZE_PHY_1 )
num_elems = 1 ;
else
num_elems = 2 < < psize ;
/* Must be aligned */
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if ( ! IS_ALIGNED ( data , data_width ) )
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return - EINVAL ;
/* Transfer size can't be smaller than (num_elms * elem_size) */
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if ( data_size < num_elems * data_width )
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return - EINVAL ;
/* The number of elements. IE now many chunks */
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lli - > reg_elt = ( data_size / data_width ) < < D40_SREG_ELEM_PHY_ECNT_POS ;
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/*
* Distance to next element sized entry .
* Usually the size of the element unless you want gaps .
*/
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if ( addr_inc )
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lli - > reg_elt | = data_width < < D40_SREG_ELEM_PHY_EIDX_POS ;
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/* Where the data is */
lli - > reg_ptr = data ;
lli - > reg_cfg = reg_cfg ;
/* If this scatter list entry is the last one, no next link */
if ( next_lli = = 0 )
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lli - > reg_lnk = BIT ( D40_SREG_LNK_PHY_TCP_POS ) ;
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else
lli - > reg_lnk = next_lli ;
/* Set/clear interrupt generation on this link item.*/
if ( term_int )
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lli - > reg_cfg | = BIT ( D40_SREG_CFG_TIM_POS ) ;
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else
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lli - > reg_cfg & = ~ BIT ( D40_SREG_CFG_TIM_POS ) ;
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/*
* Post link - D40_SREG_LNK_PHY_PRE_POS = 0
* Relink happens after transfer completion .
*/
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return 0 ;
}
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static int d40_seg_size ( int size , int data_width1 , int data_width2 )
{
u32 max_w = max ( data_width1 , data_width2 ) ;
u32 min_w = min ( data_width1 , data_width2 ) ;
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u32 seg_max = ALIGN ( STEDMA40_MAX_SEG_SIZE * min_w , max_w ) ;
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if ( seg_max > STEDMA40_MAX_SEG_SIZE )
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seg_max - = max_w ;
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if ( size < = seg_max )
return size ;
if ( size < = 2 * seg_max )
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return ALIGN ( size / 2 , max_w ) ;
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return seg_max ;
}
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static struct d40_phy_lli *
d40_phy_buf_to_lli ( struct d40_phy_lli * lli , dma_addr_t addr , u32 size ,
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dma_addr_t lli_phys , dma_addr_t first_phys , u32 reg_cfg ,
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struct stedma40_half_channel_info * info ,
struct stedma40_half_channel_info * otherinfo ,
unsigned long flags )
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{
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bool lastlink = flags & LLI_LAST_LINK ;
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bool addr_inc = flags & LLI_ADDR_INC ;
bool term_int = flags & LLI_TERM_INT ;
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bool cyclic = flags & LLI_CYCLIC ;
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int err ;
dma_addr_t next = lli_phys ;
int size_rest = size ;
int size_seg = 0 ;
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/*
* This piece may be split up based on d40_seg_size ( ) ; we only want the
* term int on the last part .
*/
if ( term_int )
flags & = ~ LLI_TERM_INT ;
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do {
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size_seg = d40_seg_size ( size_rest , info - > data_width ,
otherinfo - > data_width ) ;
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size_rest - = size_seg ;
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if ( size_rest = = 0 & & term_int )
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flags | = LLI_TERM_INT ;
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if ( size_rest = = 0 & & lastlink )
next = cyclic ? first_phys : 0 ;
else
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next = ALIGN ( next + sizeof ( struct d40_phy_lli ) ,
D40_LLI_ALIGN ) ;
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err = d40_phy_fill_lli ( lli , addr , size_seg , next ,
reg_cfg , info , flags ) ;
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if ( err )
goto err ;
lli + + ;
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if ( addr_inc )
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addr + = size_seg ;
} while ( size_rest ) ;
return lli ;
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err :
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return NULL ;
}
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int d40_phy_sg_to_lli ( struct scatterlist * sg ,
int sg_len ,
dma_addr_t target ,
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struct d40_phy_lli * lli_sg ,
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dma_addr_t lli_phys ,
u32 reg_cfg ,
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struct stedma40_half_channel_info * info ,
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struct stedma40_half_channel_info * otherinfo ,
unsigned long flags )
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{
int total_size = 0 ;
int i ;
struct scatterlist * current_sg = sg ;
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struct d40_phy_lli * lli = lli_sg ;
dma_addr_t l_phys = lli_phys ;
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if ( ! target )
flags | = LLI_ADDR_INC ;
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for_each_sg ( sg , current_sg , sg_len , i ) {
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dma_addr_t sg_addr = sg_dma_address ( current_sg ) ;
unsigned int len = sg_dma_len ( current_sg ) ;
dma_addr_t dst = target ? : sg_addr ;
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total_size + = sg_dma_len ( current_sg ) ;
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if ( i = = sg_len - 1 )
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flags | = LLI_TERM_INT | LLI_LAST_LINK ;
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l_phys = ALIGN ( lli_phys + ( lli - lli_sg ) *
sizeof ( struct d40_phy_lli ) , D40_LLI_ALIGN ) ;
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lli = d40_phy_buf_to_lli ( lli , dst , len , l_phys , lli_phys ,
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reg_cfg , info , otherinfo , flags ) ;
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if ( lli = = NULL )
return - EINVAL ;
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}
return total_size ;
}
/* DMA logical lli operations */
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static void d40_log_lli_link ( struct d40_log_lli * lli_dst ,
struct d40_log_lli * lli_src ,
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int next , unsigned int flags )
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{
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bool interrupt = flags & LLI_TERM_INT ;
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u32 slos = 0 ;
u32 dlos = 0 ;
if ( next ! = - EINVAL ) {
slos = next * 2 ;
dlos = next * 2 + 1 ;
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}
if ( interrupt ) {
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lli_dst - > lcsp13 | = D40_MEM_LCSP1_SCFG_TIM_MASK ;
lli_dst - > lcsp13 | = D40_MEM_LCSP3_DTCP_MASK ;
}
lli_src - > lcsp13 = ( lli_src - > lcsp13 & ~ D40_MEM_LCSP1_SLOS_MASK ) |
( slos < < D40_MEM_LCSP1_SLOS_POS ) ;
lli_dst - > lcsp13 = ( lli_dst - > lcsp13 & ~ D40_MEM_LCSP1_SLOS_MASK ) |
( dlos < < D40_MEM_LCSP1_SLOS_POS ) ;
}
void d40_log_lli_lcpa_write ( struct d40_log_lli_full * lcpa ,
struct d40_log_lli * lli_dst ,
struct d40_log_lli * lli_src ,
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int next , unsigned int flags )
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{
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d40_log_lli_link ( lli_dst , lli_src , next , flags ) ;
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writel_relaxed ( lli_src - > lcsp02 , & lcpa [ 0 ] . lcsp0 ) ;
writel_relaxed ( lli_src - > lcsp13 , & lcpa [ 0 ] . lcsp1 ) ;
writel_relaxed ( lli_dst - > lcsp02 , & lcpa [ 0 ] . lcsp2 ) ;
writel_relaxed ( lli_dst - > lcsp13 , & lcpa [ 0 ] . lcsp3 ) ;
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}
void d40_log_lli_lcla_write ( struct d40_log_lli * lcla ,
struct d40_log_lli * lli_dst ,
struct d40_log_lli * lli_src ,
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int next , unsigned int flags )
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{
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d40_log_lli_link ( lli_dst , lli_src , next , flags ) ;
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writel_relaxed ( lli_src - > lcsp02 , & lcla [ 0 ] . lcsp02 ) ;
writel_relaxed ( lli_src - > lcsp13 , & lcla [ 0 ] . lcsp13 ) ;
writel_relaxed ( lli_dst - > lcsp02 , & lcla [ 1 ] . lcsp02 ) ;
writel_relaxed ( lli_dst - > lcsp13 , & lcla [ 1 ] . lcsp13 ) ;
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}
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static void d40_log_fill_lli ( struct d40_log_lli * lli ,
dma_addr_t data , u32 data_size ,
u32 reg_cfg ,
u32 data_width ,
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unsigned int flags )
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{
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bool addr_inc = flags & LLI_ADDR_INC ;
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lli - > lcsp13 = reg_cfg ;
/* The number of elements to transfer */
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lli - > lcsp02 = ( ( data_size / data_width ) < <
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D40_MEM_LCSP0_ECNT_POS ) & D40_MEM_LCSP0_ECNT_MASK ;
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BUG_ON ( ( data_size / data_width ) > STEDMA40_MAX_SEG_SIZE ) ;
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/* 16 LSBs address of the current element */
lli - > lcsp02 | = data & D40_MEM_LCSP0_SPTR_MASK ;
/* 16 MSBs address of the current element */
lli - > lcsp13 | = data & D40_MEM_LCSP1_SPTR_MASK ;
if ( addr_inc )
lli - > lcsp13 | = D40_MEM_LCSP1_SCFG_INCR_MASK ;
}
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static struct d40_log_lli * d40_log_buf_to_lli ( struct d40_log_lli * lli_sg ,
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dma_addr_t addr ,
int size ,
u32 lcsp13 , /* src or dst*/
u32 data_width1 ,
u32 data_width2 ,
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unsigned int flags )
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{
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bool addr_inc = flags & LLI_ADDR_INC ;
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struct d40_log_lli * lli = lli_sg ;
int size_rest = size ;
int size_seg = 0 ;
do {
size_seg = d40_seg_size ( size_rest , data_width1 , data_width2 ) ;
size_rest - = size_seg ;
d40_log_fill_lli ( lli ,
addr ,
size_seg ,
lcsp13 , data_width1 ,
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flags ) ;
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if ( addr_inc )
addr + = size_seg ;
lli + + ;
} while ( size_rest ) ;
return lli ;
}
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int d40_log_sg_to_lli ( struct scatterlist * sg ,
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int sg_len ,
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dma_addr_t dev_addr ,
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struct d40_log_lli * lli_sg ,
u32 lcsp13 , /* src or dst*/
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u32 data_width1 , u32 data_width2 )
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{
int total_size = 0 ;
struct scatterlist * current_sg = sg ;
int i ;
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struct d40_log_lli * lli = lli_sg ;
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unsigned long flags = 0 ;
if ( ! dev_addr )
flags | = LLI_ADDR_INC ;
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for_each_sg ( sg , current_sg , sg_len , i ) {
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dma_addr_t sg_addr = sg_dma_address ( current_sg ) ;
unsigned int len = sg_dma_len ( current_sg ) ;
dma_addr_t addr = dev_addr ? : sg_addr ;
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total_size + = sg_dma_len ( current_sg ) ;
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lli = d40_log_buf_to_lli ( lli , addr , len ,
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lcsp13 ,
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data_width1 ,
data_width2 ,
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flags ) ;
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}
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return total_size ;
}