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/*
* linux / arch / arm / mach - sa1100 / cpu - sa1110 . c
*
* Copyright ( C ) 2001 Russell King
*
* This program is free software ; you can redistribute it and / or modify
* it under the terms of the GNU General Public License version 2 as
* published by the Free Software Foundation .
*
* Note : there are two erratas that apply to the SA1110 here :
* 7 - SDRAM auto - power - up failure ( rev A0 )
* 13 - Corruption of internal register reads / writes following
* SDRAM reads ( rev A0 , B0 , B1 )
*
* We ignore rev . A0 and B0 devices ; I don ' t think they ' re worth supporting .
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*
* The SDRAM type can be passed on the command line as cpu_sa1110 . sdram = type
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*/
# include <linux/cpufreq.h>
# include <linux/delay.h>
# include <linux/init.h>
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# include <linux/io.h>
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# include <linux/kernel.h>
# include <linux/moduleparam.h>
# include <linux/types.h>
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# include <asm/cputype.h>
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# include <asm/mach-types.h>
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# include <mach/generic.h>
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# include <mach/hardware.h>
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# undef DEBUG
struct sdram_params {
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const char name [ 20 ] ;
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u_char rows ; /* bits */
u_char cas_latency ; /* cycles */
u_char tck ; /* clock cycle time (ns) */
u_char trcd ; /* activate to r/w (ns) */
u_char trp ; /* precharge to activate (ns) */
u_char twr ; /* write recovery time (ns) */
u_short refresh ; /* refresh time for array (us) */
} ;
struct sdram_info {
u_int mdcnfg ;
u_int mdrefr ;
u_int mdcas [ 3 ] ;
} ;
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static struct sdram_params sdram_tbl [ ] __initdata = {
{ /* Toshiba TC59SM716 CL2 */
. name = " TC59SM716-CL2 " ,
. rows = 12 ,
. tck = 10 ,
. trcd = 20 ,
. trp = 20 ,
. twr = 10 ,
. refresh = 64000 ,
. cas_latency = 2 ,
} , { /* Toshiba TC59SM716 CL3 */
. name = " TC59SM716-CL3 " ,
. rows = 12 ,
. tck = 8 ,
. trcd = 20 ,
. trp = 20 ,
. twr = 8 ,
. refresh = 64000 ,
. cas_latency = 3 ,
} , { /* Samsung K4S641632D TC75 */
. name = " K4S641632D " ,
. rows = 14 ,
. tck = 9 ,
. trcd = 27 ,
. trp = 20 ,
. twr = 9 ,
. refresh = 64000 ,
. cas_latency = 3 ,
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} , { /* Samsung K4S281632B-1H */
. name = " K4S281632B-1H " ,
. rows = 12 ,
. tck = 10 ,
. trp = 20 ,
. twr = 10 ,
. refresh = 64000 ,
. cas_latency = 3 ,
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} , { /* Samsung KM416S4030CT */
. name = " KM416S4030CT " ,
. rows = 13 ,
. tck = 8 ,
. trcd = 24 , /* 3 CLKs */
. trp = 24 , /* 3 CLKs */
. twr = 16 , /* Trdl: 2 CLKs */
. refresh = 64000 ,
. cas_latency = 3 ,
} , { /* Winbond W982516AH75L CL3 */
. name = " W982516AH75L " ,
. rows = 16 ,
. tck = 8 ,
. trcd = 20 ,
. trp = 20 ,
. twr = 8 ,
. refresh = 64000 ,
. cas_latency = 3 ,
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} , { /* Micron MT48LC8M16A2TG-75 */
. name = " MT48LC8M16A2TG-75 " ,
. rows = 12 ,
. tck = 8 ,
. trcd = 20 ,
. trp = 20 ,
. twr = 8 ,
. refresh = 64000 ,
. cas_latency = 3 ,
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} ,
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} ;
static struct sdram_params sdram_params ;
/*
* Given a period in ns and frequency in khz , calculate the number of
* cycles of frequency in period . Note that we round up to the next
* cycle , even if we are only slightly over .
*/
static inline u_int ns_to_cycles ( u_int ns , u_int khz )
{
return ( ns * khz + 999999 ) / 1000000 ;
}
/*
* Create the MDCAS register bit pattern .
*/
static inline void set_mdcas ( u_int * mdcas , int delayed , u_int rcd )
{
u_int shift ;
rcd = 2 * rcd - 1 ;
shift = delayed + 1 + rcd ;
mdcas [ 0 ] = ( 1 < < rcd ) - 1 ;
mdcas [ 0 ] | = 0x55555555 < < shift ;
mdcas [ 1 ] = mdcas [ 2 ] = 0x55555555 < < ( shift & 1 ) ;
}
static void
sdram_calculate_timing ( struct sdram_info * sd , u_int cpu_khz ,
struct sdram_params * sdram )
{
u_int mem_khz , sd_khz , trp , twr ;
mem_khz = cpu_khz / 2 ;
sd_khz = mem_khz ;
/*
* If SDCLK would invalidate the SDRAM timings ,
* run SDCLK at half speed .
*
* CPU steppings prior to B2 must either run the memory at
* half speed or use delayed read latching ( errata 13 ) .
*/
if ( ( ns_to_cycles ( sdram - > tck , sd_khz ) > 1 ) | |
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( read_cpuid_revision ( ) < ARM_CPU_REV_SA1110_B2 & & sd_khz < 62000 ) )
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sd_khz / = 2 ;
sd - > mdcnfg = MDCNFG & 0x007f007f ;
twr = ns_to_cycles ( sdram - > twr , mem_khz ) ;
/* trp should always be >1 */
trp = ns_to_cycles ( sdram - > trp , mem_khz ) - 1 ;
if ( trp < 1 )
trp = 1 ;
sd - > mdcnfg | = trp < < 8 ;
sd - > mdcnfg | = trp < < 24 ;
sd - > mdcnfg | = sdram - > cas_latency < < 12 ;
sd - > mdcnfg | = sdram - > cas_latency < < 28 ;
sd - > mdcnfg | = twr < < 14 ;
sd - > mdcnfg | = twr < < 30 ;
sd - > mdrefr = MDREFR & 0xffbffff0 ;
sd - > mdrefr | = 7 ;
if ( sd_khz ! = mem_khz )
sd - > mdrefr | = MDREFR_K1DB2 ;
/* initial number of '1's in MDCAS + 1 */
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set_mdcas ( sd - > mdcas , sd_khz > = 62000 ,
ns_to_cycles ( sdram - > trcd , mem_khz ) ) ;
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# ifdef DEBUG
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printk ( KERN_DEBUG " MDCNFG: %08x MDREFR: %08x MDCAS0: %08x MDCAS1: %08x MDCAS2: %08x \n " ,
sd - > mdcnfg , sd - > mdrefr , sd - > mdcas [ 0 ] , sd - > mdcas [ 1 ] ,
sd - > mdcas [ 2 ] ) ;
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# endif
}
/*
* Set the SDRAM refresh rate .
*/
static inline void sdram_set_refresh ( u_int dri )
{
MDREFR = ( MDREFR & 0xffff000f ) | ( dri < < 4 ) ;
( void ) MDREFR ;
}
/*
* Update the refresh period . We do this such that we always refresh
* the SDRAMs within their permissible period . The refresh period is
* always a multiple of the memory clock ( fixed at cpu_clock / 2 ) .
*
* FIXME : we don ' t currently take account of burst accesses here ,
* but neither do Intels DM nor Angel .
*/
static void
sdram_update_refresh ( u_int cpu_khz , struct sdram_params * sdram )
{
u_int ns_row = ( sdram - > refresh * 1000 ) > > sdram - > rows ;
u_int dri = ns_to_cycles ( ns_row , cpu_khz / 2 ) / 32 ;
# ifdef DEBUG
mdelay ( 250 ) ;
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printk ( KERN_DEBUG " new dri value = %d \n " , dri ) ;
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# endif
sdram_set_refresh ( dri ) ;
}
/*
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* Ok , set the CPU frequency .
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*/
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static int sa1110_target ( struct cpufreq_policy * policy , unsigned int ppcr )
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{
struct sdram_params * sdram = & sdram_params ;
struct sdram_info sd ;
unsigned long flags ;
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unsigned int unused ;
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sdram_calculate_timing ( & sd , sa11x0_freq_table [ ppcr ] . frequency , sdram ) ;
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#if 0
/*
* These values are wrong according to the SA1110 documentation
* and errata , but they seem to work . Need to get a storage
* scope on to the SDRAM signals to work out why .
*/
if ( policy - > max < 147500 ) {
sd . mdrefr | = MDREFR_K1DB2 ;
sd . mdcas [ 0 ] = 0xaaaaaa7f ;
} else {
sd . mdrefr & = ~ MDREFR_K1DB2 ;
sd . mdcas [ 0 ] = 0xaaaaaa9f ;
}
sd . mdcas [ 1 ] = 0xaaaaaaaa ;
sd . mdcas [ 2 ] = 0xaaaaaaaa ;
# endif
/*
* The clock could be going away for some time . Set the SDRAMs
* to refresh rapidly ( every 64 memory clock cycles ) . To get
* through the whole array , we need to wait 262144 mclk cycles .
* We wait 20 ms to be safe .
*/
sdram_set_refresh ( 2 ) ;
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if ( ! irqs_disabled ( ) )
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msleep ( 20 ) ;
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else
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mdelay ( 20 ) ;
/*
* Reprogram the DRAM timings with interrupts disabled , and
* ensure that we are doing this within a complete cache line .
* This means that we won ' t access SDRAM for the duration of
* the programming .
*/
local_irq_save ( flags ) ;
asm ( " mcr p15, 0, %0, c7, c10, 4 " : : " r " ( 0 ) ) ;
udelay ( 10 ) ;
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__asm__ __volatile__ ( " \n \
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b 2f \ n \
. align 5 \ n \
1 : str % 3 , [ % 1 , # 0 ] @ MDCNFG \ n \
str % 4 , [ % 1 , # 28 ] @ MDREFR \ n \
str % 5 , [ % 1 , # 4 ] @ MDCAS0 \ n \
str % 6 , [ % 1 , # 8 ] @ MDCAS1 \ n \
str % 7 , [ % 1 , # 12 ] @ MDCAS2 \ n \
str % 8 , [ % 2 , # 0 ] @ PPCR \ n \
ldr % 0 , [ % 1 , # 0 ] \ n \
b 3f \ n \
2 : b 1 b \ n \
3 : nop \ n \
nop "
: " =&r " ( unused )
: " r " ( & MDCNFG ) , " r " ( & PPCR ) , " 0 " ( sd . mdcnfg ) ,
" r " ( sd . mdrefr ) , " r " ( sd . mdcas [ 0 ] ) ,
" r " ( sd . mdcas [ 1 ] ) , " r " ( sd . mdcas [ 2 ] ) , " r " ( ppcr ) ) ;
local_irq_restore ( flags ) ;
/*
* Now , return the SDRAM refresh back to normal .
*/
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sdram_update_refresh ( sa11x0_freq_table [ ppcr ] . frequency , sdram ) ;
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return 0 ;
}
static int __init sa1110_cpu_init ( struct cpufreq_policy * policy )
{
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return cpufreq_generic_init ( policy , sa11x0_freq_table , CPUFREQ_ETERNAL ) ;
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}
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/* sa1110_driver needs __refdata because it must remain after init registers
* it with cpufreq_register_driver ( ) */
static struct cpufreq_driver sa1110_driver __refdata = {
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. flags = CPUFREQ_STICKY | CPUFREQ_NEED_INITIAL_FREQ_CHECK ,
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. verify = cpufreq_generic_frequency_table_verify ,
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. target_index = sa1110_target ,
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. get = sa11x0_getspeed ,
. init = sa1110_cpu_init ,
. name = " sa1110 " ,
} ;
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static struct sdram_params * sa1110_find_sdram ( const char * name )
{
struct sdram_params * sdram ;
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for ( sdram = sdram_tbl ; sdram < sdram_tbl + ARRAY_SIZE ( sdram_tbl ) ;
sdram + + )
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if ( strcmp ( name , sdram - > name ) = = 0 )
return sdram ;
return NULL ;
}
static char sdram_name [ 16 ] ;
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static int __init sa1110_clk_init ( void )
{
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struct sdram_params * sdram ;
const char * name = sdram_name ;
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if ( ! cpu_is_sa1110 ( ) )
return - ENODEV ;
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if ( ! name [ 0 ] ) {
if ( machine_is_assabet ( ) )
name = " TC59SM716-CL3 " ;
if ( machine_is_pt_system3 ( ) )
name = " K4S641632D " ;
if ( machine_is_h3100 ( ) )
name = " KM416S4030CT " ;
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if ( machine_is_jornada720 ( ) | | machine_is_h3600 ( ) )
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name = " K4S281632B-1H " ;
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if ( machine_is_nanoengine ( ) )
name = " MT48LC8M16A2TG-75 " ;
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}
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sdram = sa1110_find_sdram ( name ) ;
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if ( sdram ) {
printk ( KERN_DEBUG " SDRAM: tck: %d trcd: %d trp: %d "
" twr: %d refresh: %d cas_latency: %d \n " ,
sdram - > tck , sdram - > trcd , sdram - > trp ,
sdram - > twr , sdram - > refresh , sdram - > cas_latency ) ;
memcpy ( & sdram_params , sdram , sizeof ( sdram_params ) ) ;
return cpufreq_register_driver ( & sa1110_driver ) ;
}
return 0 ;
}
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module_param_string ( sdram , sdram_name , sizeof ( sdram_name ) , 0 ) ;
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arch_initcall ( sa1110_clk_init ) ;