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/*
* Freescale MPC85xx , MPC83xx DMA Engine support
*
* Copyright ( C ) 2007 Freescale Semiconductor , Inc . All rights reserved .
*
* Author :
* Zhang Wei < wei . zhang @ freescale . com > , Jul 2007
* Ebony Zhu < ebony . zhu @ freescale . com > , May 2007
*
* Description :
* DMA engine driver for Freescale MPC8540 DMA controller , which is
* also fit for MPC8560 , MPC8555 , MPC8548 , MPC8641 , and etc .
* The support for MPC8349 DMA contorller is also added .
*
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* This driver instructs the DMA controller to issue the PCI Read Multiple
* command for PCI read operations , instead of using the default PCI Read Line
* command . Please be aware that this setting may result in read pre - fetching
* on some platforms .
*
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* This is free software ; you can redistribute it and / or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation ; either version 2 of the License , or
* ( at your option ) any later version .
*
*/
# include <linux/init.h>
# include <linux/module.h>
# include <linux/pci.h>
include cleanup: Update gfp.h and slab.h includes to prepare for breaking implicit slab.h inclusion from percpu.h
percpu.h is included by sched.h and module.h and thus ends up being
included when building most .c files. percpu.h includes slab.h which
in turn includes gfp.h making everything defined by the two files
universally available and complicating inclusion dependencies.
percpu.h -> slab.h dependency is about to be removed. Prepare for
this change by updating users of gfp and slab facilities include those
headers directly instead of assuming availability. As this conversion
needs to touch large number of source files, the following script is
used as the basis of conversion.
http://userweb.kernel.org/~tj/misc/slabh-sweep.py
The script does the followings.
* Scan files for gfp and slab usages and update includes such that
only the necessary includes are there. ie. if only gfp is used,
gfp.h, if slab is used, slab.h.
* When the script inserts a new include, it looks at the include
blocks and try to put the new include such that its order conforms
to its surrounding. It's put in the include block which contains
core kernel includes, in the same order that the rest are ordered -
alphabetical, Christmas tree, rev-Xmas-tree or at the end if there
doesn't seem to be any matching order.
* If the script can't find a place to put a new include (mostly
because the file doesn't have fitting include block), it prints out
an error message indicating which .h file needs to be added to the
file.
The conversion was done in the following steps.
1. The initial automatic conversion of all .c files updated slightly
over 4000 files, deleting around 700 includes and adding ~480 gfp.h
and ~3000 slab.h inclusions. The script emitted errors for ~400
files.
2. Each error was manually checked. Some didn't need the inclusion,
some needed manual addition while adding it to implementation .h or
embedding .c file was more appropriate for others. This step added
inclusions to around 150 files.
3. The script was run again and the output was compared to the edits
from #2 to make sure no file was left behind.
4. Several build tests were done and a couple of problems were fixed.
e.g. lib/decompress_*.c used malloc/free() wrappers around slab
APIs requiring slab.h to be added manually.
5. The script was run on all .h files but without automatically
editing them as sprinkling gfp.h and slab.h inclusions around .h
files could easily lead to inclusion dependency hell. Most gfp.h
inclusion directives were ignored as stuff from gfp.h was usually
wildly available and often used in preprocessor macros. Each
slab.h inclusion directive was examined and added manually as
necessary.
6. percpu.h was updated not to include slab.h.
7. Build test were done on the following configurations and failures
were fixed. CONFIG_GCOV_KERNEL was turned off for all tests (as my
distributed build env didn't work with gcov compiles) and a few
more options had to be turned off depending on archs to make things
build (like ipr on powerpc/64 which failed due to missing writeq).
* x86 and x86_64 UP and SMP allmodconfig and a custom test config.
* powerpc and powerpc64 SMP allmodconfig
* sparc and sparc64 SMP allmodconfig
* ia64 SMP allmodconfig
* s390 SMP allmodconfig
* alpha SMP allmodconfig
* um on x86_64 SMP allmodconfig
8. percpu.h modifications were reverted so that it could be applied as
a separate patch and serve as bisection point.
Given the fact that I had only a couple of failures from tests on step
6, I'm fairly confident about the coverage of this conversion patch.
If there is a breakage, it's likely to be something in one of the arch
headers which should be easily discoverable easily on most builds of
the specific arch.
Signed-off-by: Tejun Heo <tj@kernel.org>
Guess-its-ok-by: Christoph Lameter <cl@linux-foundation.org>
Cc: Ingo Molnar <mingo@redhat.com>
Cc: Lee Schermerhorn <Lee.Schermerhorn@hp.com>
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# include <linux/slab.h>
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# include <linux/interrupt.h>
# include <linux/dmaengine.h>
# include <linux/delay.h>
# include <linux/dma-mapping.h>
# include <linux/dmapool.h>
# include <linux/of_platform.h>
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# include <asm/fsldma.h>
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# include "fsldma.h"
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static void dma_init ( struct fsldma_chan * chan )
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{
/* Reset the channel */
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DMA_OUT ( chan , & chan - > regs - > mr , 0 , 32 ) ;
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switch ( chan - > feature & FSL_DMA_IP_MASK ) {
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case FSL_DMA_IP_85XX :
/* Set the channel to below modes:
* EIE - Error interrupt enable
* EOSIE - End of segments interrupt enable ( basic mode )
* EOLNIE - End of links interrupt enable
*/
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DMA_OUT ( chan , & chan - > regs - > mr , FSL_DMA_MR_EIE
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| FSL_DMA_MR_EOLNIE | FSL_DMA_MR_EOSIE , 32 ) ;
break ;
case FSL_DMA_IP_83XX :
/* Set the channel to below modes:
* EOTIE - End - of - transfer interrupt enable
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* PRC_RM - PCI read multiple
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*/
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DMA_OUT ( chan , & chan - > regs - > mr , FSL_DMA_MR_EOTIE
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| FSL_DMA_MR_PRC_RM , 32 ) ;
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break ;
}
}
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static void set_sr ( struct fsldma_chan * chan , u32 val )
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{
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DMA_OUT ( chan , & chan - > regs - > sr , val , 32 ) ;
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}
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static u32 get_sr ( struct fsldma_chan * chan )
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{
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return DMA_IN ( chan , & chan - > regs - > sr , 32 ) ;
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}
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static void set_desc_cnt ( struct fsldma_chan * chan ,
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struct fsl_dma_ld_hw * hw , u32 count )
{
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hw - > count = CPU_TO_DMA ( chan , count , 32 ) ;
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}
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static void set_desc_src ( struct fsldma_chan * chan ,
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struct fsl_dma_ld_hw * hw , dma_addr_t src )
{
u64 snoop_bits ;
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snoop_bits = ( ( chan - > feature & FSL_DMA_IP_MASK ) = = FSL_DMA_IP_85XX )
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? ( ( u64 ) FSL_DMA_SATR_SREADTYPE_SNOOP_READ < < 32 ) : 0 ;
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hw - > src_addr = CPU_TO_DMA ( chan , snoop_bits | src , 64 ) ;
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}
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static void set_desc_dst ( struct fsldma_chan * chan ,
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struct fsl_dma_ld_hw * hw , dma_addr_t dst )
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{
u64 snoop_bits ;
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snoop_bits = ( ( chan - > feature & FSL_DMA_IP_MASK ) = = FSL_DMA_IP_85XX )
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? ( ( u64 ) FSL_DMA_DATR_DWRITETYPE_SNOOP_WRITE < < 32 ) : 0 ;
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hw - > dst_addr = CPU_TO_DMA ( chan , snoop_bits | dst , 64 ) ;
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}
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static void set_desc_next ( struct fsldma_chan * chan ,
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struct fsl_dma_ld_hw * hw , dma_addr_t next )
{
u64 snoop_bits ;
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snoop_bits = ( ( chan - > feature & FSL_DMA_IP_MASK ) = = FSL_DMA_IP_83XX )
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? FSL_DMA_SNEN : 0 ;
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hw - > next_ln_addr = CPU_TO_DMA ( chan , snoop_bits | next , 64 ) ;
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}
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static void set_cdar ( struct fsldma_chan * chan , dma_addr_t addr )
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{
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DMA_OUT ( chan , & chan - > regs - > cdar , addr | FSL_DMA_SNEN , 64 ) ;
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}
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static dma_addr_t get_cdar ( struct fsldma_chan * chan )
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{
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return DMA_IN ( chan , & chan - > regs - > cdar , 64 ) & ~ FSL_DMA_SNEN ;
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}
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static dma_addr_t get_ndar ( struct fsldma_chan * chan )
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{
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return DMA_IN ( chan , & chan - > regs - > ndar , 64 ) ;
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}
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static u32 get_bcr ( struct fsldma_chan * chan )
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{
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return DMA_IN ( chan , & chan - > regs - > bcr , 32 ) ;
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}
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static int dma_is_idle ( struct fsldma_chan * chan )
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{
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u32 sr = get_sr ( chan ) ;
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return ( ! ( sr & FSL_DMA_SR_CB ) ) | | ( sr & FSL_DMA_SR_CH ) ;
}
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static void dma_start ( struct fsldma_chan * chan )
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{
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u32 mode ;
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mode = DMA_IN ( chan , & chan - > regs - > mr , 32 ) ;
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if ( ( chan - > feature & FSL_DMA_IP_MASK ) = = FSL_DMA_IP_85XX ) {
if ( chan - > feature & FSL_DMA_CHAN_PAUSE_EXT ) {
DMA_OUT ( chan , & chan - > regs - > bcr , 0 , 32 ) ;
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mode | = FSL_DMA_MR_EMP_EN ;
} else {
mode & = ~ FSL_DMA_MR_EMP_EN ;
}
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}
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if ( chan - > feature & FSL_DMA_CHAN_START_EXT )
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mode | = FSL_DMA_MR_EMS_EN ;
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else
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mode | = FSL_DMA_MR_CS ;
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DMA_OUT ( chan , & chan - > regs - > mr , mode , 32 ) ;
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}
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static void dma_halt ( struct fsldma_chan * chan )
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{
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u32 mode ;
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int i ;
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mode = DMA_IN ( chan , & chan - > regs - > mr , 32 ) ;
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mode | = FSL_DMA_MR_CA ;
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DMA_OUT ( chan , & chan - > regs - > mr , mode , 32 ) ;
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mode & = ~ ( FSL_DMA_MR_CS | FSL_DMA_MR_EMS_EN | FSL_DMA_MR_CA ) ;
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DMA_OUT ( chan , & chan - > regs - > mr , mode , 32 ) ;
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for ( i = 0 ; i < 100 ; i + + ) {
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if ( dma_is_idle ( chan ) )
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return ;
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udelay ( 10 ) ;
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}
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if ( ! dma_is_idle ( chan ) )
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dev_err ( chan - > dev , " DMA halt timeout! \n " ) ;
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}
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static void set_ld_eol ( struct fsldma_chan * chan ,
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struct fsl_desc_sw * desc )
{
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u64 snoop_bits ;
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snoop_bits = ( ( chan - > feature & FSL_DMA_IP_MASK ) = = FSL_DMA_IP_83XX )
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? FSL_DMA_SNEN : 0 ;
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desc - > hw . next_ln_addr = CPU_TO_DMA ( chan ,
DMA_TO_CPU ( chan , desc - > hw . next_ln_addr , 64 ) | FSL_DMA_EOL
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| snoop_bits , 64 ) ;
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}
/**
* fsl_chan_set_src_loop_size - Set source address hold transfer size
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* @ chan : Freescale DMA channel
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* @ size : Address loop size , 0 for disable loop
*
* The set source address hold transfer size . The source
* address hold or loop transfer size is when the DMA transfer
* data from source address ( SA ) , if the loop size is 4 , the DMA will
* read data from SA , SA + 1 , SA + 2 , SA + 3 , then loop back to SA ,
* SA + 1 . . . and so on .
*/
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static void fsl_chan_set_src_loop_size ( struct fsldma_chan * chan , int size )
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{
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u32 mode ;
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mode = DMA_IN ( chan , & chan - > regs - > mr , 32 ) ;
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switch ( size ) {
case 0 :
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mode & = ~ FSL_DMA_MR_SAHE ;
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break ;
case 1 :
case 2 :
case 4 :
case 8 :
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mode | = FSL_DMA_MR_SAHE | ( __ilog2 ( size ) < < 14 ) ;
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break ;
}
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DMA_OUT ( chan , & chan - > regs - > mr , mode , 32 ) ;
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}
/**
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* fsl_chan_set_dst_loop_size - Set destination address hold transfer size
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* @ chan : Freescale DMA channel
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* @ size : Address loop size , 0 for disable loop
*
* The set destination address hold transfer size . The destination
* address hold or loop transfer size is when the DMA transfer
* data to destination address ( TA ) , if the loop size is 4 , the DMA will
* write data to TA , TA + 1 , TA + 2 , TA + 3 , then loop back to TA ,
* TA + 1 . . . and so on .
*/
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static void fsl_chan_set_dst_loop_size ( struct fsldma_chan * chan , int size )
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{
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u32 mode ;
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mode = DMA_IN ( chan , & chan - > regs - > mr , 32 ) ;
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switch ( size ) {
case 0 :
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mode & = ~ FSL_DMA_MR_DAHE ;
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break ;
case 1 :
case 2 :
case 4 :
case 8 :
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mode | = FSL_DMA_MR_DAHE | ( __ilog2 ( size ) < < 16 ) ;
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break ;
}
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DMA_OUT ( chan , & chan - > regs - > mr , mode , 32 ) ;
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}
/**
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* fsl_chan_set_request_count - Set DMA Request Count for external control
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* @ chan : Freescale DMA channel
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* @ size : Number of bytes to transfer in a single request
*
* The Freescale DMA channel can be controlled by the external signal DREQ # .
* The DMA request count is how many bytes are allowed to transfer before
* pausing the channel , after which a new assertion of DREQ # resumes channel
* operation .
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*
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* A size of 0 disables external pause control . The maximum size is 1024.
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*/
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static void fsl_chan_set_request_count ( struct fsldma_chan * chan , int size )
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{
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u32 mode ;
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BUG_ON ( size > 1024 ) ;
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mode = DMA_IN ( chan , & chan - > regs - > mr , 32 ) ;
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mode | = ( __ilog2 ( size ) < < 24 ) & 0x0f000000 ;
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DMA_OUT ( chan , & chan - > regs - > mr , mode , 32 ) ;
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}
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/**
* fsl_chan_toggle_ext_pause - Toggle channel external pause status
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* @ chan : Freescale DMA channel
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* @ enable : 0 is disabled , 1 is enabled .
*
* The Freescale DMA channel can be controlled by the external signal DREQ # .
* The DMA Request Count feature should be used in addition to this feature
* to set the number of bytes to transfer before pausing the channel .
*/
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static void fsl_chan_toggle_ext_pause ( struct fsldma_chan * chan , int enable )
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{
if ( enable )
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chan - > feature | = FSL_DMA_CHAN_PAUSE_EXT ;
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else
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chan - > feature & = ~ FSL_DMA_CHAN_PAUSE_EXT ;
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}
/**
* fsl_chan_toggle_ext_start - Toggle channel external start status
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* @ chan : Freescale DMA channel
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* @ enable : 0 is disabled , 1 is enabled .
*
* If enable the external start , the channel can be started by an
* external DMA start pin . So the dma_start ( ) does not start the
* transfer immediately . The DMA channel will wait for the
* control pin asserted .
*/
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static void fsl_chan_toggle_ext_start ( struct fsldma_chan * chan , int enable )
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{
if ( enable )
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chan - > feature | = FSL_DMA_CHAN_START_EXT ;
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else
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chan - > feature & = ~ FSL_DMA_CHAN_START_EXT ;
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}
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static void append_ld_queue ( struct fsldma_chan * chan ,
struct fsl_desc_sw * desc )
{
struct fsl_desc_sw * tail = to_fsl_desc ( chan - > ld_pending . prev ) ;
if ( list_empty ( & chan - > ld_pending ) )
goto out_splice ;
/*
* Add the hardware descriptor to the chain of hardware descriptors
* that already exists in memory .
*
* This will un - set the EOL bit of the existing transaction , and the
* last link in this transaction will become the EOL descriptor .
*/
set_desc_next ( chan , & tail - > hw , desc - > async_tx . phys ) ;
/*
* Add the software descriptor and all children to the list
* of pending transactions
*/
out_splice :
list_splice_tail_init ( & desc - > tx_list , & chan - > ld_pending ) ;
}
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static dma_cookie_t fsl_dma_tx_submit ( struct dma_async_tx_descriptor * tx )
{
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struct fsldma_chan * chan = to_fsl_chan ( tx - > chan ) ;
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struct fsl_desc_sw * desc = tx_to_fsl_desc ( tx ) ;
struct fsl_desc_sw * child ;
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unsigned long flags ;
dma_cookie_t cookie ;
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spin_lock_irqsave ( & chan - > desc_lock , flags ) ;
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/*
* assign cookies to all of the software descriptors
* that make up this transaction
*/
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cookie = chan - > common . cookie ;
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list_for_each_entry ( child , & desc - > tx_list , node ) {
fsldma: fix infinite loop on multi-descriptor DMA chain completion
When creating a DMA transaction with multiple descriptors, the async_tx
cookie is set to 0 for each descriptor in the chain, excluding the last
descriptor, whose cookie is set to -EBUSY.
When fsl_dma_tx_submit() is run, it only assigns a cookie to the first
descriptor. All of the remaining descriptors keep their original value,
including the last descriptor, which is set to -EBUSY.
After the DMA completes, the driver will update the last completed cookie
to be -EBUSY, which is an error code instead of a valid cookie. This causes
dma_async_is_complete() to always return DMA_IN_PROGRESS.
This causes the fsldma driver to never cleanup the queue of link
descriptors, and the driver will re-run the DMA transaction on the hardware
each time it receives the End-of-Chain interrupt. This causes an infinite
loop.
With this patch, fsl_dma_tx_submit() is changed to assign a cookie to every
descriptor in the chain. The rest of the code then works without problems.
Signed-off-by: Ira W. Snyder <iws@ovro.caltech.edu>
Signed-off-by: Li Yang <leoli@freescale.com>
2009-05-16 01:27:16 +04:00
cookie + + ;
if ( cookie < 0 )
cookie = 1 ;
2010-02-25 22:39:30 +03:00
child - > async_tx . cookie = cookie ;
fsldma: fix infinite loop on multi-descriptor DMA chain completion
When creating a DMA transaction with multiple descriptors, the async_tx
cookie is set to 0 for each descriptor in the chain, excluding the last
descriptor, whose cookie is set to -EBUSY.
When fsl_dma_tx_submit() is run, it only assigns a cookie to the first
descriptor. All of the remaining descriptors keep their original value,
including the last descriptor, which is set to -EBUSY.
After the DMA completes, the driver will update the last completed cookie
to be -EBUSY, which is an error code instead of a valid cookie. This causes
dma_async_is_complete() to always return DMA_IN_PROGRESS.
This causes the fsldma driver to never cleanup the queue of link
descriptors, and the driver will re-run the DMA transaction on the hardware
each time it receives the End-of-Chain interrupt. This causes an infinite
loop.
With this patch, fsl_dma_tx_submit() is changed to assign a cookie to every
descriptor in the chain. The rest of the code then works without problems.
Signed-off-by: Ira W. Snyder <iws@ovro.caltech.edu>
Signed-off-by: Li Yang <leoli@freescale.com>
2009-05-16 01:27:16 +04:00
}
2010-01-06 16:34:05 +03:00
chan - > common . cookie = cookie ;
2010-01-06 16:34:06 +03:00
/* put this transaction onto the tail of the pending queue */
2010-01-06 16:34:05 +03:00
append_ld_queue ( chan , desc ) ;
2008-03-01 17:42:48 +03:00
2010-01-06 16:34:05 +03:00
spin_unlock_irqrestore ( & chan - > desc_lock , flags ) ;
2008-03-01 17:42:48 +03:00
return cookie ;
}
/**
* fsl_dma_alloc_descriptor - Allocate descriptor from channel ' s DMA pool .
2010-01-06 16:34:05 +03:00
* @ chan : Freescale DMA channel
2008-03-01 17:42:48 +03:00
*
* Return - The descriptor allocated . NULL for failed .
*/
static struct fsl_desc_sw * fsl_dma_alloc_descriptor (
2010-01-06 16:34:05 +03:00
struct fsldma_chan * chan )
2008-03-01 17:42:48 +03:00
{
2010-01-06 16:34:06 +03:00
struct fsl_desc_sw * desc ;
2008-03-01 17:42:48 +03:00
dma_addr_t pdesc ;
2010-01-06 16:34:06 +03:00
desc = dma_pool_alloc ( chan - > desc_pool , GFP_ATOMIC , & pdesc ) ;
if ( ! desc ) {
dev_dbg ( chan - > dev , " out of memory for link desc \n " ) ;
return NULL ;
2008-03-01 17:42:48 +03:00
}
2010-01-06 16:34:06 +03:00
memset ( desc , 0 , sizeof ( * desc ) ) ;
INIT_LIST_HEAD ( & desc - > tx_list ) ;
dma_async_tx_descriptor_init ( & desc - > async_tx , & chan - > common ) ;
desc - > async_tx . tx_submit = fsl_dma_tx_submit ;
desc - > async_tx . phys = pdesc ;
return desc ;
2008-03-01 17:42:48 +03:00
}
/**
* fsl_dma_alloc_chan_resources - Allocate resources for DMA channel .
2010-01-06 16:34:05 +03:00
* @ chan : Freescale DMA channel
2008-03-01 17:42:48 +03:00
*
* This function will create a dma pool for descriptor allocation .
*
* Return - The number of descriptors allocated .
*/
2010-01-06 16:34:05 +03:00
static int fsl_dma_alloc_chan_resources ( struct dma_chan * dchan )
2008-03-01 17:42:48 +03:00
{
2010-01-06 16:34:05 +03:00
struct fsldma_chan * chan = to_fsl_chan ( dchan ) ;
2008-09-27 04:00:11 +04:00
/* Has this channel already been allocated? */
2010-01-06 16:34:05 +03:00
if ( chan - > desc_pool )
2008-09-27 04:00:11 +04:00
return 1 ;
2008-03-01 17:42:48 +03:00
2010-01-06 16:34:06 +03:00
/*
* We need the descriptor to be aligned to 32 bytes
2008-03-01 17:42:48 +03:00
* for meeting FSL DMA specification requirement .
*/
2010-01-06 16:34:05 +03:00
chan - > desc_pool = dma_pool_create ( " fsl_dma_engine_desc_pool " ,
2010-01-06 16:34:06 +03:00
chan - > dev ,
sizeof ( struct fsl_desc_sw ) ,
__alignof__ ( struct fsl_desc_sw ) , 0 ) ;
2010-01-06 16:34:05 +03:00
if ( ! chan - > desc_pool ) {
2010-01-06 16:34:06 +03:00
dev_err ( chan - > dev , " unable to allocate channel %d "
" descriptor pool \n " , chan - > id ) ;
return - ENOMEM ;
2008-03-01 17:42:48 +03:00
}
2010-01-06 16:34:06 +03:00
/* there is at least one descriptor free to be allocated */
2008-03-01 17:42:48 +03:00
return 1 ;
}
2010-01-06 16:34:06 +03:00
/**
* fsldma_free_desc_list - Free all descriptors in a queue
* @ chan : Freescae DMA channel
* @ list : the list to free
*
* LOCKING : must hold chan - > desc_lock
*/
static void fsldma_free_desc_list ( struct fsldma_chan * chan ,
struct list_head * list )
{
struct fsl_desc_sw * desc , * _desc ;
list_for_each_entry_safe ( desc , _desc , list , node ) {
list_del ( & desc - > node ) ;
dma_pool_free ( chan - > desc_pool , desc , desc - > async_tx . phys ) ;
}
}
static void fsldma_free_desc_list_reverse ( struct fsldma_chan * chan ,
struct list_head * list )
{
struct fsl_desc_sw * desc , * _desc ;
list_for_each_entry_safe_reverse ( desc , _desc , list , node ) {
list_del ( & desc - > node ) ;
dma_pool_free ( chan - > desc_pool , desc , desc - > async_tx . phys ) ;
}
}
2008-03-01 17:42:48 +03:00
/**
* fsl_dma_free_chan_resources - Free all resources of the channel .
2010-01-06 16:34:05 +03:00
* @ chan : Freescale DMA channel
2008-03-01 17:42:48 +03:00
*/
2010-01-06 16:34:05 +03:00
static void fsl_dma_free_chan_resources ( struct dma_chan * dchan )
2008-03-01 17:42:48 +03:00
{
2010-01-06 16:34:05 +03:00
struct fsldma_chan * chan = to_fsl_chan ( dchan ) ;
2008-03-01 17:42:48 +03:00
unsigned long flags ;
2010-01-06 16:34:05 +03:00
dev_dbg ( chan - > dev , " Free all channel resources. \n " ) ;
spin_lock_irqsave ( & chan - > desc_lock , flags ) ;
2010-01-06 16:34:06 +03:00
fsldma_free_desc_list ( chan , & chan - > ld_pending ) ;
fsldma_free_desc_list ( chan , & chan - > ld_running ) ;
2010-01-06 16:34:05 +03:00
spin_unlock_irqrestore ( & chan - > desc_lock , flags ) ;
2008-09-27 04:00:11 +04:00
2010-01-06 16:34:06 +03:00
dma_pool_destroy ( chan - > desc_pool ) ;
2010-01-06 16:34:05 +03:00
chan - > desc_pool = NULL ;
2008-03-01 17:42:48 +03:00
}
2008-03-14 03:45:28 +03:00
static struct dma_async_tx_descriptor *
2010-01-06 16:34:05 +03:00
fsl_dma_prep_interrupt ( struct dma_chan * dchan , unsigned long flags )
2008-03-14 03:45:28 +03:00
{
2010-01-06 16:34:05 +03:00
struct fsldma_chan * chan ;
2008-03-14 03:45:28 +03:00
struct fsl_desc_sw * new ;
2010-01-06 16:34:05 +03:00
if ( ! dchan )
2008-03-14 03:45:28 +03:00
return NULL ;
2010-01-06 16:34:05 +03:00
chan = to_fsl_chan ( dchan ) ;
2008-03-14 03:45:28 +03:00
2010-01-06 16:34:05 +03:00
new = fsl_dma_alloc_descriptor ( chan ) ;
2008-03-14 03:45:28 +03:00
if ( ! new ) {
2010-01-06 16:34:05 +03:00
dev_err ( chan - > dev , " No free memory for link descriptor \n " ) ;
2008-03-14 03:45:28 +03:00
return NULL ;
}
new - > async_tx . cookie = - EBUSY ;
2008-04-18 07:17:26 +04:00
new - > async_tx . flags = flags ;
2008-03-14 03:45:28 +03:00
2008-03-19 04:45:00 +03:00
/* Insert the link descriptor to the LD ring */
2009-09-09 04:53:02 +04:00
list_add_tail ( & new - > node , & new - > tx_list ) ;
2008-03-19 04:45:00 +03:00
2008-03-14 03:45:28 +03:00
/* Set End-of-link to the last link descriptor of new list*/
2010-01-06 16:34:05 +03:00
set_ld_eol ( chan , new ) ;
2008-03-14 03:45:28 +03:00
return & new - > async_tx ;
}
2008-03-01 17:42:48 +03:00
static struct dma_async_tx_descriptor * fsl_dma_prep_memcpy (
2010-01-06 16:34:05 +03:00
struct dma_chan * dchan , dma_addr_t dma_dst , dma_addr_t dma_src ,
2008-03-01 17:42:48 +03:00
size_t len , unsigned long flags )
{
2010-01-06 16:34:05 +03:00
struct fsldma_chan * chan ;
2008-03-01 17:42:48 +03:00
struct fsl_desc_sw * first = NULL , * prev = NULL , * new ;
size_t copy ;
2010-01-06 16:34:05 +03:00
if ( ! dchan )
2008-03-01 17:42:48 +03:00
return NULL ;
if ( ! len )
return NULL ;
2010-01-06 16:34:05 +03:00
chan = to_fsl_chan ( dchan ) ;
2008-03-01 17:42:48 +03:00
do {
/* Allocate the link descriptor from DMA pool */
2010-01-06 16:34:05 +03:00
new = fsl_dma_alloc_descriptor ( chan ) ;
2008-03-01 17:42:48 +03:00
if ( ! new ) {
2010-01-06 16:34:05 +03:00
dev_err ( chan - > dev ,
2008-03-01 17:42:48 +03:00
" No free memory for link descriptor \n " ) ;
2009-05-15 20:59:46 +04:00
goto fail ;
2008-03-01 17:42:48 +03:00
}
# ifdef FSL_DMA_LD_DEBUG
2010-01-06 16:34:05 +03:00
dev_dbg ( chan - > dev , " new link desc alloc %p \n " , new ) ;
2008-03-01 17:42:48 +03:00
# endif
2008-03-13 20:45:27 +03:00
copy = min ( len , ( size_t ) FSL_DMA_BCR_MAX_CNT ) ;
2008-03-01 17:42:48 +03:00
2010-01-06 16:34:05 +03:00
set_desc_cnt ( chan , & new - > hw , copy ) ;
set_desc_src ( chan , & new - > hw , dma_src ) ;
set_desc_dst ( chan , & new - > hw , dma_dst ) ;
2008-03-01 17:42:48 +03:00
if ( ! first )
first = new ;
else
2010-01-06 16:34:05 +03:00
set_desc_next ( chan , & prev - > hw , new - > async_tx . phys ) ;
2008-03-01 17:42:48 +03:00
new - > async_tx . cookie = 0 ;
2008-04-18 07:17:26 +04:00
async_tx_ack ( & new - > async_tx ) ;
2008-03-01 17:42:48 +03:00
prev = new ;
len - = copy ;
dma_src + = copy ;
2010-01-06 16:34:02 +03:00
dma_dst + = copy ;
2008-03-01 17:42:48 +03:00
/* Insert the link descriptor to the LD ring */
2009-09-09 04:53:02 +04:00
list_add_tail ( & new - > node , & first - > tx_list ) ;
2008-03-01 17:42:48 +03:00
} while ( len ) ;
2008-04-18 07:17:26 +04:00
new - > async_tx . flags = flags ; /* client is in control of this ack */
2008-03-01 17:42:48 +03:00
new - > async_tx . cookie = - EBUSY ;
/* Set End-of-link to the last link descriptor of new list*/
2010-01-06 16:34:05 +03:00
set_ld_eol ( chan , new ) ;
2008-03-01 17:42:48 +03:00
2009-05-15 20:59:46 +04:00
return & first - > async_tx ;
fail :
if ( ! first )
return NULL ;
2010-01-06 16:34:06 +03:00
fsldma_free_desc_list_reverse ( chan , & first - > tx_list ) ;
2009-05-15 20:59:46 +04:00
return NULL ;
2008-03-01 17:42:48 +03:00
}
2009-09-09 04:53:04 +04:00
/**
* fsl_dma_prep_slave_sg - prepare descriptors for a DMA_SLAVE transaction
* @ chan : DMA channel
* @ sgl : scatterlist to transfer to / from
* @ sg_len : number of entries in @ scatterlist
* @ direction : DMA direction
* @ flags : DMAEngine flags
*
* Prepare a set of descriptors for a DMA_SLAVE transaction . Following the
* DMA_SLAVE API , this gets the device - specific information from the
* chan - > private variable .
*/
static struct dma_async_tx_descriptor * fsl_dma_prep_slave_sg (
2010-01-06 16:34:05 +03:00
struct dma_chan * dchan , struct scatterlist * sgl , unsigned int sg_len ,
2009-09-09 04:53:04 +04:00
enum dma_data_direction direction , unsigned long flags )
{
2010-01-06 16:34:05 +03:00
struct fsldma_chan * chan ;
2009-09-09 04:53:04 +04:00
struct fsl_desc_sw * first = NULL , * prev = NULL , * new = NULL ;
struct fsl_dma_slave * slave ;
size_t copy ;
int i ;
struct scatterlist * sg ;
size_t sg_used ;
size_t hw_used ;
struct fsl_dma_hw_addr * hw ;
dma_addr_t dma_dst , dma_src ;
2010-01-06 16:34:05 +03:00
if ( ! dchan )
2009-09-09 04:53:04 +04:00
return NULL ;
2010-01-06 16:34:05 +03:00
if ( ! dchan - > private )
2009-09-09 04:53:04 +04:00
return NULL ;
2010-01-06 16:34:05 +03:00
chan = to_fsl_chan ( dchan ) ;
slave = dchan - > private ;
2009-09-09 04:53:04 +04:00
if ( list_empty ( & slave - > addresses ) )
return NULL ;
hw = list_first_entry ( & slave - > addresses , struct fsl_dma_hw_addr , entry ) ;
hw_used = 0 ;
/*
* Build the hardware transaction to copy from the scatterlist to
* the hardware , or from the hardware to the scatterlist
*
* If you are copying from the hardware to the scatterlist and it
* takes two hardware entries to fill an entire page , then both
* hardware entries will be coalesced into the same page
*
* If you are copying from the scatterlist to the hardware and a
* single page can fill two hardware entries , then the data will
* be read out of the page into the first hardware entry , and so on
*/
for_each_sg ( sgl , sg , sg_len , i ) {
sg_used = 0 ;
/* Loop until the entire scatterlist entry is used */
while ( sg_used < sg_dma_len ( sg ) ) {
/*
* If we ' ve used up the current hardware address / length
* pair , we need to load a new one
*
* This is done in a while loop so that descriptors with
* length = = 0 will be skipped
*/
while ( hw_used > = hw - > length ) {
/*
* If the current hardware entry is the last
* entry in the list , we ' re finished
*/
if ( list_is_last ( & hw - > entry , & slave - > addresses ) )
goto finished ;
/* Get the next hardware address/length pair */
hw = list_entry ( hw - > entry . next ,
struct fsl_dma_hw_addr , entry ) ;
hw_used = 0 ;
}
/* Allocate the link descriptor from DMA pool */
2010-01-06 16:34:05 +03:00
new = fsl_dma_alloc_descriptor ( chan ) ;
2009-09-09 04:53:04 +04:00
if ( ! new ) {
2010-01-06 16:34:05 +03:00
dev_err ( chan - > dev , " No free memory for "
2009-09-09 04:53:04 +04:00
" link descriptor \n " ) ;
goto fail ;
}
# ifdef FSL_DMA_LD_DEBUG
2010-01-06 16:34:05 +03:00
dev_dbg ( chan - > dev , " new link desc alloc %p \n " , new ) ;
2009-09-09 04:53:04 +04:00
# endif
/*
* Calculate the maximum number of bytes to transfer ,
* making sure it is less than the DMA controller limit
*/
copy = min_t ( size_t , sg_dma_len ( sg ) - sg_used ,
hw - > length - hw_used ) ;
copy = min_t ( size_t , copy , FSL_DMA_BCR_MAX_CNT ) ;
/*
* DMA_FROM_DEVICE
* from the hardware to the scatterlist
*
* DMA_TO_DEVICE
* from the scatterlist to the hardware
*/
if ( direction = = DMA_FROM_DEVICE ) {
dma_src = hw - > address + hw_used ;
dma_dst = sg_dma_address ( sg ) + sg_used ;
} else {
dma_src = sg_dma_address ( sg ) + sg_used ;
dma_dst = hw - > address + hw_used ;
}
/* Fill in the descriptor */
2010-01-06 16:34:05 +03:00
set_desc_cnt ( chan , & new - > hw , copy ) ;
set_desc_src ( chan , & new - > hw , dma_src ) ;
set_desc_dst ( chan , & new - > hw , dma_dst ) ;
2009-09-09 04:53:04 +04:00
/*
* If this is not the first descriptor , chain the
* current descriptor after the previous descriptor
*/
if ( ! first ) {
first = new ;
} else {
2010-01-06 16:34:05 +03:00
set_desc_next ( chan , & prev - > hw ,
2009-09-09 04:53:04 +04:00
new - > async_tx . phys ) ;
}
new - > async_tx . cookie = 0 ;
async_tx_ack ( & new - > async_tx ) ;
prev = new ;
sg_used + = copy ;
hw_used + = copy ;
/* Insert the link descriptor into the LD ring */
list_add_tail ( & new - > node , & first - > tx_list ) ;
}
}
finished :
/* All of the hardware address/length pairs had length == 0 */
if ( ! first | | ! new )
return NULL ;
new - > async_tx . flags = flags ;
new - > async_tx . cookie = - EBUSY ;
/* Set End-of-link to the last link descriptor of new list */
2010-01-06 16:34:05 +03:00
set_ld_eol ( chan , new ) ;
2009-09-09 04:53:04 +04:00
/* Enable extra controller features */
2010-01-06 16:34:05 +03:00
if ( chan - > set_src_loop_size )
chan - > set_src_loop_size ( chan , slave - > src_loop_size ) ;
2009-09-09 04:53:04 +04:00
2010-01-06 16:34:05 +03:00
if ( chan - > set_dst_loop_size )
chan - > set_dst_loop_size ( chan , slave - > dst_loop_size ) ;
2009-09-09 04:53:04 +04:00
2010-01-06 16:34:05 +03:00
if ( chan - > toggle_ext_start )
chan - > toggle_ext_start ( chan , slave - > external_start ) ;
2009-09-09 04:53:04 +04:00
2010-01-06 16:34:05 +03:00
if ( chan - > toggle_ext_pause )
chan - > toggle_ext_pause ( chan , slave - > external_pause ) ;
2009-09-09 04:53:04 +04:00
2010-01-06 16:34:05 +03:00
if ( chan - > set_request_count )
chan - > set_request_count ( chan , slave - > request_count ) ;
2009-09-09 04:53:04 +04:00
return & first - > async_tx ;
fail :
/* If first was not set, then we failed to allocate the very first
* descriptor , and we ' re done */
if ( ! first )
return NULL ;
/*
* First is set , so all of the descriptors we allocated have been added
* to first - > tx_list , INCLUDING " first " itself . Therefore we
* must traverse the list backwards freeing each descriptor in turn
*
* We ' re re - using variables for the loop , oh well
*/
2010-01-06 16:34:06 +03:00
fsldma_free_desc_list_reverse ( chan , & first - > tx_list ) ;
2009-09-09 04:53:04 +04:00
return NULL ;
}
2010-01-06 16:34:05 +03:00
static void fsl_dma_device_terminate_all ( struct dma_chan * dchan )
2009-09-09 04:53:04 +04:00
{
2010-01-06 16:34:05 +03:00
struct fsldma_chan * chan ;
2009-09-09 04:53:04 +04:00
unsigned long flags ;
2010-01-06 16:34:05 +03:00
if ( ! dchan )
2009-09-09 04:53:04 +04:00
return ;
2010-01-06 16:34:05 +03:00
chan = to_fsl_chan ( dchan ) ;
2009-09-09 04:53:04 +04:00
/* Halt the DMA engine */
2010-01-06 16:34:05 +03:00
dma_halt ( chan ) ;
2009-09-09 04:53:04 +04:00
2010-01-06 16:34:05 +03:00
spin_lock_irqsave ( & chan - > desc_lock , flags ) ;
2009-09-09 04:53:04 +04:00
/* Remove and free all of the descriptors in the LD queue */
2010-01-06 16:34:06 +03:00
fsldma_free_desc_list ( chan , & chan - > ld_pending ) ;
fsldma_free_desc_list ( chan , & chan - > ld_running ) ;
2009-09-09 04:53:04 +04:00
2010-01-06 16:34:05 +03:00
spin_unlock_irqrestore ( & chan - > desc_lock , flags ) ;
2009-09-09 04:53:04 +04:00
}
2008-03-01 17:42:48 +03:00
/**
* fsl_dma_update_completed_cookie - Update the completed cookie .
2010-01-06 16:34:05 +03:00
* @ chan : Freescale DMA channel
2010-01-06 16:34:06 +03:00
*
* CONTEXT : hardirq
2008-03-01 17:42:48 +03:00
*/
2010-01-06 16:34:05 +03:00
static void fsl_dma_update_completed_cookie ( struct fsldma_chan * chan )
2008-03-01 17:42:48 +03:00
{
2010-01-06 16:34:06 +03:00
struct fsl_desc_sw * desc ;
unsigned long flags ;
dma_cookie_t cookie ;
2008-03-01 17:42:48 +03:00
2010-01-06 16:34:06 +03:00
spin_lock_irqsave ( & chan - > desc_lock , flags ) ;
2008-03-01 17:42:48 +03:00
2010-01-06 16:34:06 +03:00
if ( list_empty ( & chan - > ld_running ) ) {
dev_dbg ( chan - > dev , " no running descriptors \n " ) ;
goto out_unlock ;
2008-03-01 17:42:48 +03:00
}
2010-01-06 16:34:06 +03:00
/* Get the last descriptor, update the cookie to that */
desc = to_fsl_desc ( chan - > ld_running . prev ) ;
if ( dma_is_idle ( chan ) )
cookie = desc - > async_tx . cookie ;
2010-03-01 08:18:16 +03:00
else {
2010-01-06 16:34:06 +03:00
cookie = desc - > async_tx . cookie - 1 ;
2010-03-01 08:18:16 +03:00
if ( unlikely ( cookie < DMA_MIN_COOKIE ) )
cookie = DMA_MAX_COOKIE ;
}
2010-01-06 16:34:06 +03:00
chan - > completed_cookie = cookie ;
out_unlock :
spin_unlock_irqrestore ( & chan - > desc_lock , flags ) ;
}
/**
* fsldma_desc_status - Check the status of a descriptor
* @ chan : Freescale DMA channel
* @ desc : DMA SW descriptor
*
* This function will return the status of the given descriptor
*/
static enum dma_status fsldma_desc_status ( struct fsldma_chan * chan ,
struct fsl_desc_sw * desc )
{
return dma_async_is_complete ( desc - > async_tx . cookie ,
chan - > completed_cookie ,
chan - > common . cookie ) ;
2008-03-01 17:42:48 +03:00
}
/**
* fsl_chan_ld_cleanup - Clean up link descriptors
2010-01-06 16:34:05 +03:00
* @ chan : Freescale DMA channel
2008-03-01 17:42:48 +03:00
*
* This function clean up the ld_queue of DMA channel .
*/
2010-01-06 16:34:05 +03:00
static void fsl_chan_ld_cleanup ( struct fsldma_chan * chan )
2008-03-01 17:42:48 +03:00
{
struct fsl_desc_sw * desc , * _desc ;
unsigned long flags ;
2010-01-06 16:34:05 +03:00
spin_lock_irqsave ( & chan - > desc_lock , flags ) ;
2008-03-01 17:42:48 +03:00
2010-01-06 16:34:06 +03:00
dev_dbg ( chan - > dev , " chan completed_cookie = %d \n " , chan - > completed_cookie ) ;
list_for_each_entry_safe ( desc , _desc , & chan - > ld_running , node ) {
2008-03-01 17:42:48 +03:00
dma_async_tx_callback callback ;
void * callback_param ;
2010-01-06 16:34:06 +03:00
if ( fsldma_desc_status ( chan , desc ) = = DMA_IN_PROGRESS )
2008-03-01 17:42:48 +03:00
break ;
2010-01-06 16:34:06 +03:00
/* Remove from the list of running transactions */
2008-03-01 17:42:48 +03:00
list_del ( & desc - > node ) ;
/* Run the link descriptor callback function */
2010-01-06 16:34:06 +03:00
callback = desc - > async_tx . callback ;
callback_param = desc - > async_tx . callback_param ;
2008-03-01 17:42:48 +03:00
if ( callback ) {
2010-01-06 16:34:05 +03:00
spin_unlock_irqrestore ( & chan - > desc_lock , flags ) ;
2010-01-06 16:34:06 +03:00
dev_dbg ( chan - > dev , " LD %p callback \n " , desc ) ;
2008-03-01 17:42:48 +03:00
callback ( callback_param ) ;
2010-01-06 16:34:05 +03:00
spin_lock_irqsave ( & chan - > desc_lock , flags ) ;
2008-03-01 17:42:48 +03:00
}
2010-01-06 16:34:06 +03:00
/* Run any dependencies, then free the descriptor */
dma_run_dependencies ( & desc - > async_tx ) ;
dma_pool_free ( chan - > desc_pool , desc , desc - > async_tx . phys ) ;
2008-03-01 17:42:48 +03:00
}
2010-01-06 16:34:06 +03:00
2010-01-06 16:34:05 +03:00
spin_unlock_irqrestore ( & chan - > desc_lock , flags ) ;
2008-03-01 17:42:48 +03:00
}
/**
2010-01-06 16:34:06 +03:00
* fsl_chan_xfer_ld_queue - transfer any pending transactions
2010-01-06 16:34:05 +03:00
* @ chan : Freescale DMA channel
2010-01-06 16:34:06 +03:00
*
* This will make sure that any pending transactions will be run .
* If the DMA controller is idle , it will be started . Otherwise ,
* the DMA controller ' s interrupt handler will start any pending
* transactions when it becomes idle .
2008-03-01 17:42:48 +03:00
*/
2010-01-06 16:34:05 +03:00
static void fsl_chan_xfer_ld_queue ( struct fsldma_chan * chan )
2008-03-01 17:42:48 +03:00
{
2010-01-06 16:34:06 +03:00
struct fsl_desc_sw * desc ;
2008-03-01 17:42:48 +03:00
unsigned long flags ;
2010-01-06 16:34:05 +03:00
spin_lock_irqsave ( & chan - > desc_lock , flags ) ;
2009-05-20 02:42:13 +04:00
2010-01-06 16:34:06 +03:00
/*
* If the list of pending descriptors is empty , then we
* don ' t need to do any work at all
*/
if ( list_empty ( & chan - > ld_pending ) ) {
dev_dbg ( chan - > dev , " no pending LDs \n " ) ;
2009-05-20 02:42:13 +04:00
goto out_unlock ;
2010-01-06 16:34:06 +03:00
}
2008-03-01 17:42:48 +03:00
2010-01-06 16:34:06 +03:00
/*
* The DMA controller is not idle , which means the interrupt
* handler will start any queued transactions when it runs
* at the end of the current transaction
*/
if ( ! dma_is_idle ( chan ) ) {
dev_dbg ( chan - > dev , " DMA controller still busy \n " ) ;
goto out_unlock ;
}
/*
* TODO :
* make sure the dma_halt ( ) function really un - wedges the
* controller as much as possible
*/
2010-01-06 16:34:05 +03:00
dma_halt ( chan ) ;
2008-03-01 17:42:48 +03:00
2010-01-06 16:34:06 +03:00
/*
* If there are some link descriptors which have not been
* transferred , we need to start the controller
2008-03-01 17:42:48 +03:00
*/
2010-01-06 16:34:06 +03:00
/*
* Move all elements from the queue of pending transactions
* onto the list of running transactions
*/
desc = list_first_entry ( & chan - > ld_pending , struct fsl_desc_sw , node ) ;
list_splice_tail_init ( & chan - > ld_pending , & chan - > ld_running ) ;
/*
* Program the descriptor ' s address into the DMA controller ,
* then start the DMA transaction
*/
set_cdar ( chan , desc - > async_tx . phys ) ;
dma_start ( chan ) ;
2009-05-20 02:42:13 +04:00
out_unlock :
2010-01-06 16:34:05 +03:00
spin_unlock_irqrestore ( & chan - > desc_lock , flags ) ;
2008-03-01 17:42:48 +03:00
}
/**
* fsl_dma_memcpy_issue_pending - Issue the DMA start command
2010-01-06 16:34:05 +03:00
* @ chan : Freescale DMA channel
2008-03-01 17:42:48 +03:00
*/
2010-01-06 16:34:05 +03:00
static void fsl_dma_memcpy_issue_pending ( struct dma_chan * dchan )
2008-03-01 17:42:48 +03:00
{
2010-01-06 16:34:05 +03:00
struct fsldma_chan * chan = to_fsl_chan ( dchan ) ;
fsl_chan_xfer_ld_queue ( chan ) ;
2008-03-01 17:42:48 +03:00
}
/**
* fsl_dma_is_complete - Determine the DMA status
2010-01-06 16:34:05 +03:00
* @ chan : Freescale DMA channel
2008-03-01 17:42:48 +03:00
*/
2010-01-06 16:34:05 +03:00
static enum dma_status fsl_dma_is_complete ( struct dma_chan * dchan ,
2008-03-01 17:42:48 +03:00
dma_cookie_t cookie ,
dma_cookie_t * done ,
dma_cookie_t * used )
{
2010-01-06 16:34:05 +03:00
struct fsldma_chan * chan = to_fsl_chan ( dchan ) ;
2008-03-01 17:42:48 +03:00
dma_cookie_t last_used ;
dma_cookie_t last_complete ;
2010-01-06 16:34:05 +03:00
fsl_chan_ld_cleanup ( chan ) ;
2008-03-01 17:42:48 +03:00
2010-01-06 16:34:05 +03:00
last_used = dchan - > cookie ;
last_complete = chan - > completed_cookie ;
2008-03-01 17:42:48 +03:00
if ( done )
* done = last_complete ;
if ( used )
* used = last_used ;
return dma_async_is_complete ( cookie , last_complete , last_used ) ;
}
2010-01-06 16:34:04 +03:00
/*----------------------------------------------------------------------------*/
/* Interrupt Handling */
/*----------------------------------------------------------------------------*/
2010-01-06 16:34:03 +03:00
static irqreturn_t fsldma_chan_irq ( int irq , void * data )
2008-03-01 17:42:48 +03:00
{
2010-01-06 16:34:05 +03:00
struct fsldma_chan * chan = data ;
2008-04-18 07:17:25 +04:00
int update_cookie = 0 ;
int xfer_ld_q = 0 ;
2010-01-06 16:34:05 +03:00
u32 stat ;
2008-03-01 17:42:48 +03:00
2010-01-06 16:34:06 +03:00
/* save and clear the status register */
2010-01-06 16:34:05 +03:00
stat = get_sr ( chan ) ;
2010-01-06 16:34:06 +03:00
set_sr ( chan , stat ) ;
dev_dbg ( chan - > dev , " irq: channel %d, stat = 0x%x \n " , chan - > id , stat ) ;
2008-03-01 17:42:48 +03:00
stat & = ~ ( FSL_DMA_SR_CB | FSL_DMA_SR_CH ) ;
if ( ! stat )
return IRQ_NONE ;
if ( stat & FSL_DMA_SR_TE )
2010-01-06 16:34:05 +03:00
dev_err ( chan - > dev , " Transfer Error! \n " ) ;
2008-03-01 17:42:48 +03:00
2010-01-06 16:34:06 +03:00
/*
* Programming Error
2008-03-19 04:45:00 +03:00
* The DMA_INTERRUPT async_tx is a NULL transfer , which will
* triger a PE interrupt .
*/
if ( stat & FSL_DMA_SR_PE ) {
2010-01-06 16:34:06 +03:00
dev_dbg ( chan - > dev , " irq: Programming Error INT \n " ) ;
2010-01-06 16:34:05 +03:00
if ( get_bcr ( chan ) = = 0 ) {
2008-03-19 04:45:00 +03:00
/* BCR register is 0, this is a DMA_INTERRUPT async_tx.
* Now , update the completed cookie , and continue the
* next uncompleted transfer .
*/
2008-04-18 07:17:25 +04:00
update_cookie = 1 ;
xfer_ld_q = 1 ;
2008-03-19 04:45:00 +03:00
}
stat & = ~ FSL_DMA_SR_PE ;
}
2010-01-06 16:34:06 +03:00
/*
* If the link descriptor segment transfer finishes ,
2008-03-01 17:42:48 +03:00
* we will recycle the used descriptor .
*/
if ( stat & FSL_DMA_SR_EOSI ) {
2010-01-06 16:34:06 +03:00
dev_dbg ( chan - > dev , " irq: End-of-segments INT \n " ) ;
dev_dbg ( chan - > dev , " irq: clndar 0x%llx, nlndar 0x%llx \n " ,
2010-01-06 16:34:05 +03:00
( unsigned long long ) get_cdar ( chan ) ,
( unsigned long long ) get_ndar ( chan ) ) ;
2008-03-01 17:42:48 +03:00
stat & = ~ FSL_DMA_SR_EOSI ;
2008-04-18 07:17:25 +04:00
update_cookie = 1 ;
}
2010-01-06 16:34:06 +03:00
/*
* For MPC8349 , EOCDI event need to update cookie
2008-04-18 07:17:25 +04:00
* and start the next transfer if it exist .
*/
if ( stat & FSL_DMA_SR_EOCDI ) {
2010-01-06 16:34:06 +03:00
dev_dbg ( chan - > dev , " irq: End-of-Chain link INT \n " ) ;
2008-04-18 07:17:25 +04:00
stat & = ~ FSL_DMA_SR_EOCDI ;
update_cookie = 1 ;
xfer_ld_q = 1 ;
2008-03-01 17:42:48 +03:00
}
2010-01-06 16:34:06 +03:00
/*
* If it current transfer is the end - of - transfer ,
2008-03-01 17:42:48 +03:00
* we should clear the Channel Start bit for
* prepare next transfer .
*/
2008-04-18 07:17:25 +04:00
if ( stat & FSL_DMA_SR_EOLNI ) {
2010-01-06 16:34:06 +03:00
dev_dbg ( chan - > dev , " irq: End-of-link INT \n " ) ;
2008-03-01 17:42:48 +03:00
stat & = ~ FSL_DMA_SR_EOLNI ;
2008-04-18 07:17:25 +04:00
xfer_ld_q = 1 ;
2008-03-01 17:42:48 +03:00
}
2008-04-18 07:17:25 +04:00
if ( update_cookie )
2010-01-06 16:34:05 +03:00
fsl_dma_update_completed_cookie ( chan ) ;
2008-04-18 07:17:25 +04:00
if ( xfer_ld_q )
2010-01-06 16:34:05 +03:00
fsl_chan_xfer_ld_queue ( chan ) ;
2008-03-01 17:42:48 +03:00
if ( stat )
2010-01-06 16:34:06 +03:00
dev_dbg ( chan - > dev , " irq: unhandled sr 0x%02x \n " , stat ) ;
2008-03-01 17:42:48 +03:00
2010-01-06 16:34:06 +03:00
dev_dbg ( chan - > dev , " irq: Exit \n " ) ;
2010-01-06 16:34:05 +03:00
tasklet_schedule ( & chan - > tasklet ) ;
2008-03-01 17:42:48 +03:00
return IRQ_HANDLED ;
}
2010-01-06 16:34:04 +03:00
static void dma_do_tasklet ( unsigned long data )
{
2010-01-06 16:34:05 +03:00
struct fsldma_chan * chan = ( struct fsldma_chan * ) data ;
fsl_chan_ld_cleanup ( chan ) ;
2010-01-06 16:34:04 +03:00
}
static irqreturn_t fsldma_ctrl_irq ( int irq , void * data )
2008-03-01 17:42:48 +03:00
{
2010-01-06 16:34:01 +03:00
struct fsldma_device * fdev = data ;
2010-01-06 16:34:04 +03:00
struct fsldma_chan * chan ;
unsigned int handled = 0 ;
u32 gsr , mask ;
int i ;
2008-03-01 17:42:48 +03:00
2010-01-06 16:34:03 +03:00
gsr = ( fdev - > feature & FSL_DMA_BIG_ENDIAN ) ? in_be32 ( fdev - > regs )
2010-01-06 16:34:04 +03:00
: in_le32 ( fdev - > regs ) ;
mask = 0xff000000 ;
dev_dbg ( fdev - > dev , " IRQ: gsr 0x%.8x \n " , gsr ) ;
2008-03-01 17:42:48 +03:00
2010-01-06 16:34:04 +03:00
for ( i = 0 ; i < FSL_DMA_MAX_CHANS_PER_DEVICE ; i + + ) {
chan = fdev - > chan [ i ] ;
if ( ! chan )
continue ;
if ( gsr & mask ) {
dev_dbg ( fdev - > dev , " IRQ: chan %d \n " , chan - > id ) ;
fsldma_chan_irq ( irq , chan ) ;
handled + + ;
}
gsr & = ~ mask ;
mask > > = 8 ;
}
return IRQ_RETVAL ( handled ) ;
2008-03-01 17:42:48 +03:00
}
2010-01-06 16:34:04 +03:00
static void fsldma_free_irqs ( struct fsldma_device * fdev )
2008-03-01 17:42:48 +03:00
{
2010-01-06 16:34:04 +03:00
struct fsldma_chan * chan ;
int i ;
if ( fdev - > irq ! = NO_IRQ ) {
dev_dbg ( fdev - > dev , " free per-controller IRQ \n " ) ;
free_irq ( fdev - > irq , fdev ) ;
return ;
}
for ( i = 0 ; i < FSL_DMA_MAX_CHANS_PER_DEVICE ; i + + ) {
chan = fdev - > chan [ i ] ;
if ( chan & & chan - > irq ! = NO_IRQ ) {
dev_dbg ( fdev - > dev , " free channel %d IRQ \n " , chan - > id ) ;
free_irq ( chan - > irq , chan ) ;
}
}
}
static int fsldma_request_irqs ( struct fsldma_device * fdev )
{
struct fsldma_chan * chan ;
int ret ;
int i ;
/* if we have a per-controller IRQ, use that */
if ( fdev - > irq ! = NO_IRQ ) {
dev_dbg ( fdev - > dev , " request per-controller IRQ \n " ) ;
ret = request_irq ( fdev - > irq , fsldma_ctrl_irq , IRQF_SHARED ,
" fsldma-controller " , fdev ) ;
return ret ;
}
/* no per-controller IRQ, use the per-channel IRQs */
for ( i = 0 ; i < FSL_DMA_MAX_CHANS_PER_DEVICE ; i + + ) {
chan = fdev - > chan [ i ] ;
if ( ! chan )
continue ;
if ( chan - > irq = = NO_IRQ ) {
dev_err ( fdev - > dev , " no interrupts property defined for "
" DMA channel %d. Please fix your "
" device tree \n " , chan - > id ) ;
ret = - ENODEV ;
goto out_unwind ;
}
dev_dbg ( fdev - > dev , " request channel %d IRQ \n " , chan - > id ) ;
ret = request_irq ( chan - > irq , fsldma_chan_irq , IRQF_SHARED ,
" fsldma-chan " , chan ) ;
if ( ret ) {
dev_err ( fdev - > dev , " unable to request IRQ for DMA "
" channel %d \n " , chan - > id ) ;
goto out_unwind ;
}
}
return 0 ;
out_unwind :
for ( /* none */ ; i > = 0 ; i - - ) {
chan = fdev - > chan [ i ] ;
if ( ! chan )
continue ;
if ( chan - > irq = = NO_IRQ )
continue ;
free_irq ( chan - > irq , chan ) ;
}
return ret ;
2008-03-01 17:42:48 +03:00
}
2010-01-06 16:34:01 +03:00
/*----------------------------------------------------------------------------*/
/* OpenFirmware Subsystem */
/*----------------------------------------------------------------------------*/
static int __devinit fsl_dma_chan_probe ( struct fsldma_device * fdev ,
2008-09-27 04:00:11 +04:00
struct device_node * node , u32 feature , const char * compatible )
2008-03-01 17:42:48 +03:00
{
2010-01-06 16:34:05 +03:00
struct fsldma_chan * chan ;
2010-01-06 16:34:00 +03:00
struct resource res ;
2008-03-01 17:42:48 +03:00
int err ;
/* alloc channel */
2010-01-06 16:34:05 +03:00
chan = kzalloc ( sizeof ( * chan ) , GFP_KERNEL ) ;
if ( ! chan ) {
2010-01-06 16:34:03 +03:00
dev_err ( fdev - > dev , " no free memory for DMA channels! \n " ) ;
err = - ENOMEM ;
goto out_return ;
}
/* ioremap registers for use */
2010-01-06 16:34:05 +03:00
chan - > regs = of_iomap ( node , 0 ) ;
if ( ! chan - > regs ) {
2010-01-06 16:34:03 +03:00
dev_err ( fdev - > dev , " unable to ioremap registers \n " ) ;
err = - ENOMEM ;
2010-01-06 16:34:05 +03:00
goto out_free_chan ;
2008-03-01 17:42:48 +03:00
}
2010-01-06 16:34:00 +03:00
err = of_address_to_resource ( node , 0 , & res ) ;
2008-03-01 17:42:48 +03:00
if ( err ) {
2010-01-06 16:34:03 +03:00
dev_err ( fdev - > dev , " unable to find 'reg' property \n " ) ;
goto out_iounmap_regs ;
2008-03-01 17:42:48 +03:00
}
2010-01-06 16:34:05 +03:00
chan - > feature = feature ;
2008-03-01 17:42:48 +03:00
if ( ! fdev - > feature )
2010-01-06 16:34:05 +03:00
fdev - > feature = chan - > feature ;
2008-03-01 17:42:48 +03:00
2010-01-06 16:34:03 +03:00
/*
* If the DMA device ' s feature is different than the feature
* of its channels , report the bug
2008-03-01 17:42:48 +03:00
*/
2010-01-06 16:34:05 +03:00
WARN_ON ( fdev - > feature ! = chan - > feature ) ;
2010-01-06 16:34:03 +03:00
2010-01-06 16:34:05 +03:00
chan - > dev = fdev - > dev ;
chan - > id = ( ( res . start - 0x100 ) & 0xfff ) > > 7 ;
if ( chan - > id > = FSL_DMA_MAX_CHANS_PER_DEVICE ) {
2010-01-06 16:34:03 +03:00
dev_err ( fdev - > dev , " too many channels for device \n " ) ;
2008-03-01 17:42:48 +03:00
err = - EINVAL ;
2010-01-06 16:34:03 +03:00
goto out_iounmap_regs ;
2008-03-01 17:42:48 +03:00
}
2010-01-06 16:34:05 +03:00
fdev - > chan [ chan - > id ] = chan ;
tasklet_init ( & chan - > tasklet , dma_do_tasklet , ( unsigned long ) chan ) ;
2010-01-06 16:34:03 +03:00
/* Initialize the channel */
2010-01-06 16:34:05 +03:00
dma_init ( chan ) ;
2008-03-01 17:42:48 +03:00
/* Clear cdar registers */
2010-01-06 16:34:05 +03:00
set_cdar ( chan , 0 ) ;
2008-03-01 17:42:48 +03:00
2010-01-06 16:34:05 +03:00
switch ( chan - > feature & FSL_DMA_IP_MASK ) {
2008-03-01 17:42:48 +03:00
case FSL_DMA_IP_85XX :
2010-01-06 16:34:05 +03:00
chan - > toggle_ext_pause = fsl_chan_toggle_ext_pause ;
2008-03-01 17:42:48 +03:00
case FSL_DMA_IP_83XX :
2010-01-06 16:34:05 +03:00
chan - > toggle_ext_start = fsl_chan_toggle_ext_start ;
chan - > set_src_loop_size = fsl_chan_set_src_loop_size ;
chan - > set_dst_loop_size = fsl_chan_set_dst_loop_size ;
chan - > set_request_count = fsl_chan_set_request_count ;
2008-03-01 17:42:48 +03:00
}
2010-01-06 16:34:05 +03:00
spin_lock_init ( & chan - > desc_lock ) ;
2010-01-06 16:34:06 +03:00
INIT_LIST_HEAD ( & chan - > ld_pending ) ;
INIT_LIST_HEAD ( & chan - > ld_running ) ;
2008-03-01 17:42:48 +03:00
2010-01-06 16:34:05 +03:00
chan - > common . device = & fdev - > common ;
2008-03-01 17:42:48 +03:00
2010-01-06 16:34:04 +03:00
/* find the IRQ line, if it exists in the device tree */
2010-01-06 16:34:05 +03:00
chan - > irq = irq_of_parse_and_map ( node , 0 ) ;
2010-01-06 16:34:04 +03:00
2008-03-01 17:42:48 +03:00
/* Add the channel to DMA device channel list */
2010-01-06 16:34:05 +03:00
list_add_tail ( & chan - > common . device_node , & fdev - > common . channels ) ;
2008-03-01 17:42:48 +03:00
fdev - > common . chancnt + + ;
2010-01-06 16:34:05 +03:00
dev_info ( fdev - > dev , " #%d (%s), irq %d \n " , chan - > id , compatible ,
chan - > irq ! = NO_IRQ ? chan - > irq : fdev - > irq ) ;
2008-03-01 17:42:48 +03:00
return 0 ;
2008-05-30 10:25:45 +04:00
2010-01-06 16:34:03 +03:00
out_iounmap_regs :
2010-01-06 16:34:05 +03:00
iounmap ( chan - > regs ) ;
out_free_chan :
kfree ( chan ) ;
2010-01-06 16:34:03 +03:00
out_return :
2008-03-01 17:42:48 +03:00
return err ;
}
2010-01-06 16:34:05 +03:00
static void fsl_dma_chan_remove ( struct fsldma_chan * chan )
2008-03-01 17:42:48 +03:00
{
2010-01-06 16:34:05 +03:00
irq_dispose_mapping ( chan - > irq ) ;
list_del ( & chan - > common . device_node ) ;
iounmap ( chan - > regs ) ;
kfree ( chan ) ;
2008-03-01 17:42:48 +03:00
}
2010-01-06 16:34:03 +03:00
static int __devinit fsldma_of_probe ( struct of_device * op ,
2008-03-01 17:42:48 +03:00
const struct of_device_id * match )
{
2010-01-06 16:34:01 +03:00
struct fsldma_device * fdev ;
2008-09-27 04:00:11 +04:00
struct device_node * child ;
2010-01-06 16:34:03 +03:00
int err ;
2008-03-01 17:42:48 +03:00
2010-01-06 16:34:01 +03:00
fdev = kzalloc ( sizeof ( * fdev ) , GFP_KERNEL ) ;
2008-03-01 17:42:48 +03:00
if ( ! fdev ) {
2010-01-06 16:34:03 +03:00
dev_err ( & op - > dev , " No enough memory for 'priv' \n " ) ;
err = - ENOMEM ;
goto out_return ;
2008-03-01 17:42:48 +03:00
}
2010-01-06 16:34:03 +03:00
fdev - > dev = & op - > dev ;
2008-03-01 17:42:48 +03:00
INIT_LIST_HEAD ( & fdev - > common . channels ) ;
2010-01-06 16:34:03 +03:00
/* ioremap the registers for use */
2010-04-14 03:12:29 +04:00
fdev - > regs = of_iomap ( op - > dev . of_node , 0 ) ;
2010-01-06 16:34:03 +03:00
if ( ! fdev - > regs ) {
dev_err ( & op - > dev , " unable to ioremap registers \n " ) ;
err = - ENOMEM ;
goto out_free_fdev ;
2008-03-01 17:42:48 +03:00
}
2010-01-06 16:34:04 +03:00
/* map the channel IRQ if it exists, but don't hookup the handler yet */
2010-04-14 03:12:29 +04:00
fdev - > irq = irq_of_parse_and_map ( op - > dev . of_node , 0 ) ;
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dma_cap_set ( DMA_MEMCPY , fdev - > common . cap_mask ) ;
dma_cap_set ( DMA_INTERRUPT , fdev - > common . cap_mask ) ;
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dma_cap_set ( DMA_SLAVE , fdev - > common . cap_mask ) ;
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fdev - > common . device_alloc_chan_resources = fsl_dma_alloc_chan_resources ;
fdev - > common . device_free_chan_resources = fsl_dma_free_chan_resources ;
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fdev - > common . device_prep_dma_interrupt = fsl_dma_prep_interrupt ;
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fdev - > common . device_prep_dma_memcpy = fsl_dma_prep_memcpy ;
fdev - > common . device_is_tx_complete = fsl_dma_is_complete ;
fdev - > common . device_issue_pending = fsl_dma_memcpy_issue_pending ;
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fdev - > common . device_prep_slave_sg = fsl_dma_prep_slave_sg ;
fdev - > common . device_terminate_all = fsl_dma_device_terminate_all ;
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fdev - > common . dev = & op - > dev ;
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dev_set_drvdata ( & op - > dev , fdev ) ;
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/*
* We cannot use of_platform_bus_probe ( ) because there is no
* of_platform_bus_remove ( ) . Instead , we manually instantiate every DMA
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* channel object .
*/
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for_each_child_of_node ( op - > dev . of_node , child ) {
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if ( of_device_is_compatible ( child , " fsl,eloplus-dma-channel " ) ) {
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fsl_dma_chan_probe ( fdev , child ,
FSL_DMA_IP_85XX | FSL_DMA_BIG_ENDIAN ,
" fsl,eloplus-dma-channel " ) ;
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}
if ( of_device_is_compatible ( child , " fsl,elo-dma-channel " ) ) {
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fsl_dma_chan_probe ( fdev , child ,
FSL_DMA_IP_83XX | FSL_DMA_LITTLE_ENDIAN ,
" fsl,elo-dma-channel " ) ;
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}
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}
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/*
* Hookup the IRQ handler ( s )
*
* If we have a per - controller interrupt , we prefer that to the
* per - channel interrupts to reduce the number of shared interrupt
* handlers on the same IRQ line
*/
err = fsldma_request_irqs ( fdev ) ;
if ( err ) {
dev_err ( fdev - > dev , " unable to request IRQs \n " ) ;
goto out_free_fdev ;
}
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dma_async_device_register ( & fdev - > common ) ;
return 0 ;
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out_free_fdev :
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irq_dispose_mapping ( fdev - > irq ) ;
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kfree ( fdev ) ;
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out_return :
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return err ;
}
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static int fsldma_of_remove ( struct of_device * op )
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{
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struct fsldma_device * fdev ;
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unsigned int i ;
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fdev = dev_get_drvdata ( & op - > dev ) ;
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dma_async_device_unregister ( & fdev - > common ) ;
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fsldma_free_irqs ( fdev ) ;
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for ( i = 0 ; i < FSL_DMA_MAX_CHANS_PER_DEVICE ; i + + ) {
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if ( fdev - > chan [ i ] )
fsl_dma_chan_remove ( fdev - > chan [ i ] ) ;
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}
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iounmap ( fdev - > regs ) ;
dev_set_drvdata ( & op - > dev , NULL ) ;
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kfree ( fdev ) ;
return 0 ;
}
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static const struct of_device_id fsldma_of_ids [ ] = {
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{ . compatible = " fsl,eloplus-dma " , } ,
{ . compatible = " fsl,elo-dma " , } ,
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{ }
} ;
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static struct of_platform_driver fsldma_of_driver = {
. name = " fsl-elo-dma " ,
. match_table = fsldma_of_ids ,
. probe = fsldma_of_probe ,
. remove = fsldma_of_remove ,
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} ;
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/*----------------------------------------------------------------------------*/
/* Module Init / Exit */
/*----------------------------------------------------------------------------*/
static __init int fsldma_init ( void )
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{
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int ret ;
pr_info ( " Freescale Elo / Elo Plus DMA driver \n " ) ;
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ret = of_register_platform_driver ( & fsldma_of_driver ) ;
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if ( ret )
pr_err ( " fsldma: failed to register platform driver \n " ) ;
return ret ;
}
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static void __exit fsldma_exit ( void )
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{
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of_unregister_platform_driver ( & fsldma_of_driver ) ;
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}
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subsys_initcall ( fsldma_init ) ;
module_exit ( fsldma_exit ) ;
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MODULE_DESCRIPTION ( " Freescale Elo / Elo Plus DMA driver " ) ;
MODULE_LICENSE ( " GPL " ) ;