linux_dsm_epyc7002/arch/arm/mach-sa1100/sleep.S
Will Deacon d0a533b182 ARM: 7452/1: delay: allow timer-based delay implementation to be selected
This patch allows a timer-based delay implementation to be selected by
switching the delay routines over to use get_cycles, which is
implemented in terms of read_current_timer. This further allows us to
skip the loop calibration and have a consistent delay function in the
face of core frequency scaling.

To avoid the pain of dealing with memory-mapped counters, this
implementation uses the co-processor interface to the architected timers
when they are available. The previous loop-based implementation is
kept around for CPUs without the architected timers and we retain both
the maximum delay (2ms) and the corresponding conversion factors for
determining the number of loops required for a given interval. Since the
indirection of the timer routines will only work when called from C,
the sa1100 sleep routines are modified to branch to the loop-based delay
functions directly.

Tested-by: Shinya Kuribayashi <shinya.kuribayashi.px@renesas.com>
Reviewed-by: Stephen Boyd <sboyd@codeaurora.org>
Signed-off-by: Will Deacon <will.deacon@arm.com>
Signed-off-by: Russell King <rmk+kernel@arm.linux.org.uk>
2012-07-09 17:42:23 +01:00

144 lines
2.8 KiB
ArmAsm

/*
* SA11x0 Assembler Sleep/WakeUp Management Routines
*
* Copyright (c) 2001 Cliff Brake <cbrake@accelent.com>
*
* This program is free software; you can redistribute it and/or
* modify it under the terms of the GNU General Public License.
*
* History:
*
* 2001-02-06: Cliff Brake Initial code
*
* 2001-08-29: Nicolas Pitre Simplified.
*
* 2002-05-27: Nicolas Pitre Revisited, more cleanup and simplification.
* Storage is on the stack now.
*/
#include <linux/linkage.h>
#include <asm/assembler.h>
#include <mach/hardware.h>
.text
/*
* sa1100_finish_suspend()
*
* Causes sa11x0 to enter sleep state
*
* Must be aligned to a cacheline.
*/
.balign 32
ENTRY(sa1100_finish_suspend)
@ disable clock switching
mcr p15, 0, r1, c15, c2, 2
ldr r6, =MDREFR
ldr r4, [r6]
orr r4, r4, #MDREFR_K1DB2
ldr r5, =PPCR
@ Pre-load __loop_udelay into the I-cache
mov r0, #1
bl __loop_udelay
mov r0, r0
@ The following must all exist in a single cache line to
@ avoid accessing memory until this sequence is complete,
@ otherwise we occasionally hang.
@ Adjust memory timing before lowering CPU clock
str r4, [r6]
@ delay 90us and set CPU PLL to lowest speed
@ fixes resume problem on high speed SA1110
mov r0, #90
bl __loop_udelay
mov r1, #0
str r1, [r5]
mov r0, #90
bl __loop_udelay
/*
* SA1110 SDRAM controller workaround. register values:
*
* r0 = &MSC0
* r1 = &MSC1
* r2 = &MSC2
* r3 = MSC0 value
* r4 = MSC1 value
* r5 = MSC2 value
* r6 = &MDREFR
* r7 = first MDREFR value
* r8 = second MDREFR value
* r9 = &MDCNFG
* r10 = MDCNFG value
* r11 = third MDREFR value
* r12 = &PMCR
* r13 = PMCR value (1)
*/
ldr r0, =MSC0
ldr r1, =MSC1
ldr r2, =MSC2
ldr r3, [r0]
bic r3, r3, #FMsk(MSC_RT)
bic r3, r3, #FMsk(MSC_RT)<<16
ldr r4, [r1]
bic r4, r4, #FMsk(MSC_RT)
bic r4, r4, #FMsk(MSC_RT)<<16
ldr r5, [r2]
bic r5, r5, #FMsk(MSC_RT)
bic r5, r5, #FMsk(MSC_RT)<<16
ldr r7, [r6]
bic r7, r7, #0x0000FF00
bic r7, r7, #0x000000F0
orr r8, r7, #MDREFR_SLFRSH
ldr r9, =MDCNFG
ldr r10, [r9]
bic r10, r10, #(MDCNFG_DE0+MDCNFG_DE1)
bic r10, r10, #(MDCNFG_DE2+MDCNFG_DE3)
bic r11, r8, #MDREFR_SLFRSH
bic r11, r11, #MDREFR_E1PIN
ldr r12, =PMCR
mov r13, #PMCR_SF
b sa1110_sdram_controller_fix
.align 5
sa1110_sdram_controller_fix:
@ Step 1 clear RT field of all MSCx registers
str r3, [r0]
str r4, [r1]
str r5, [r2]
@ Step 2 clear DRI field in MDREFR
str r7, [r6]
@ Step 3 set SLFRSH bit in MDREFR
str r8, [r6]
@ Step 4 clear DE bis in MDCNFG
str r10, [r9]
@ Step 5 clear DRAM refresh control register
str r11, [r6]
@ Wow, now the hardware suspend request pins can be used, that makes them functional for
@ about 7 ns out of the entire time that the CPU is running!
@ Step 6 set force sleep bit in PMCR
str r13, [r12]
20: b 20b @ loop waiting for sleep