src/soc/intel/broadwell/me_status.c

/*
 * This file is part of the coreboot project.
 *
 * Copyright (C) 2014 Google Inc.
 *
 * 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.
 */

#include <arch/io.h>
#include <console/console.h>
#include <device/pci.h>
#include <device/pci_ids.h>
#include <stdlib.h>
#include <string.h>
#include <soc/pci_devs.h>
#include <soc/me.h>
#include <delay.h>

#define ARRAY_TO_ELEMENT(__array__, __index__, __default__) \
	(((__index__) < ARRAY_SIZE((__array__))) ? \
		(__array__)[(__index__)] : \
		(__default__))


static inline void me_read_dword_ptr(void *ptr, int offset)
{
	u32 dword = pci_read_config32(PCH_DEV_ME, offset);
	memcpy(ptr, &dword, sizeof(dword));
}

#if (CONFIG_DEFAULT_CONSOLE_LOGLEVEL >= BIOS_DEBUG)

/* HFS1[3:0] Current Working State Values */
static const char *me_cws_values[] = {
	[ME_HFS_CWS_RESET]	= "Reset",
	[ME_HFS_CWS_INIT]	= "Initializing",
	[ME_HFS_CWS_REC]	= "Recovery",
	[3]			= "Unknown (3)",
	[4]			= "Unknown (4)",
	[ME_HFS_CWS_NORMAL]	= "Normal",
	[ME_HFS_CWS_WAIT]	= "Platform Disable Wait",
	[ME_HFS_CWS_TRANS]	= "OP State Transition",
	[ME_HFS_CWS_INVALID]	= "Invalid CPU Plugged In",
	[9]			= "Unknown (9)",
	[10]			= "Unknown (10)",
	[11]			= "Unknown (11)",
	[12]			= "Unknown (12)",
	[13]			= "Unknown (13)",
	[14]			= "Unknown (14)",
	[15]			= "Unknown (15)",
};

/* HFS1[8:6] Current Operation State Values */
static const char *me_opstate_values[] = {
	[ME_HFS_STATE_PREBOOT]	= "Preboot",
	[ME_HFS_STATE_M0_UMA]	= "M0 with UMA",
	[ME_HFS_STATE_M3]	= "M3 without UMA",
	[ME_HFS_STATE_M0]	= "M0 without UMA",
	[ME_HFS_STATE_BRINGUP]	= "Bring up",
	[ME_HFS_STATE_ERROR]	= "M0 without UMA but with error"
};

/* HFS[19:16] Current Operation Mode Values */
static const char *me_opmode_values[] = {
	[ME_HFS_MODE_NORMAL]	= "Normal",
	[ME_HFS_MODE_DEBUG]	= "Debug",
	[ME_HFS_MODE_DIS]	= "Soft Temporary Disable",
	[ME_HFS_MODE_OVER_JMPR]	= "Security Override via Jumper",
	[ME_HFS_MODE_OVER_MEI]	= "Security Override via MEI Message"
};

/* HFS[15:12] Error Code Values */
static const char *me_error_values[] = {
	[ME_HFS_ERROR_NONE]	= "No Error",
	[ME_HFS_ERROR_UNCAT]	= "Uncategorized Failure",
	[ME_HFS_ERROR_IMAGE]	= "Image Failure",
	[ME_HFS_ERROR_DEBUG]	= "Debug Failure"
};

/* HFS2[31:28] ME Progress Code */
static const char *me_progress_values[] = {
	[ME_HFS2_PHASE_ROM]		= "ROM Phase",
	[ME_HFS2_PHASE_BUP]		= "BUP Phase",
	[ME_HFS2_PHASE_UKERNEL]		= "uKernel Phase",
	[ME_HFS2_PHASE_POLICY]		= "Policy Module",
	[ME_HFS2_PHASE_MODULE_LOAD]	= "Module Loading",
	[ME_HFS2_PHASE_UNKNOWN]		= "Unknown",
	[ME_HFS2_PHASE_HOST_COMM]	= "Host Communication"
};

/* HFS2[27:24] Power Management Event */
static const char *me_pmevent_values[] = {
	[ME_HFS2_PMEVENT_CLEAN_MOFF_MX_WAKE] =
	"Clean Moff->Mx wake",
	[ME_HFS2_PMEVENT_MOFF_MX_WAKE_ERROR] =
	"Moff->Mx wake after an error",
	[ME_HFS2_PMEVENT_CLEAN_GLOBAL_RESET] =
	"Clean global reset",
	[ME_HFS2_PMEVENT_CLEAN_GLOBAL_RESET_ERROR] =
	"Global reset after an error",
	[ME_HFS2_PMEVENT_CLEAN_ME_RESET] =
	"Clean Intel ME reset",
	[ME_HFS2_PMEVENT_ME_RESET_EXCEPTION] =
	"Intel ME reset due to exception",
	[ME_HFS2_PMEVENT_PSEUDO_ME_RESET] =
	"Pseudo-global reset",
	[ME_HFS2_PMEVENT_S0MO_SXM3] =
	"S0/M0->Sx/M3",
	[ME_HFS2_PMEVENT_SXM3_S0M0] =
	"Sx/M3->S0/M0",
	[ME_HFS2_PMEVENT_NON_PWR_CYCLE_RESET] =
	"Non-power cycle reset",
	[ME_HFS2_PMEVENT_PWR_CYCLE_RESET_M3] =
	"Power cycle reset through M3",
	[ME_HFS2_PMEVENT_PWR_CYCLE_RESET_MOFF] =
	"Power cycle reset through Moff",
	[ME_HFS2_PMEVENT_SXMX_SXMOFF] =
	"Sx/Mx->Sx/Moff"
};

/* Progress Code 0 states */
static const char *me_progress_rom_values[] = {
	[ME_HFS2_STATE_ROM_BEGIN] = "BEGIN",
	[ME_HFS2_STATE_ROM_DISABLE] = "DISABLE"
};

/* Progress Code 1 states */
static const char *me_progress_bup_values[] = {
	[ME_HFS2_STATE_BUP_INIT] =
	"Initialization starts",
	[ME_HFS2_STATE_BUP_DIS_HOST_WAKE] =
	"Disable the host wake event",
	[ME_HFS2_STATE_BUP_FLOW_DET] =
	"Flow determination start process",
	[ME_HFS2_STATE_BUP_VSCC_ERR] =
	"Error reading/matching the VSCC table in the descriptor",
	[ME_HFS2_STATE_BUP_CHECK_STRAP] =
	"Check to see if straps say ME DISABLED",
	[ME_HFS2_STATE_BUP_PWR_OK_TIMEOUT] =
	"Timeout waiting for PWROK",
	[ME_HFS2_STATE_BUP_MANUF_OVRD_STRAP] =
	"Possibly handle BUP manufacturing override strap",
	[ME_HFS2_STATE_BUP_M3] =
	"Bringup in M3",
	[ME_HFS2_STATE_BUP_M0] =
	"Bringup in M0",
	[ME_HFS2_STATE_BUP_FLOW_DET_ERR] =
	"Flow detection error",
	[ME_HFS2_STATE_BUP_M3_CLK_ERR] =
	"M3 clock switching error",
	[ME_HFS2_STATE_BUP_CPU_RESET_DID_TIMEOUT_MEM_MISSING] =
	"Host error - CPU reset timeout, DID timeout, memory missing",
	[ME_HFS2_STATE_BUP_M3_KERN_LOAD] =
	"M3 kernel load",
	[ME_HFS2_STATE_BUP_T32_MISSING] =
	"T34 missing - cannot program ICC",
	[ME_HFS2_STATE_BUP_WAIT_DID] =
	"Waiting for DID BIOS message",
	[ME_HFS2_STATE_BUP_WAIT_DID_FAIL] =
	"Waiting for DID BIOS message failure",
	[ME_HFS2_STATE_BUP_DID_NO_FAIL] =
	"DID reported no error",
	[ME_HFS2_STATE_BUP_ENABLE_UMA] =
	"Enabling UMA",
	[ME_HFS2_STATE_BUP_ENABLE_UMA_ERR] =
	"Enabling UMA error",
	[ME_HFS2_STATE_BUP_SEND_DID_ACK] =
	"Sending DID Ack to BIOS",
	[ME_HFS2_STATE_BUP_SEND_DID_ACK_ERR] =
	"Sending DID Ack to BIOS error",
	[ME_HFS2_STATE_BUP_M0_CLK] =
	"Switching clocks in M0",
	[ME_HFS2_STATE_BUP_M0_CLK_ERR] =
	"Switching clocks in M0 error",
	[ME_HFS2_STATE_BUP_TEMP_DIS] =
	"ME in temp disable",
	[ME_HFS2_STATE_BUP_M0_KERN_LOAD] =
	"M0 kernel load",
};

/* Progress Code 3 states */
static const char *me_progress_policy_values[] = {
	[ME_HFS2_STATE_POLICY_ENTRY] = "Entry into Policy Module",
	[ME_HFS2_STATE_POLICY_RCVD_S3] = "Received S3 entry",
	[ME_HFS2_STATE_POLICY_RCVD_S4] = "Received S4 entry",
	[ME_HFS2_STATE_POLICY_RCVD_S5] = "Received S5 entry",
	[ME_HFS2_STATE_POLICY_RCVD_UPD] = "Received UPD entry",
	[ME_HFS2_STATE_POLICY_RCVD_PCR] = "Received PCR entry",
	[ME_HFS2_STATE_POLICY_RCVD_NPCR] = "Received NPCR entry",
	[ME_HFS2_STATE_POLICY_RCVD_HOST_WAKE] = "Received host wake",
	[ME_HFS2_STATE_POLICY_RCVD_AC_DC] = "Received AC<>DC switch",
	[ME_HFS2_STATE_POLICY_RCVD_DID] = "Received DRAM Init Done",
	[ME_HFS2_STATE_POLICY_VSCC_NOT_FOUND] =
	"VSCC Data not found for flash device",
	[ME_HFS2_STATE_POLICY_VSCC_INVALID] =
	"VSCC Table is not valid",
	[ME_HFS2_STATE_POLICY_FPB_ERR] =
	"Flash Partition Boundary is outside address space",
	[ME_HFS2_STATE_POLICY_DESCRIPTOR_ERR] =
	"ME cannot access the chipset descriptor region",
	[ME_HFS2_STATE_POLICY_VSCC_NO_MATCH] =
	"Required VSCC values for flash parts do not match",
};

void intel_me_status(void)
{
	struct me_hfs _hfs, *hfs = &_hfs;
	struct me_hfs2 _hfs2, *hfs2 = &_hfs2;

	me_read_dword_ptr(hfs, PCI_ME_HFS);
	me_read_dword_ptr(hfs2, PCI_ME_HFS2);

	/* Check Current States */
	printk(BIOS_DEBUG, "ME: FW Partition Table      : %s\n",
	       hfs->fpt_bad ? "BAD" : "OK");
	printk(BIOS_DEBUG, "ME: Bringup Loader Failure  : %s\n",
	       hfs->ft_bup_ld_flr ? "YES" : "NO");
	printk(BIOS_DEBUG, "ME: Firmware Init Complete  : %s\n",
	       hfs->fw_init_complete ? "YES" : "NO");
	printk(BIOS_DEBUG, "ME: Manufacturing Mode      : %s\n",
	       hfs->mfg_mode ? "YES" : "NO");
	printk(BIOS_DEBUG, "ME: Boot Options Present    : %s\n",
	       hfs->boot_options_present ? "YES" : "NO");
	printk(BIOS_DEBUG, "ME: Update In Progress      : %s\n",
	       hfs->update_in_progress ? "YES" : "NO");
	printk(BIOS_DEBUG, "ME: Current Working State   : %s\n",
	       ARRAY_TO_ELEMENT(me_cws_values,
				hfs->working_state,
				"Unknown (OOB)"));
	printk(BIOS_DEBUG, "ME: Current Operation State : %s\n",
	       ARRAY_TO_ELEMENT(me_opstate_values,
				hfs->operation_state,
				"Unknown (OOB)"));
	printk(BIOS_DEBUG, "ME: Current Operation Mode  : %s\n",
	       ARRAY_TO_ELEMENT(me_opmode_values,
				hfs->operation_mode,
				"Unknown (OOB)"));
	printk(BIOS_DEBUG, "ME: Error Code              : %s\n",
	       ARRAY_TO_ELEMENT(me_error_values,
				hfs->error_code,
				"Unknown (OOB)"));
	printk(BIOS_DEBUG, "ME: Progress Phase          : %s\n",
	       ARRAY_TO_ELEMENT(me_progress_values,
				hfs2->progress_code,
				"Unknown (OOB)"));
	printk(BIOS_DEBUG, "ME: Power Management Event  : %s\n",
	       ARRAY_TO_ELEMENT(me_pmevent_values,
				hfs2->current_pmevent,
				"Unknown (OOB)"));

	printk(BIOS_DEBUG, "ME: Progress Phase State    : ");
	switch (hfs2->progress_code) {
	case ME_HFS2_PHASE_ROM:		/* ROM Phase */
		printk(BIOS_DEBUG, "%s",
		       ARRAY_TO_ELEMENT(me_progress_rom_values,
					hfs2->current_state,
					"Unknown (OOB)"));
		break;

	case ME_HFS2_PHASE_UKERNEL:	/* uKernel Phase */
		printk(BIOS_DEBUG, "0x%02x", hfs2->current_state);
		break;

	case ME_HFS2_PHASE_BUP:		/* Bringup Phase */
		if (ARRAY_TO_ELEMENT(me_progress_bup_values,
					hfs2->current_state, NULL))
			printk(BIOS_DEBUG, "%s",
			       ARRAY_TO_ELEMENT(me_progress_bup_values,
						hfs2->current_state,
						NULL));
		else
			printk(BIOS_DEBUG, "0x%02x", hfs2->current_state);
		break;

	case ME_HFS2_PHASE_POLICY:	/* Policy Module Phase */
		if (ARRAY_TO_ELEMENT(me_progress_policy_values,
					hfs2->current_state, NULL))
			printk(BIOS_DEBUG, "%s",
			       ARRAY_TO_ELEMENT(me_progress_policy_values,
						hfs2->current_state,
						NULL));
		else
			printk(BIOS_DEBUG, "0x%02x", hfs2->current_state);
		break;

	case ME_HFS2_PHASE_HOST_COMM:	/* Host Communication Phase */
		if (!hfs2->current_state)
			printk(BIOS_DEBUG, "Host communication established");
		else
			printk(BIOS_DEBUG, "0x%02x", hfs2->current_state);
		break;

	default:
		printk(BIOS_DEBUG, "Unknown phase: 0x%02x state: 0x%02x",
		       hfs2->progress_code, hfs2->current_state);
	}
	printk(BIOS_DEBUG, "\n");
}
#endif

void intel_me_hsio_version(uint16_t *version, uint16_t *checksum)
{
	int count;
	u32 hsiover;
	struct me_hfs hfs;

	/* Query for HSIO version, overloads H_GS and HFS */
	pci_write_config32(PCH_DEV_ME, PCI_ME_H_GS,
			   ME_HSIO_MESSAGE | ME_HSIO_CMD_GETHSIOVER);

	/* Must wait for ME acknowledgement */
	for (count = ME_RETRY; count > 0; --count) {
		me_read_dword_ptr(&hfs, PCI_ME_HFS);
		if (hfs.bios_msg_ack)
			break;
		udelay(ME_DELAY);
	}
	if (!count) {
		printk(BIOS_ERR, "ERROR: ME failed to respond\n");
		return;
	}

	/* HSIO version should be in HFS_5 */
	hsiover = pci_read_config32(PCH_DEV_ME, PCI_ME_HFS5);
	*version = hsiover >> 16;
	*checksum = hsiover & 0xffff;

	printk(BIOS_DEBUG, "ME: HSIO Version            : %d (CRC 0x%04x)\n",
	       *version, *checksum);

	/* Reset registers to normal behavior */
	pci_write_config32(PCH_DEV_ME, PCI_ME_H_GS,
			   ME_HSIO_MESSAGE | ME_HSIO_CMD_GETHSIOVER);
}