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openwrt-xburst/target/linux/xburst/files-2.6.27/arch/mips/jz4730/pm.c
Mirko Vogt dc3d3f1c49 yet another patchset - 2.6.27
it's basically also provided by ingenic and nativly based on 2.6.27,
adjusted to fit into the OpenWrt-environment
2009-10-28 03:13:11 +08:00

1099 lines
30 KiB
C

/*
* linux/arch/mips/jz4730/pm.c
*
* Jz4730 Power Management Routines
*
* Copyright 2005 Ingenic Semiconductor
* Wei Jianli <jlwei@ingenic.cn>
* Huang Lihong<lhhuang@ingenic.cn>
* This program 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/pm.h>
#include <linux/pm_legacy.h>
#include <linux/sched.h>
#include <linux/proc_fs.h>
#include <linux/sysctl.h>
#include <asm/cacheops.h>
#include <asm/jzsoc.h>
extern void jz_cpu_suspend(void);
extern void jz_cpu_resume(void);
static void jz_board_pm_suspend(void);
#define SAVE(x,s) sleep_save[SLEEP_SAVE_##x] = REG##s(x)
#define RESTORE(x,s) REG##s(x) = sleep_save[SLEEP_SAVE_##x]
/*
* List of global jz4730 peripheral registers to preserve.
* More ones like core register and general purpose register values
* are preserved with the stack pointer in sleep.S.
*/
enum { SLEEP_SAVE_START = 0,
/* CPM */
SLEEP_SAVE_CPM_MSCR, SLEEP_SAVE_CPM_PLCR1,
/* WDT */
SLEEP_SAVE_WDT_WTCNT, SLEEP_SAVE_WDT_WTCSR,
/* OST */
SLEEP_SAVE_OST_TER,
SLEEP_SAVE_OST_TCSR0, SLEEP_SAVE_OST_TCSR1, SLEEP_SAVE_OST_TCSR2,
SLEEP_SAVE_OST_TRDR0, SLEEP_SAVE_OST_TRDR1, SLEEP_SAVE_OST_TRDR2,
SLEEP_SAVE_OST_TCNT0, SLEEP_SAVE_OST_TCNT1, SLEEP_SAVE_OST_TCNT2,
/* HARB */
SLEEP_SAVE_HARB_HAPOR, SLEEP_SAVE_HARB_HMCTR, SLEEP_SAVE_HARB_HMLTR,
/* EMC */
SLEEP_SAVE_EMC_SMCR0, SLEEP_SAVE_EMC_SMCR1, SLEEP_SAVE_EMC_SMCR2, SLEEP_SAVE_EMC_SMCR3,
SLEEP_SAVE_EMC_SMCR4, SLEEP_SAVE_EMC_SMCR5,
/* GPIO */
SLEEP_SAVE_GPIO_GPDR0, SLEEP_SAVE_GPIO_GPDR1, SLEEP_SAVE_GPIO_GPDR2, SLEEP_SAVE_GPIO_GPDR3,
SLEEP_SAVE_GPIO_GPDIR0, SLEEP_SAVE_GPIO_GPDIR1, SLEEP_SAVE_GPIO_GPDIR2, SLEEP_SAVE_GPIO_GPDIR3,
SLEEP_SAVE_GPIO_GPODR0, SLEEP_SAVE_GPIO_GPODR1, SLEEP_SAVE_GPIO_GPODR2, SLEEP_SAVE_GPIO_GPODR3,
SLEEP_SAVE_GPIO_GPPUR0, SLEEP_SAVE_GPIO_GPPUR1, SLEEP_SAVE_GPIO_GPPUR2, SLEEP_SAVE_GPIO_GPPUR3,
SLEEP_SAVE_GPIO_GPALR0, SLEEP_SAVE_GPIO_GPALR1, SLEEP_SAVE_GPIO_GPALR2, SLEEP_SAVE_GPIO_GPALR3,
SLEEP_SAVE_GPIO_GPAUR0, SLEEP_SAVE_GPIO_GPAUR1, SLEEP_SAVE_GPIO_GPAUR2, SLEEP_SAVE_GPIO_GPAUR3,
SLEEP_SAVE_GPIO_GPIDLR0, SLEEP_SAVE_GPIO_GPIDLR1, SLEEP_SAVE_GPIO_GPIDLR2, SLEEP_SAVE_GPIO_GPIDLR3,
SLEEP_SAVE_GPIO_GPIDUR0, SLEEP_SAVE_GPIO_GPIDUR1, SLEEP_SAVE_GPIO_GPIDUR2, SLEEP_SAVE_GPIO_GPIDUR3,
SLEEP_SAVE_GPIO_GPIER0, SLEEP_SAVE_GPIO_GPIER1, SLEEP_SAVE_GPIO_GPIER2, SLEEP_SAVE_GPIO_GPIER3,
SLEEP_SAVE_GPIO_GPIMR0, SLEEP_SAVE_GPIO_GPIMR1, SLEEP_SAVE_GPIO_GPIMR2, SLEEP_SAVE_GPIO_GPIMR3,
SLEEP_SAVE_GPIO_GPFR0, SLEEP_SAVE_GPIO_GPFR1, SLEEP_SAVE_GPIO_GPFR2, SLEEP_SAVE_GPIO_GPFR3,
/* UART(0-3) */
SLEEP_SAVE_UART0_IER, SLEEP_SAVE_UART0_LCR, SLEEP_SAVE_UART0_MCR, SLEEP_SAVE_UART0_SPR, SLEEP_SAVE_UART0_DLLR, SLEEP_SAVE_UART0_DLHR,
SLEEP_SAVE_UART1_IER, SLEEP_SAVE_UART1_LCR, SLEEP_SAVE_UART1_MCR, SLEEP_SAVE_UART1_SPR, SLEEP_SAVE_UART1_DLLR, SLEEP_SAVE_UART1_DLHR,
SLEEP_SAVE_UART2_IER, SLEEP_SAVE_UART2_LCR, SLEEP_SAVE_UART2_MCR, SLEEP_SAVE_UART2_SPR, SLEEP_SAVE_UART2_DLLR, SLEEP_SAVE_UART2_DLHR,
SLEEP_SAVE_UART3_IER, SLEEP_SAVE_UART3_LCR, SLEEP_SAVE_UART3_MCR, SLEEP_SAVE_UART3_SPR, SLEEP_SAVE_UART3_DLLR, SLEEP_SAVE_UART3_DLHR,
/* DMAC */
SLEEP_SAVE_DMAC_DMACR,
SLEEP_SAVE_DMAC_DSAR0, SLEEP_SAVE_DMAC_DSAR1, SLEEP_SAVE_DMAC_DSAR2, SLEEP_SAVE_DMAC_DSAR3, SLEEP_SAVE_DMAC_DSAR4, SLEEP_SAVE_DMAC_DSAR5, SLEEP_SAVE_DMAC_DSAR6, SLEEP_SAVE_DMAC_DSAR7,
SLEEP_SAVE_DMAC_DDAR0, SLEEP_SAVE_DMAC_DDAR1, SLEEP_SAVE_DMAC_DDAR2, SLEEP_SAVE_DMAC_DDAR3, SLEEP_SAVE_DMAC_DDAR4, SLEEP_SAVE_DMAC_DDAR5, SLEEP_SAVE_DMAC_DDAR6, SLEEP_SAVE_DMAC_DDAR7,
SLEEP_SAVE_DMAC_DTCR0, SLEEP_SAVE_DMAC_DTCR1, SLEEP_SAVE_DMAC_DTCR2, SLEEP_SAVE_DMAC_DTCR3, SLEEP_SAVE_DMAC_DTCR4, SLEEP_SAVE_DMAC_DTCR5, SLEEP_SAVE_DMAC_DTCR6, SLEEP_SAVE_DMAC_DTCR7,
SLEEP_SAVE_DMAC_DRSR0, SLEEP_SAVE_DMAC_DRSR1, SLEEP_SAVE_DMAC_DRSR2, SLEEP_SAVE_DMAC_DRSR3, SLEEP_SAVE_DMAC_DRSR4, SLEEP_SAVE_DMAC_DRSR5, SLEEP_SAVE_DMAC_DRSR6, SLEEP_SAVE_DMAC_DRSR7,
SLEEP_SAVE_DMAC_DCCSR0, SLEEP_SAVE_DMAC_DCCSR1, SLEEP_SAVE_DMAC_DCCSR2, SLEEP_SAVE_DMAC_DCCSR3, SLEEP_SAVE_DMAC_DCCSR4, SLEEP_SAVE_DMAC_DCCSR5, SLEEP_SAVE_DMAC_DCCSR6, SLEEP_SAVE_DMAC_DCCSR7,
/* INTC */
SLEEP_SAVE_INTC_IPR, SLEEP_SAVE_INTC_ISR, SLEEP_SAVE_INTC_IMR,
/* Checksum */
SLEEP_SAVE_CKSUM,
SLEEP_SAVE_SIZE
};
static unsigned long sleep_save[SLEEP_SAVE_SIZE];
static int jz_pm_do_suspend(void)
{
unsigned long checksum = 0;
unsigned long imr = REG_INTC_IMR;
int i;
printk("Put cpu into suspend mode.\n");
/* Mask all interrupts */
REG_INTC_IMSR = 0xffffffff;
/* Preserve current time */
REG_RTC_RSR = xtime.tv_sec;
REG_CPM_OCR |= CPM_OCR_SUSPEND_PHY0; /* suspend USB PHY 0 */
REG_CPM_OCR |= CPM_OCR_SUSPEND_PHY1; /* suspend USB PHY 1 */
REG_CPM_OCR |= CPM_OCR_EXT_RTC_CLK; /* select the external RTC clock (32.768KHz) */
/* Disable NAND ctroller */
REG_EMC_NFCSR &= ~(EMC_NFCSR_NFE | EMC_NFCSR_FCE);
/*
* Temporary solution. This won't be necessary once
* we move this support into the device drivers.
* Save the on-chip modules
*/
SAVE(UART0_LCR, 8); SAVE(UART0_MCR, 8); SAVE(UART0_SPR, 8);
REG8(UART0_LCR) |= UARTLCR_DLAB; /* Access to DLLR/DLHR */
SAVE(UART0_DLLR, 8); SAVE(UART0_DLHR, 8);
REG8(UART0_LCR) &= ~UARTLCR_DLAB; /* Access to IER */
SAVE(UART0_IER, 8);
SAVE(UART1_LCR, 8); SAVE(UART1_MCR, 8); SAVE(UART1_SPR, 8);
REG8(UART1_LCR) |= UARTLCR_DLAB; /* Access to DLLR/DLHR */
SAVE(UART1_DLLR, 8); SAVE(UART1_DLHR, 8);
REG8(UART1_LCR) &= ~UARTLCR_DLAB; /* Access to IER */
SAVE(UART1_IER, 8);
SAVE(UART2_LCR, 8); SAVE(UART2_MCR, 8); SAVE(UART2_SPR, 8);
REG8(UART2_LCR) |= UARTLCR_DLAB; /* Access to DLLR/DLHR */
SAVE(UART2_DLLR, 8); SAVE(UART2_DLHR, 8);
REG8(UART2_LCR) &= ~UARTLCR_DLAB; /* Access to IER */
SAVE(UART2_IER, 8);
SAVE(UART3_LCR, 8); SAVE(UART3_MCR, 8); SAVE(UART3_SPR, 8);
REG8(UART3_LCR) |= UARTLCR_DLAB; /* Access to DLLR/DLHR */
SAVE(UART3_DLLR, 8); SAVE(UART3_DLHR, 8);
REG8(UART3_LCR) &= ~UARTLCR_DLAB; /* Access to IER */
SAVE(UART3_IER, 8);
/* Save vital registers */
SAVE(OST_TER, 8);
SAVE(OST_TCSR0, 16); SAVE(OST_TCSR1, 16); SAVE(OST_TCSR2, 16);
SAVE(OST_TRDR0, 32); SAVE(OST_TRDR1, 32); SAVE(OST_TRDR2, 32);
SAVE(OST_TCNT0, 32); SAVE(OST_TCNT1, 32); SAVE(OST_TCNT2, 32);
SAVE(HARB_HAPOR, 32); SAVE(HARB_HMCTR, 32); SAVE(HARB_HMLTR, 32);
SAVE(EMC_SMCR0, 32); SAVE(EMC_SMCR1, 32); SAVE(EMC_SMCR2, 32); SAVE(EMC_SMCR3, 32);
SAVE(EMC_SMCR4, 32); SAVE(EMC_SMCR5, 32);
SAVE(GPIO_GPDR0, 32); SAVE(GPIO_GPDR1, 32); SAVE(GPIO_GPDR2, 32);
SAVE(GPIO_GPDR3, 32);
SAVE(GPIO_GPDIR0, 32); SAVE(GPIO_GPDIR1, 32); SAVE(GPIO_GPDIR2, 32);
SAVE(GPIO_GPDIR3, 32);
SAVE(GPIO_GPODR0, 32); SAVE(GPIO_GPODR1, 32); SAVE(GPIO_GPODR2, 32);
SAVE(GPIO_GPODR3, 32);
SAVE(GPIO_GPPUR0, 32); SAVE(GPIO_GPPUR1, 32); SAVE(GPIO_GPPUR2, 32);
SAVE(GPIO_GPPUR3, 32);
SAVE(GPIO_GPALR0, 32); SAVE(GPIO_GPALR1, 32); SAVE(GPIO_GPALR2, 32);
SAVE(GPIO_GPALR3, 32);
SAVE(GPIO_GPAUR0, 32); SAVE(GPIO_GPAUR1, 32); SAVE(GPIO_GPAUR2, 32);
SAVE(GPIO_GPAUR3, 32);
SAVE(GPIO_GPIDLR0, 32); SAVE(GPIO_GPIDLR1, 32); SAVE(GPIO_GPIDLR2, 32);
SAVE(GPIO_GPIDLR3, 32);
SAVE(GPIO_GPIDUR0, 32); SAVE(GPIO_GPIDUR1, 32); SAVE(GPIO_GPIDUR2, 32);
SAVE(GPIO_GPIDUR3, 32);
SAVE(GPIO_GPIER0, 32); SAVE(GPIO_GPIER1, 32); SAVE(GPIO_GPIER2, 32);
SAVE(GPIO_GPIER3, 32);
SAVE(GPIO_GPIMR0, 32); SAVE(GPIO_GPIMR1, 32); SAVE(GPIO_GPIMR2, 32);
SAVE(GPIO_GPIMR3, 32);
SAVE(GPIO_GPFR0, 32); SAVE(GPIO_GPFR1, 32); SAVE(GPIO_GPFR2, 32);
SAVE(GPIO_GPFR3, 32);
SAVE(DMAC_DMACR, 32);
SAVE(DMAC_DSAR0, 32); SAVE(DMAC_DSAR1, 32); SAVE(DMAC_DSAR2, 32); SAVE(DMAC_DSAR3, 32); SAVE(DMAC_DSAR4, 32); SAVE(DMAC_DSAR5, 32); SAVE(DMAC_DSAR6, 32); SAVE(DMAC_DSAR7, 32);
SAVE(DMAC_DDAR0, 32); SAVE(DMAC_DDAR1, 32); SAVE(DMAC_DDAR2, 32); SAVE(DMAC_DDAR3, 32); SAVE(DMAC_DDAR4, 32); SAVE(DMAC_DDAR5, 32); SAVE(DMAC_DDAR6, 32); SAVE(DMAC_DDAR7, 32);
SAVE(DMAC_DTCR0, 32); SAVE(DMAC_DTCR1, 32); SAVE(DMAC_DTCR2, 32); SAVE(DMAC_DTCR3, 32); SAVE(DMAC_DTCR4, 32); SAVE(DMAC_DTCR5, 32); SAVE(DMAC_DTCR6, 32); SAVE(DMAC_DTCR7, 32);
SAVE(DMAC_DRSR0, 32); SAVE(DMAC_DRSR1, 32); SAVE(DMAC_DRSR2, 32); SAVE(DMAC_DRSR3, 32); SAVE(DMAC_DRSR4, 32); SAVE(DMAC_DRSR5, 32); SAVE(DMAC_DRSR6, 32); SAVE(DMAC_DRSR7, 32);
SAVE(DMAC_DCCSR0, 32); SAVE(DMAC_DCCSR1, 32); SAVE(DMAC_DCCSR2, 32); SAVE(DMAC_DCCSR3, 32); SAVE(DMAC_DCCSR4, 32); SAVE(DMAC_DCCSR5, 32); SAVE(DMAC_DCCSR6, 32); SAVE(DMAC_DCCSR7, 32);
SAVE(INTC_IPR, 32);SAVE(INTC_ISR, 32);SAVE(INTC_IMR, 32);
SAVE(WDT_WTCNT, 32);SAVE(WDT_WTCSR, 8);
/* Mask all interrupts */
REG_INTC_IMSR = 0xffffffff;
/* Save module clocks */
SAVE(CPM_MSCR, 32);
/* Save PLL */
SAVE(CPM_PLCR1, 32);
/* Stop module clocks */
__cpm_stop_uart0();
__cpm_stop_uart1();
__cpm_stop_uart2();
__cpm_stop_uart3();
__cpm_stop_uhc();
__cpm_stop_udc();
__cpm_stop_eth();
__cpm_stop_cim();
__cpm_stop_kbc();
__cpm_stop_scc();
__cpm_stop_ssi();
__cpm_stop_ost();
/* platform-specific pm routine */
jz_board_pm_suspend();
/* Clear previous reset status */
REG_CPM_RSTR &= ~(CPM_RSTR_HR | CPM_RSTR_WR | CPM_RSTR_SR);
/* Set resume return address */
REG_CPM_SPR = virt_to_phys(jz_cpu_resume);
/* Before sleeping, calculate and save a checksum */
for (i = 0; i < SLEEP_SAVE_SIZE - 1; i++)
checksum += sleep_save[i];
sleep_save[SLEEP_SAVE_CKSUM] = checksum;
/* *** go zzz *** */
jz_cpu_suspend();
#if 0
/* after sleeping, validate the checksum */
checksum = 0;
for (i = 0; i < SLEEP_SAVE_SIZE - 1; i++)
checksum += sleep_save[i];
/* if invalid, display message and wait for a hardware reset */
if (checksum != sleep_save[SLEEP_SAVE_CKSUM]) {
/** Add platform-specific message display codes here **/
while (1);
}
#endif
/* Restore PLL */
RESTORE(CPM_PLCR1, 32);
/* Restore module clocks */
RESTORE(CPM_MSCR, 32);
/* Ensure not to come back here if it wasn't intended */
REG_CPM_SPR = 0;
/* Restore registers */
RESTORE(GPIO_GPDR0, 32); RESTORE(GPIO_GPDR1, 32); RESTORE(GPIO_GPDR2, 32);
RESTORE(GPIO_GPDR3, 32);
RESTORE(GPIO_GPDIR0, 32); RESTORE(GPIO_GPDIR1, 32); RESTORE(GPIO_GPDIR2, 32);
RESTORE(GPIO_GPDIR3, 32);
RESTORE(GPIO_GPODR0, 32); RESTORE(GPIO_GPODR1, 32); RESTORE(GPIO_GPODR2, 32);
RESTORE(GPIO_GPODR3, 32);
RESTORE(GPIO_GPPUR0, 32); RESTORE(GPIO_GPPUR1, 32); RESTORE(GPIO_GPPUR2, 32);
RESTORE(GPIO_GPPUR3, 32);
RESTORE(GPIO_GPALR0, 32); RESTORE(GPIO_GPALR1, 32); RESTORE(GPIO_GPALR2, 32);
RESTORE(GPIO_GPALR3, 32);
RESTORE(GPIO_GPAUR0, 32); RESTORE(GPIO_GPAUR1, 32); RESTORE(GPIO_GPAUR2, 32);
RESTORE(GPIO_GPAUR3, 32);
RESTORE(GPIO_GPIDLR0, 32);RESTORE(GPIO_GPIDLR1, 32);RESTORE(GPIO_GPIDLR2, 32);
RESTORE(GPIO_GPIDLR3, 32);
RESTORE(GPIO_GPIDUR0, 32);RESTORE(GPIO_GPIDUR1, 32);RESTORE(GPIO_GPIDUR2, 32);
RESTORE(GPIO_GPIDUR3, 32);
RESTORE(GPIO_GPIER0, 32); RESTORE(GPIO_GPIER1, 32); RESTORE(GPIO_GPIER2, 32);
RESTORE(GPIO_GPIER3, 32);
RESTORE(GPIO_GPIMR0, 32); RESTORE(GPIO_GPIMR1, 32); RESTORE(GPIO_GPIMR2, 32);
RESTORE(GPIO_GPIMR3, 32);
RESTORE(GPIO_GPFR0, 32); RESTORE(GPIO_GPFR1, 32); RESTORE(GPIO_GPFR2, 32);
RESTORE(GPIO_GPFR3, 32);
RESTORE(EMC_SMCR0, 32); RESTORE(EMC_SMCR1, 32); RESTORE(EMC_SMCR2, 32); RESTORE(EMC_SMCR3, 32);
RESTORE(EMC_SMCR4, 32); RESTORE(EMC_SMCR5, 32);
RESTORE(HARB_HAPOR, 32); RESTORE(HARB_HMCTR, 32); RESTORE(HARB_HMLTR, 32);
RESTORE(OST_TCNT0, 32); RESTORE(OST_TCNT1, 32); RESTORE(OST_TCNT2, 32);
RESTORE(OST_TRDR0, 32); RESTORE(OST_TRDR1, 32); RESTORE(OST_TRDR2, 32);
RESTORE(OST_TCSR0, 16); RESTORE(OST_TCSR1, 16); RESTORE(OST_TCSR2, 16);
RESTORE(OST_TER, 8);
RESTORE(DMAC_DMACR, 32);
RESTORE(DMAC_DSAR0, 32); RESTORE(DMAC_DSAR1, 32); RESTORE(DMAC_DSAR2, 32); RESTORE(DMAC_DSAR3, 32); RESTORE(DMAC_DSAR4, 32); RESTORE(DMAC_DSAR5, 32); RESTORE(DMAC_DSAR6, 32); RESTORE(DMAC_DSAR7, 32);
RESTORE(DMAC_DDAR0, 32); RESTORE(DMAC_DDAR1, 32); RESTORE(DMAC_DDAR2, 32); RESTORE(DMAC_DDAR3, 32); RESTORE(DMAC_DDAR4, 32); RESTORE(DMAC_DDAR5, 32); RESTORE(DMAC_DDAR6, 32); RESTORE(DMAC_DDAR7, 32);
RESTORE(DMAC_DTCR0, 32); RESTORE(DMAC_DTCR1, 32); RESTORE(DMAC_DTCR2, 32); RESTORE(DMAC_DTCR3, 32); RESTORE(DMAC_DTCR4, 32); RESTORE(DMAC_DTCR5, 32); RESTORE(DMAC_DTCR6, 32); RESTORE(DMAC_DTCR7, 32);
RESTORE(DMAC_DRSR0, 32); RESTORE(DMAC_DRSR1, 32); RESTORE(DMAC_DRSR2, 32); RESTORE(DMAC_DRSR3, 32); RESTORE(DMAC_DRSR4, 32); RESTORE(DMAC_DRSR5, 32); RESTORE(DMAC_DRSR6, 32); RESTORE(DMAC_DRSR7, 32);
RESTORE(DMAC_DCCSR0, 32); RESTORE(DMAC_DCCSR1, 32); RESTORE(DMAC_DCCSR2, 32); RESTORE(DMAC_DCCSR3, 32); RESTORE(DMAC_DCCSR4, 32); RESTORE(DMAC_DCCSR5, 32); RESTORE(DMAC_DCCSR6, 32); RESTORE(DMAC_DCCSR7, 32);
RESTORE(INTC_IPR, 32);RESTORE(INTC_ISR, 32);RESTORE(INTC_IMR, 32);
REG_WDT_WTCNT = 0; RESTORE(WDT_WTCSR, 8);
/*
* Temporary solution. This won't be necessary once
* we move this support into the device drivers.
* Restore the on-chip modules.
*/
/* FIFO control reg, write-only */
REG8(UART0_FCR) = UARTFCR_FE | UARTFCR_RFLS | UARTFCR_TFLS | UARTFCR_UUE;
REG8(UART1_FCR) = UARTFCR_FE | UARTFCR_RFLS | UARTFCR_TFLS | UARTFCR_UUE;
REG8(UART2_FCR) = UARTFCR_FE | UARTFCR_RFLS | UARTFCR_TFLS | UARTFCR_UUE;
REG8(UART3_FCR) = UARTFCR_FE | UARTFCR_RFLS | UARTFCR_TFLS | UARTFCR_UUE;
REG8(UART0_LCR) |= UARTLCR_DLAB; /* Access to DLLR/DLHR */
RESTORE(UART0_DLLR, 8); RESTORE(UART0_DLHR, 8);
REG8(UART0_LCR) &= ~UARTLCR_DLAB; /* Access to IER */
RESTORE(UART0_IER, 8);
RESTORE(UART0_MCR, 8); RESTORE(UART0_SPR, 8); RESTORE(UART0_LCR, 8);
REG8(UART1_LCR) |= UARTLCR_DLAB; /* Access to DLLR/DLHR */
RESTORE(UART1_DLLR, 8); RESTORE(UART1_DLHR, 8);
REG8(UART1_LCR) &= ~UARTLCR_DLAB; /* Access to IER */
RESTORE(UART1_IER, 8);
RESTORE(UART1_MCR, 8); RESTORE(UART1_SPR, 8); RESTORE(UART1_LCR, 8);
REG8(UART2_LCR) |= UARTLCR_DLAB; /* Access to DLLR/DLHR */
RESTORE(UART2_DLLR, 8); RESTORE(UART2_DLHR, 8);
REG8(UART2_LCR) &= ~UARTLCR_DLAB; /* Access to IER */
RESTORE(UART2_IER, 8);
RESTORE(UART2_MCR, 8); RESTORE(UART2_SPR, 8); RESTORE(UART2_LCR, 8);
REG8(UART3_LCR) |= UARTLCR_DLAB; /* Access to DLLR/DLHR */
RESTORE(UART3_DLLR, 8); RESTORE(UART3_DLHR, 8);
REG8(UART3_LCR) &= ~UARTLCR_DLAB; /* Access to IER */
RESTORE(UART3_IER, 8);
RESTORE(UART3_MCR, 8); RESTORE(UART3_SPR, 8); RESTORE(UART3_LCR, 8);
REG_CPM_OCR &= ~CPM_OCR_SUSPEND_PHY0; /* resume USB PHY 0 */
REG_CPM_OCR &= ~CPM_OCR_SUSPEND_PHY1; /* resume USB PHY 1 */
#if 0
REG_CPM_OCR &= ~CPM_OCR_EXT_RTC_CLK; /* use internal RTC clock (JZ_EXTAL/128 Hz) */
#else
REG_CPM_OCR |= CPM_OCR_EXT_RTC_CLK; /* use external RTC clock (32.768 KHz) */
#endif
/* Enable NAND ctroller */
REG_EMC_NFCSR |= EMC_NFCSR_NFE;
/* Restore current time */
xtime.tv_sec = REG_RTC_RSR;
/* Restore interrupts */
REG_INTC_IMSR = imr;
REG_INTC_IMCR = ~imr;
return 0;
}
/* NOTES:
* 1: Pins that are floated (NC) should be set as input and pull-enable.
* 2: Pins that are pull-up or pull-down by outside should be set as input
* and pull-disable.
* 3: Pins that are connected to a chipset should be set as pull-disable.
*/
static void jz_board_pm_gpio_setup(void)
{
/* CIM_D0(IN)/PULL-UP/GP0 */
__gpio_as_input(0);
__gpio_enable_pull(0);
/* CIM_D1(IN)/PULL-UP/GP1 */
__gpio_as_input(1);
__gpio_enable_pull(1);
/* CIM_D2(IN)/PULL-UP/GP2 */
__gpio_as_input(2);
__gpio_enable_pull(2);
/* CIM_D3(IN)/PULL-UP/GP3 */
__gpio_as_input(3);
__gpio_enable_pull(3);
/* CIM_D4(IN)/PULL-DOWN/GP4 */
__gpio_as_input(4);
__gpio_enable_pull(4);
/* CIM_D5(IN)/PULL-DOWN/GP5 */
__gpio_as_input(5);
__gpio_enable_pull(5);
/* CIM_D6(IN)/PULL-DOWN/GP6 */
__gpio_as_input(6);
__gpio_enable_pull(6);
/* CIM_D7(IN)/PULL-DOWN/GP7 */
__gpio_as_input(7);
__gpio_enable_pull(7);
/* CIM_VSYNC(IN)/PULL-DOWN/GP8 */
__gpio_as_input(8);
__gpio_enable_pull(8);
/* CIM_HSYNC(IN)/PULL-UP/GP9 */
__gpio_as_input(9);
__gpio_enable_pull(9);
/* CIM_PCLK(IN)/PULL-DOWN/GP10 */
__gpio_as_input(10);
__gpio_enable_pull(10);
/* CIM_MCLK(OUT)/PULL-DOWN/GP11 */
__gpio_as_input(11);
__gpio_enable_pull(11);
/* DMA_DREQ0(IN)/CHIP_MODE/PULL-UP/GP12 */
__gpio_as_input(12);
__gpio_enable_pull(12);
/* DMA_DACK0(OUT)/PULL-UP/GP13 */ /* GPIO13 */
__gpio_as_input(13);
__gpio_disable_pull(13);
/* GP14 */
/* GP15 */
/* RXD3(IN)/PULL-UP/GP16 */
__gpio_as_input(16);
__gpio_enable_pull(16);
/* CTS3(IN)/PULL-UP/GP17 */
__gpio_as_input(17);
__gpio_enable_pull(17);
/* GP18 */
/* GP19 */
/* GP20 */
/* TXD3(OUT)/PULL-UP/GP21 */
__gpio_as_input(21);
__gpio_enable_pull(21);
/* GP22 */
/* RTS3(OUT)/PULL-UP/GP23 */
__gpio_as_input(23);
__gpio_enable_pull(23);
/* RXD1(IN)/PULL-UP/GP24 */ /* IR_RXD */
__gpio_as_input(24);
__gpio_enable_pull(24);
/* TXD1(OUT)/PULL-UP/GP25 */ /* IR_TXD */
__gpio_disable_pull(25);
__gpio_as_output(25);
__cpm_set_pin(25);
/* DMA_AEN(OUT)/PULL-UP/GP26 */ /* CIM_PWD_N */
__gpio_as_input(26);
__gpio_disable_pull(26);
/* DMA_EOP(OUT)/PULL-UP/GP27 */ /* SW4 */
__gpio_as_input(27);
__gpio_disable_pull(27);
/* USB_CLK(IN)/PULL-UP/GP28 */
__gpio_as_input(28);
__gpio_disable_pull(28);
/* USB_PPWR0(OUT)/PULL-UP/GP29 */ /* USB_CLK_EN */
__gpio_disable_pull(29);
__gpio_as_output(29);
__cpm_clear_pin(29); /* disable USB 48MHz clock */
/* GP30 */
/* GP31 */
/* PS2_KCLK(IO)/PULL-UP/GP32 */
__gpio_as_input(32);
__gpio_enable_pull(32);
/* PS2_KDATA(IO)/PULL-UP/GP33 */ /* CIM_RST */
__gpio_as_input(33);
__gpio_enable_pull(33);
/* MSC_D0(IO)/PULL-UP/GP34 */
__gpio_as_input(34);
__gpio_disable_pull(34);
/* MSC_D1(IO)/PULL-UP/GP35 */
__gpio_as_input(35);
__gpio_disable_pull(35);
/* MSC_D2(IO)/PULL-UP/GP36 */
__gpio_as_input(36);
__gpio_disable_pull(36);
/* MSC_D3(IO)/PULL-UP/GP37 */
__gpio_as_input(37);
__gpio_disable_pull(37);
/* MSC_CMD(IO)/PULL-UP/GP38 */
__gpio_as_input(38);
__gpio_disable_pull(38);
/* MSC_CLK(OUT)/PULL-UP/GP39 */
__gpio_as_input(39);
__gpio_enable_pull(39);
/* LCD_D0(OUT)/PULL-UP/GP40 */
__gpio_as_input(40);
__gpio_enable_pull(40);
/* LCD_D1(OUT)/PULL-UP/GP41 */
__gpio_as_input(41);
__gpio_enable_pull(41);
/* LCD_D2(OUT)/PULL-UP/GP42 */
__gpio_as_input(42);
__gpio_enable_pull(42);
/* LCD_D3(OUT)/PULL-UP/GP43 */
__gpio_as_input(43);
__gpio_enable_pull(43);
/* LCD_D4(OUT)/PULL-UP/GP44 */
__gpio_as_input(44);
__gpio_enable_pull(44);
/* LCD_D5(OUT)/PULL-UP/GP45 */
__gpio_as_input(45);
__gpio_enable_pull(45);
/* LCD_D6(OUT)/PULL-UP/GP46 */
__gpio_as_input(46);
__gpio_enable_pull(46);
/* LCD_D7(OUT)/PULL-UP/GP47 */
__gpio_as_input(47);
__gpio_enable_pull(47);
/* LCD_D8(OUT)/PULL-DOWN/GP48 */
__gpio_as_input(48);
__gpio_enable_pull(48);
/* LCD_D9(OUT)/PULL-DOWN/GP49 */
__gpio_as_input(49);
__gpio_enable_pull(49);
/* LCD_D10(OUT)/PULL-DOWN/GP50 */
__gpio_as_input(50);
__gpio_enable_pull(50);
/* LCD_D11(OUT)/PULL-DOWN/GP51 */
__gpio_as_input(51);
__gpio_enable_pull(51);
/* LCD_D12(OUT)/PULL-DOWN/GP52 */
__gpio_as_input(52);
__gpio_enable_pull(52);
/* LCD_D13(OUT)/PULL-DOWN/GP53 */
__gpio_as_input(53);
__gpio_enable_pull(53);
/* LCD_D14(OUT)/PULL-DOWN/GP54 */
__gpio_as_input(54);
__gpio_enable_pull(54);
/* LCD_D15(OUT)/PULL-DOWN/GP55 */
__gpio_as_input(55);
__gpio_enable_pull(55);
/* LCD_VSYNC(IN)/PULL-DOWN/GP56 */
__gpio_as_input(56);
__gpio_enable_pull(56);
/* LCD_HSYNC(IN)/PULL-UP/GP57 */
__gpio_as_input(57);
__gpio_enable_pull(57);
/* LCD_PCLK(IN)/PULL-DOWN/GP58 */
__gpio_as_input(58);
__gpio_enable_pull(58);
/* LCD_DE(OUT)/PULL-DOWN/GP59 */
__gpio_as_input(59);
__gpio_enable_pull(59);
/* LCD_SPL(OUT)/PULL-UP/GP60 */
__gpio_as_input(60);
__gpio_disable_pull(60);
/* LCD_CLS(OUT)/PULL-UP/GP61 */
__gpio_as_input(61);
__gpio_disable_pull(61);
/* LCD_PS(OUT)/PULL-UP/GP62 */
__gpio_as_input(62);
__gpio_disable_pull(62);
/* LCD_REV(OUT)/PULL-UP/GP63 */
__gpio_as_input(63);
__gpio_enable_pull(63);
/* SCC0_DAT(IO)/PULL-UP/GP64 */ /* Keypad */
__gpio_as_input(64);
__gpio_enable_pull(64);
/* SCC1_DAT(IO)/PULL-UP/GP65 */ /* SW5 */
__gpio_as_input(65);
__gpio_disable_pull(65);
/* SCC0_CLK(OUT)/PULL-UP/GP66 */ /* PW_O */
__gpio_disable_pull(66);
__gpio_as_output(66);
__cpm_set_pin(66);
/* SCC1_CLK(OUT)/PULL-UP/GP67 */ /* SW6 */
__gpio_as_input(67);
__gpio_disable_pull(67);
/* SYS_CLK(OUT)/PULL-UP/GP68 */ /* I2S_CLK */
__gpio_disable_pull(68);
/* ACRESET_N(OUT)/PULL-UP/GP69 */ /* AK4642 PDN */
__gpio_disable_pull(69);
__gpio_as_output(69);
__cpm_clear_pin(69);
/* SDATA_OUT(OUT)/PULL-UP/GP70 */ /* I2S_DIN */
__gpio_disable_pull(70);
/* SDATA_IN(IN)/PULL-UP/GP71 */ /* I2S_DOUT */
__gpio_disable_pull(71);
/* SSI_CLK(OUT)/PULL-UP/GP72 */ /* SSI_CLK */
__gpio_as_input(72);
__gpio_enable_pull(72);
/* SSI_CE1_N(OUT)/PULL-UP/GP73 */ /* SSI_CE1_N */
__gpio_as_input(73);
__gpio_enable_pull(73);
/* SSI_DT(OUT)/PULL-UP/GP74 */ /* SSI_DT */
__gpio_as_input(74);
__gpio_enable_pull(74);
/* SSI_DR(IN)/PULL-UP/GP75 */ /* SSI_DR */
__gpio_as_input(75);
__gpio_enable_pull(75);
/* SSI_CE2_N(OUT)/SSI_GPC/PULL-UP/GP76 */
__gpio_as_input(76);
__gpio_enable_pull(76);
/* BITCLK_IN(IN)/PULL-UP/GP77 */ /* I2S_BITCLK */
__gpio_disable_pull(77);
/* SYNC_IN(IN)/PULL-UP/GP78 */ /* I2S_LRCIN */
__gpio_disable_pull(78);
/* FRE_N(OUT)/PULL-UP/GP79 */
__gpio_enable_pull(79);
__gpio_as_input(79);
/* FWE_N(OUT)/PULL-UP/GP80 */
__gpio_enable_pull(80);
__gpio_as_input(80);
/* FRB_N(IN)/PULL-UP/GP81 */
__gpio_enable_pull(81);
__gpio_as_input(81);
/* DCS1_N(OUT)/PULL-UP/GP82 */ /* SD_WP */
__gpio_as_input(82);
__gpio_enable_pull(82);
/* CS1_N(OUT)/PULL-UP/GP83 */ /* JACK_PLUG */
__gpio_as_input(83);
__gpio_disable_pull(83);
/* CS2_N(OUT)/PULL-UP/GP84 */ /* DC_DETE */
__gpio_as_input(84);
__gpio_disable_pull(84);
/* CS3_N(OUT)/PULL-UP/GP85 */ /* NAND CS# */
__gpio_enable_pull(85);
__gpio_as_input(85);
/* CS4_N/(OUT)PULL-UP/GP86 */ /* PULL_OFF */
__gpio_disable_pull(86);
__gpio_as_output(86);
// __cpm_set_pin(86);
__cpm_clear_pin(86);
/* CS5_N(OUT)/PULL-UP/GP87 */ /* IR_SD */
__gpio_as_input(87);
__gpio_disable_pull(87);
/* INPACK_N(IN)/PULL-UP/GP88 */ /* SW7 */
__gpio_as_input(88);
__gpio_disable_pull(88);
/* BVD2(IN)/PULL-UP/GP89 */ /* SW8 */
__gpio_as_input(89);
__gpio_disable_pull(89);
/* PCE1_N(OUT)/PULL-UP/GP90 */ /* SD_CD_N */
__gpio_as_input(90);
__gpio_enable_pull(90);
/* PSKTSEL_N(OUT)/PULL-UP/GP91 */ /* SD_VCC_3V_EN_N */
__gpio_disable_pull(91);
__gpio_as_output(91);
__cpm_clear_pin(91);
/* IOIS16_N(IN)/PULL-UP/GP92 */ /* LED_EN */
__gpio_disable_pull(92);
__gpio_as_output(92);
__cpm_clear_pin(92);
/* PCE2_N(OUT)/PULL-UP/GP93 */ /* LCD_DISP_OFF_N */
__gpio_disable_pull(93);
__gpio_as_input(93);
/* PWM0(OUT)/PULL-UP/GP94 */ /* LCD backlight off */
__gpio_disable_pull(94);
__gpio_as_output(94);
__cpm_clear_pin(94);
/* PWM1(OUT)/PULL-UP/GP95 */
__gpio_disable_pull(95);
__gpio_as_output(95);
__cpm_clear_pin(95);
/* PRT(OUT)/PULL-UP/GP96 */ /* RTC_IRQ */
__gpio_as_input(96);
__gpio_disable_pull(96);
/* PRT(OUT)/PULL-UP/GP97 */ /* PW_I */
__gpio_as_input(97);
__gpio_disable_pull(97);
/* PRT(OUT)/PULL-UP/GP98 */ /* Keypad */
__gpio_as_input(98);
__gpio_disable_pull(98);
/* PRT(OUT)/PULL-UP/GP99 */ /* Keypad */
__gpio_as_input(99);
__gpio_disable_pull(99);
/* PRT(OUT)/PULL-UP/GP100 */ /* Keypad */
__gpio_as_input(100);
__gpio_disable_pull(100);
/* PRT(OUT)/PULL-UP/GP101 */ /* Keypad */
__gpio_as_input(101);
__gpio_disable_pull(101);
/* PRT(OUT)/PULL-UP/GP102 */ /* Keypad */
__gpio_as_input(102);
__gpio_disable_pull(102);
/* PRT(OUT)/PULL-UP/GP103 */ /* Keypad */
__gpio_as_input(103);
__gpio_enable_pull(103);
/* PRT(OUT)/PULL-UP/GP104 */ /* Keypad */
__gpio_as_input(104);
__gpio_enable_pull(104);
/* PRT(OUT)/PULL-UP/GP105 */ /* Keypad */
__gpio_as_input(105);
__gpio_enable_pull(105);
/* PRT(OUT)/PULL-UP/GP106 */ /* 5V_ON */
__gpio_disable_pull(106);
__gpio_as_output(106);
__cpm_clear_pin(106);
/* PRT(IN)/PULL-UP/GP107 */ /* GSM_BOOT */
__gpio_as_input(107);
__gpio_enable_pull(107);
/* PRT(IN)/PULL-UP/GP108 */ /* GSM_RESET */
__gpio_as_input(108);
__gpio_enable_pull(108);
/* PRT(IN)/PULL-UP/GP109 */ /* GSM_EN */
__gpio_as_input(109);
__gpio_enable_pull(109);
/* PRT(IN)/PULL-UP/GP110 */ /* GSM_RING */
__gpio_as_input(110);
__gpio_enable_pull(110);
/* PRT(IN)/UART2_RXD/PULL-UP/GP111 */ /* Keypad */
__gpio_as_input(111);
__gpio_enable_pull(111);
/* MII_TX_EN(OUT)/PULL-UP/GP112 */
__gpio_as_input(112);
__gpio_enable_pull(112);
/* MII_RX_DV(IN)/PULL-UP/GP113 */
__gpio_as_input(113);
__gpio_enable_pull(113);
/* MII_RX_ER(IN)/PULL-UP/GP114 */
__gpio_as_input(114);
__gpio_enable_pull(114);
/* MII_COL(IN)/PULL-UP/GP115 */
__gpio_as_input(115);
__gpio_enable_pull(115);
/* MII_CRS(IN)/PULL-UP/GP116 */
__gpio_as_input(116);
__gpio_enable_pull(116);
/* MII_TXD0(OUT)/PULL-UP/GP117 */
__gpio_as_input(117);
__gpio_enable_pull(117);
/* MII_TXD1(OUT)/PULL-UP/GP118 */
__gpio_as_input(118);
__gpio_enable_pull(118);
/* MII_TXD2(OUT)/PULL-UP/GP119 */
__gpio_as_input(119);
__gpio_enable_pull(119);
/* MII_TXD3(OUT)/PULL-UP/GP120 */
__gpio_as_input(120);
__gpio_enable_pull(120);
/* MII_RXD0(IN)/PULL-UP/GP121 */
__gpio_as_input(121);
__gpio_enable_pull(121);
/* MII_RXD1(IN)/PULL-UP/GP122 */
__gpio_as_input(122);
__gpio_enable_pull(122);
/* MII_RXD2(IN)/PULL-UP/GP123 */
__gpio_as_input(123);
__gpio_enable_pull(123);
/* MII_RXD3(IN)/PULL-UP/GP124 */
__gpio_as_input(124);
__gpio_enable_pull(124);
/* UART2_TXD(OUT)/PULL-UP/GP125 */ /* CHARG_STAT */
__gpio_as_output(125);
__gpio_disable_pull(125);
__cpm_clear_pin(125);
/* UART0_RXD(IN)/PULL-UP/GP126 */
__gpio_as_input(126);
__gpio_enable_pull(126);
/* UART0_TXD(OUT)/PULL-UP/GP127 */
__gpio_as_input(127);
__gpio_enable_pull(127);
}
/*
* In order to save power most, all gpio pins should be put to their
* proper states during low power mode.
*/
static void jz_board_pm_suspend(void)
{
/* Setup the state of all the GPIO pins during low-power mode */
jz_board_pm_gpio_setup();
/* Allow next interrupts to wakeup the system.
*/
REG_CPM_WER = 0; /* Clear all first */
/* RTC alarm */
REG_CPM_WER |= 1 << 0;
REG_CPM_WRER |= 1 << 0;
REG_CPM_WFER |= 1 << 0;
__gpio_as_irq_rise_edge(96);
/* Power_I key */
REG_CPM_WER |= 1 << 1;
REG_CPM_WRER |= 1 << 1;
REG_CPM_WFER |= 1 << 1;
__gpio_as_irq_rise_edge(97);
/* enable INTC irq */
__intc_unmask_irq(IRQ_GPIO3);
#if 0
/* Enable RTC alarm */
REG_CPM_WER |= CPM_WER_WERTC;
REG_RTC_RGR = 32767;
REG_RTC_RCR &= ~RTC_RCR_AE;
REG_RTC_RSR = 0;
REG_RTC_RSAR = 30;
REG_RTC_RCR = RTC_RCR_AE | RTC_RCR_AIE | RTC_RCR_START;
#endif
}
/*
* We don't use sleep mode of jz4730 for it has bug, the suspend mode
* implemented by hibernate mode is used instead of it.
*/
static int jz_pm_do_sleep(void)
{
printk("It was deprecated, please use /proc/sys/pm/suspend.\n");
#if 0
unsigned long imr = REG_INTC_IMR;
/* Preserve current time */
REG_RTC_RSR = xtime.tv_sec;
/* Mask all interrupts */
REG_INTC_IMSR = 0xffffffff;
/* Just allow next interrupts to wakeup the system.
* Note: modify this according to your system.
*/
/* RTC alarm */
__gpio_as_irq_fall_edge(96); /* GPIO 96 */
/* POWER_I key */
__gpio_as_irq_rise_edge(97); /* GPIO 97 */
/* Enable INTC */
__intc_unmask_irq(IRQ_GPIO3);
/* Disable modules e.g. LCD backlight */
/* Stop module clocks */
__cpm_stop_uhc();
/* Enter SLEEP mode
* Put SDRAM into self-refresh mode.
*/
REG_CPM_LPCR &= ~CPM_LPCR_LPM_MASK;
REG_CPM_LPCR |= CPM_LPCR_LPM_SLEEP;
__asm__(".set\tmips3\n\t"
".set noreorder\n\t"
".align 5\n\t"
"wait\n\t"
"nop\n\t"
".set reorder\n\t"
".set\tmips0");
/* Restore to IDLE mode */
REG_CPM_LPCR &= ~CPM_LPCR_LPM_MASK;
REG_CPM_LPCR |= CPM_LPCR_LPM_IDLE;
/* Restore clock of usb host */
__cpm_start_uhc();
/* Restore interrupts */
REG_INTC_IMSR = imr;
REG_INTC_IMCR = ~imr;
/* Restore current time */
xtime.tv_sec = REG_RTC_RSR;
#endif
return 0;
}
#define K0BASE KSEG0
void jz_flush_cache_all(void)
{
unsigned long addr;
/* Clear CP0 TagLo */
asm volatile ("mtc0 $0, $28\n\t"::);
for (addr = K0BASE; addr < (K0BASE + 0x4000); addr += 32) {
asm volatile (
".set mips3\n\t"
" cache %0, 0(%1)\n\t"
".set mips2\n\t"
:
: "I" (Index_Writeback_Inv_D), "r"(addr));
asm volatile (
".set mips3\n\t"
" cache %0, 0(%1)\n\t"
".set mips2\n\t"
:
: "I" (Index_Store_Tag_I), "r"(addr));
}
asm volatile ("sync\n\t"::);
/* invalidate BTB */
asm volatile (
".set mips32\n\t"
" mfc0 %0, $16, 7\n\t"
" nop\n\t"
" ori $0, 2\n\t"
" mtc0 %0, $16, 7\n\t"
" nop\n\t"
".set mips2\n\t"
:
: "r"(addr));
}
/* Put CPU to HIBERNATE mode */
int jz_pm_suspend(void)
{
int retval;
pm_send_all(PM_SUSPEND, (void *)3);
retval = jz_pm_do_suspend();
pm_send_all(PM_RESUME, (void *)0);
return retval;
}
#if 0
/* Put CPU to SLEEP mode */
int jz_pm_sleep(void)
{
return jz_pm_do_sleep();
}
/* Put CPU to IDLE mode, used for dpm in linux 2.4 */
void jz_pm_idle(void)
{
local_irq_disable();
if (!need_resched()) {
local_irq_enable();
cpu_wait();
}
}
#endif
#ifdef CONFIG_SYSCTL
/*
* Use a temporary sysctl number. Horrid, but will be cleaned up in 2.6
* when all the PM interfaces exist nicely.
*/
#define CTL_PM_SUSPEND 1
#define CTL_PM_HIBERNATE 2
/*----------------------------------------------------------------------------
* Power Management sleep sysctl proc interface
*
* A write to /proc/sys/pm/suspend invokes this function
* which initiates a sleep.
*--------------------------------------------------------------------------*/
static int sysctl_jz_pm_sleep(void)
{
return jz_pm_suspend();
}
static struct ctl_table pm_table[] =
{
{
.ctl_name = CTL_UNNUMBERED,
.procname = "suspend",
.data = NULL,
.maxlen = 0,
.mode = 0600,
.proc_handler = &sysctl_jz_pm_sleep,
},
{ .ctl_name = 0}
};
static struct ctl_table pm_dir_table[] =
{
{
.ctl_name = CTL_UNNUMBERED,
.procname = "pm",
.mode = 0555,
.child = pm_table,
},
{ .ctl_name = 0}
};
#endif /* CONFIG_SYSCTL */
/*
* Initialize power interface
*/
static int __init jz_pm_init(void)
{
printk("Power Management for JZ\n");
#ifdef CONFIG_SYSCTL
register_sysctl_table(pm_dir_table);
#endif
return 0;
}
module_init(jz_pm_init);