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path: root/src/southbridge/intel/i82801gx/smihandler.c
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/*
 * This file is part of the coreboot project.
 *
 * Copyright (C) 2008 coresystems GmbH
 *
 * 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; version 2 of
 * the License.
 *
 * This program is distributed in the hope that it will be useful,
 * but WITHOUT ANY WARRANTY; without even the implied warranty of
 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
 * GNU General Public License for more details.
 *
 * You should have received a copy of the GNU General Public License
 * along with this program; if not, write to the Free Software
 * Foundation, Inc., 51 Franklin St, Fifth Floor, Boston,
 * MA 02110-1301 USA
 */

#include <arch/io.h>
#include <arch/romcc_io.h>
#include <console/console.h>
#include <cpu/x86/cache.h>
#include <cpu/x86/smm.h>
#include "chip.h"

// Future TODO: Move to i82801gx directory
#include "../../../northbridge/intel/i945/ich7.h"

#define DEBUG_SMI

#define ACPI_DISABLE	0x1e
#define ACPI_ENABLE	0xe1

/* I945 */
#define SMRAM		0x9d
#define   D_OPEN	(1 << 6)
#define   D_CLS		(1 << 5)
#define   D_LCK		(1 << 4)
#define   G_SMRANE	(1 << 3)
#define   C_BASE_SEG	((0 << 2) | (1 << 1) | (0 << 0))

/* ICH7 */
#define PM1_STS		0x00
#define PM1_EN		0x02
#define PM1_CNT		0x04
#define PM1_TMR		0x08
#define PROC_CNT	0x10
#define LV2		0x14
#define LV3		0x15
#define LV4		0x16
#define PM2_CNT		0x20 // mobile only
#define GPE0_STS	0x28
#define GPE0_EN		0x2c
#define SMI_EN		0x30
#define   EL_SMI_EN	 (1 << 25) // Intel Quick Resume Technology
#define   INTEL_USB2_EN	 (1 << 18) // Intel-Specific USB2 SMI logic
#define   LEGACY_USB2_EN (1 << 17) // Legacy USB2 SMI logic
#define   PERIODIC_EN	 (1 << 14) // SMI on PERIODIC_STS in SMI_STS
#define   TCO_EN	 (1 << 13) // Enable TCO Logic (BIOSWE et al)
#define   MCSMI_EN	 (1 << 11) // Trap microcontroller range access
#define   BIOS_RLS	 (1 <<  7) // asserts SCI on bit set
#define   SWSMI_TMR_EN	 (1 <<  6) // start software smi timer on bit set
#define   APMC_EN	 (1 <<  5) // Writes to APM_CNT cause SMI#
#define   SLP_SMI_EN	 (1 <<  4) // Write to SLP_EN in PM1_CNT asserts SMI#
#define   LEGACY_USB_EN  (1 <<  3) // Legacy USB circuit SMI logic
#define   BIOS_EN	 (1 <<  2) // Assert SMI# on setting GBL_RLS bit
#define   EOS		 (1 <<  1) // End of SMI (deassert SMI#)
#define   GBL_SMI_EN	 (1 <<  0) // SMI# generation at all?
#define SMI_STS		0x34
#define ALT_GP_SMI_EN	0x38
#define ALT_GP_SMI_STS	0x3a
#define GPE_CNTL	0x42
#define DEVACT_STS	0x44
#define SS_CNT		0x50
#define C3_RES		0x54

#include "i82801gx_nvs.h"

/* While we read PMBASE dynamically in case it changed, let's
 * initialize it with a sane value
 */
static u16 pmbase = DEFAULT_PMBASE;

typedef enum { SMI_LOCKED, SMI_UNLOCKED } smi_semaphore;

/* SMI multiprocessing semaphore */
static volatile smi_semaphore smi_handler_status = SMI_UNLOCKED;

static int smi_obtain_lock(void)
{
	u8 ret = SMI_LOCKED;

	asm volatile (
		"movb %2, %%al\n"
		"xchgb %%al, %1\n"
		"movb %%al, %0\n"
		: "=g" (ret), "=m" (smi_handler_status)
		: "g" (SMI_LOCKED)
		: "eax"
	);

	return (ret == SMI_UNLOCKED);
}

static void smi_release_lock(void)
{
	asm volatile (
		"movb %1, %%al\n"
		"xchgb %%al, %0\n"
		: "=m" (smi_handler_status)
		: "g" (SMI_UNLOCKED)
		: "eax"
	);
}

#define LAPIC_ID 0xfee00020
static inline __attribute__((always_inline)) unsigned long nodeid(void)
{
	return (*((volatile unsigned long *)(LAPIC_ID)) >> 24);
}


/**
 * @brief read and clear PM1_STS 
 * @return PM1_STS register
 */
static u16 reset_pm1_status(void)
{
	u16 reg16;
	
	reg16 = inw(pmbase + PM1_STS);
	/* set status bits are cleared by writing 1 to them */
	outw(reg16, pmbase + PM1_STS);
	
	return reg16;
}

static void dump_pm1_status(u16 pm1_sts)
{
	printk_debug("PM1_STS: ");
	if (pm1_sts & (1 << 15)) printk_debug("WAK ");
	if (pm1_sts & (1 << 14)) printk_debug("PCIEXPWAK ");
	if (pm1_sts & (1 << 11)) printk_debug("PRBTNOR ");
	if (pm1_sts & (1 << 10)) printk_debug("RTC ");
	if (pm1_sts & (1 <<  8)) printk_debug("PWRBTN ");
	if (pm1_sts & (1 <<  5)) printk_debug("GBL ");
	if (pm1_sts & (1 <<  4)) printk_debug("BM ");
	if (pm1_sts & (1 <<  0)) printk_debug("TMROF ");
	printk_debug("\n");
}

/**
 * @brief read and clear SMI_STS 
 * @return SMI_STS register
 */
static u32 reset_smi_status(void)
{
	u32 reg32;
	
	reg32 = inl(pmbase + SMI_STS);
	/* set status bits are cleared by writing 1 to them */
	outl(reg32, pmbase + SMI_STS);
	
	return reg32;
}

static void dump_smi_status(u32 smi_sts)
{
	printk_debug("SMI_STS: ");
	if (smi_sts & (1 << 26)) printk_debug("SPI ");
	if (smi_sts & (1 << 25)) printk_debug("EL_SMI ");
	if (smi_sts & (1 << 21)) printk_debug("MONITOR ");
	if (smi_sts & (1 << 20)) printk_debug("PCI_EXP_SMI ");
	if (smi_sts & (1 << 18)) printk_debug("INTEL_USB2 ");
	if (smi_sts & (1 << 17)) printk_debug("LEGACY_USB2 ");
	if (smi_sts & (1 << 16)) printk_debug("SMBUS_SMI ");
	if (smi_sts & (1 << 15)) printk_debug("SERIRQ_SMI ");
	if (smi_sts & (1 << 14)) printk_debug("PERIODIC ");
	if (smi_sts & (1 << 13)) printk_debug("TCO ");
	if (smi_sts & (1 << 12)) printk_debug("DEVMON ");
	if (smi_sts & (1 << 11)) printk_debug("MCSMI ");
	if (smi_sts & (1 << 10)) printk_debug("GPI ");
	if (smi_sts & (1 <<  9)) printk_debug("GPE0 ");
	if (smi_sts & (1 <<  8)) printk_debug("PM1 ");
	if (smi_sts & (1 <<  6)) printk_debug("SWSMI_TMR ");
	if (smi_sts & (1 <<  5)) printk_debug("APM ");
	if (smi_sts & (1 <<  4)) printk_debug("SLP_SMI ");
	if (smi_sts & (1 <<  3)) printk_debug("LEGACY_USB ");
	if (smi_sts & (1 <<  2)) printk_debug("BIOS ");
	printk_debug("\n");
}


/**
 * @brief read and clear GPE0_STS
 * @return GPE0_STS register
 */
static u32 reset_gpe0_status(void)
{
	u32 reg32;
	
	reg32 = inl(pmbase + GPE0_STS);
	/* set status bits are cleared by writing 1 to them */
	outl(reg32, pmbase + GPE0_STS);
	
	return reg32;
}

static void dump_gpe0_status(u32 gpe0_sts)
{
	int i;
	printk_debug("GPE0_STS: ");
	for (i=31; i<= 16; i--) {
		if (gpe0_sts & (1 << i)) printk_debug("GPIO%d ", (i-16));
	}
	if (gpe0_sts & (1 << 14)) printk_debug("USB4 ");
	if (gpe0_sts & (1 << 13)) printk_debug("PME_B0 ");
	if (gpe0_sts & (1 << 12)) printk_debug("USB3 ");
	if (gpe0_sts & (1 << 11)) printk_debug("PME ");
	if (gpe0_sts & (1 << 10)) printk_debug("EL_SCI/BATLOW ");
	if (gpe0_sts & (1 <<  9)) printk_debug("PCI_EXP ");
	if (gpe0_sts & (1 <<  8)) printk_debug("RI ");
	if (gpe0_sts & (1 <<  7)) printk_debug("SMB_WAK ");
	if (gpe0_sts & (1 <<  6)) printk_debug("TCO_SCI ");
	if (gpe0_sts & (1 <<  5)) printk_debug("AC97 ");
	if (gpe0_sts & (1 <<  4)) printk_debug("USB2 ");
	if (gpe0_sts & (1 <<  3)) printk_debug("USB1 ");
	if (gpe0_sts & (1 <<  2)) printk_debug("HOT_PLUG ");
	if (gpe0_sts & (1 <<  0)) printk_debug("THRM ");
	printk_debug("\n");
}


/**
 * @brief read and clear TCOx_STS 
 * @return TCOx_STS registers
 */
static u32 reset_tco_status(void)
{
	u32 tcobase = pmbase + 0x60;
	u32 reg32;
	
	reg32 = inl(tcobase + 0x04);
	/* set status bits are cleared by writing 1 to them */
	outl(reg32 & ~(1<<18), tcobase + 0x04); //  Don't clear BOOT_STS before SECOND_TO_STS
	if (reg32 & (1 << 18))
		outl(reg32 & (1<<18), tcobase + 0x04); // clear BOOT_STS
	
	return reg32;
}


static void dump_tco_status(u32 tco_sts)
{
	printk_debug("TCO_STS: ");
	if (tco_sts & (1 << 20)) printk_debug("SMLINK_SLV ");
	if (tco_sts & (1 << 18)) printk_debug("BOOT ");
	if (tco_sts & (1 << 17)) printk_debug("SECOND_TO ");
	if (tco_sts & (1 << 16)) printk_debug("INTRD_DET ");
	if (tco_sts & (1 << 12)) printk_debug("DMISERR ");
	if (tco_sts & (1 << 10)) printk_debug("DMISMI ");
	if (tco_sts & (1 <<  9)) printk_debug("DMISCI ");
	if (tco_sts & (1 <<  8)) printk_debug("BIOSWR ");
	if (tco_sts & (1 <<  7)) printk_debug("NEWCENTURY ");
	if (tco_sts & (1 <<  3)) printk_debug("TIMEOUT ");
	if (tco_sts & (1 <<  2)) printk_debug("TCO_INT ");
	if (tco_sts & (1 <<  1)) printk_debug("SW_TCO ");
	if (tco_sts & (1 <<  0)) printk_debug("NMI2SMI ");
	printk_debug("\n");
}


/* ********************* smi_util ************************* */

/* Data */
#define UART_RBR 0x00
#define UART_TBR 0x00

/* Control */
#define UART_IER 0x01
#define UART_IIR 0x02
#define UART_FCR 0x02
#define UART_LCR 0x03
#define UART_MCR 0x04
#define UART_DLL 0x00
#define UART_DLM 0x01

/* Status */
#define UART_LSR 0x05
#define UART_MSR 0x06
#define UART_SCR 0x07

static int uart_can_tx_byte(void)
{
	return inb(TTYS0_BASE + UART_LSR) & 0x20;
}

static void uart_wait_to_tx_byte(void)
{
	while(!uart_can_tx_byte()) 
	;
}

static void uart_wait_until_sent(void)
{
	while(!(inb(TTYS0_BASE + UART_LSR) & 0x40))
	; 
}

static void uart_tx_byte(unsigned char data)
{
	uart_wait_to_tx_byte();
	outb(data, TTYS0_BASE + UART_TBR);
	/* Make certain the data clears the fifos */
	uart_wait_until_sent();
}

void console_tx_flush(void)
{
	uart_wait_to_tx_byte();
}

void console_tx_byte(unsigned char byte)
{
	if (byte == '\n')
		uart_tx_byte('\r');
	uart_tx_byte(byte);
}

/* We are using PCIe accesses for now
 *  1. the chipset can do it
 *  2. we don't need to worry about how we leave 0xcf8/0xcfc behind
 */
#include "../../../northbridge/intel/i945/pcie_config.c"

/* ********************* smi_util ************************* */


void io_trap_handler(int smif)
{
	u8 reg8;
	global_nvs_t *gnvs = (global_nvs_t *)0xc00;

	printk_debug("SMI function trap 0x%x: ", smif);


	switch (smif) {
	case 0x32:
		printk_debug("OS Init\n");
		break;
	case 0xd6:
		printk_debug("Get Brightness\n");
		outb(0x17, 0x66);
		reg8 = inb(0x62);
		gnvs->brtl = reg8;
		break;
	default:
		printk_debug("Unknown function\n");
		break;
	}

	/* On success, the IO Trap Handler returns 0
	 * On failure, the IO Trap Handler returns a value != 0
	 *
	 * For now, we force the return value to 0 and log all traps to
	 * see what's going on.
	 */
	//gnvs->smif = 0;
}

/**
 * @brief Set the EOS bit
 */
static void smi_set_eos(void)
{
	u8 reg8;
	
	reg8 = inb(pmbase + SMI_EN);
	reg8 |= EOS;
	outb(reg8, pmbase + SMI_EN);
}

/**
 * @brief Interrupt handler for SMI#
 *
 * @param smm_revision revision of the smm state save map
 */

void smi_handler(u32 smm_revision)
{
	u8 reg8;
	u16 pmctrl;
	u16 pm1_sts;
	u32 smi_sts, gpe0_sts, tco_sts;
	unsigned int node;
	smm_state_save_area_t state_save;

	/* Are we ok to execute the handler? */
	if (!smi_obtain_lock())
		return;

	node=nodeid();

#ifdef DEBUG_SMI
	console_loglevel = DEFAULT_CONSOLE_LOGLEVEL;
#else
	console_loglevel = 1;
#endif

	printk_debug("\nSMI# #%d\n", node);

	switch (smm_revision) {
	case 0x00030007:
		state_save.type = LEGACY;
		state_save.legacy_state_save = (legacy_smm_state_save_area_t *)
			(0xa8000 + 0x7e00 - (node * 0x400));
		break;
	case 0x00030100:
		state_save.type = EM64T;
		state_save.em64t_state_save = (em64t_smm_state_save_area_t *)
			(0xa8000 + 0x7d00 - (node * 0x400));
		break;
	default:
		printk_debug("smm_revision: 0x%08x\n", smm_revision);
		printk_debug("SMI# not supported on your CPU\n");
		/* Don't release lock, so no further SMI will happen,
		 * if we don't handle it anyways.
		 */
		return;
	}

	pmbase = pcie_read_config16(PCI_DEV(0, 0x1f, 0), 0x40) & 0xfffc;
	printk_spew("SMI#: pmbase = 0x%04x\n", pmbase);
	
	/* We need to clear the SMI status registers, or we won't see what's
	 * happening in the following calls.
	 */
	smi_sts = reset_smi_status();
	dump_smi_status(smi_sts);

	if (smi_sts & (1 << 21)) { // MONITOR
		global_nvs_t *gnvs = (global_nvs_t *)0xc00;
		int i;
		u32 reg32;

		reg32 = RCBA32(0x1e00); // TRSR - Trap Status Register
#if 0
		/* Comment in for some useful debug */
		for (i=0; i<4; i++) {
			if (reg32 & (1 << i)) {
				printk_debug("  io trap #%d\n", i);
			}
		}
#endif
		RCBA32(0x1e00) = reg32; // TRSR

		reg32 = RCBA32(0x1e10);

		if ((reg32 & 0xfffc) != 0x808) {
			printk_debug("  trapped io address = 0x%x\n", reg32 & 0xfffc);
			printk_debug("  AHBE = %x\n", (reg32 >> 16) & 0xf);
			printk_debug("  read/write: %s\n", (reg32 & (1 << 24)) ? "read" :
				"write");
		}

		if (!(reg32 & (1 << 24))) {
			/* Write Cycle */
			reg32 = RCBA32(0x1e18);
			printk_debug("  iotrap written data = 0x%08x\n", reg32);

		}

		if (gnvs->smif)
			io_trap_handler(gnvs->smif); // call function smif
	}

	if (smi_sts & (1 << 13)) { // TCO
		tco_sts = reset_tco_status();
		dump_tco_status(tco_sts);

		if (tco_sts & (1 << 8)) { // BIOSWR
			u8 bios_cntl;

			bios_cntl = pcie_read_config16(PCI_DEV(0, 0x1f, 0), 0xdc);

			if (bios_cntl & 1) {
				/* BWE is RW, so the SMI was caused by a
				 * write to BWE, not by a write to the BIOS
				 */

				/* This is the place where we notice someone
				 * is trying to tinker with the BIOS. We are
				 * trying to be nice and just ignore it. A more
				 * resolute answer would be to power down the
				 * box.
				 */
				printk_debug("Switching back to RO\n");
				pcie_write_config32(PCI_DEV(0, 0x1f, 0), 0xdc, (bios_cntl & ~1));
			} /* No else for now? */
		}
	}

	if (smi_sts & (1 << 8)) { // PM1
		pm1_sts = reset_pm1_status();
		dump_pm1_status(pm1_sts);
	}

	if (smi_sts & (1 << 9)) { // GPE0
		gpe0_sts = reset_gpe0_status();
		dump_gpe0_status(gpe0_sts);
	}

	if (smi_sts & (1 << 5)) { // APM
		/* Emulate B2 register as the FADT / Linux expects it */

		reg8 = inb(0xb2);
		switch (reg8) {
		case ACPI_DISABLE:
			pmctrl = inw(pmbase + 0x04);
			pmctrl |= (1 << 0);
			outw(pmctrl, pmbase + 0x04);
			printk_debug("SMI#: ACPI disabled.\n");
			break;
		case ACPI_ENABLE:
			pmctrl = inw(pmbase + 0x04);
			pmctrl &= ~(1 << 0);
			outw(pmctrl, pmbase + 0x04);
			printk_debug("SMI#: ACPI enabled.\n");
			break;
		}
	}

	if (smi_sts & (1 << 4)) { // SLP_SMI
		u32 reg32;
		reg32 = inl(pmbase + 0x04);
		printk_debug("SMI#: SLP = 0x%08x\n");
		printk_debug("SMI#: Powering off.\n");
		outl((6 << 10), pmbase + 0x04);
		outl((1 << 13) | (6 << 10), pmbase + 0x04);
		printk_debug("....\n");
	}


	smi_release_lock();

	/* De-assert SMI# signal to allow another SMI */
	smi_set_eos();
}