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/*
* This file is part of the coreboot project.
*
* Copyright (C) 2016-2017 Intel Corporation.
*
* 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 <device/pci_ops.h>
#include <bootstate.h>
#include <commonlib/helpers.h>
#include <console/console.h>
#include <device/pci.h>
#include <intelblocks/cse.h>
#include <soc/iomap.h>
#include <soc/me.h>
#include <soc/pci_devs.h>
#include <stdint.h>
#include <stdlib.h>
#include <string.h>
/* HFSTS1[3:0] Current Working State Values */
static const char *const 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)",
};
/* HFSTS1[8:6] Current Operation State Values */
static const char *const 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"
};
/* HFSTS1[19:16] Current Operation Mode Values */
static const char *const 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"
};
/* HFSTS1[15:12] Error Code Values */
static const char *const 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"
};
/* HFSTS2[31:28] ME Progress Code */
static const char *const me_progress_values[] = {
[ME_HFS2_PHASE_ROM] = "ROM Phase",
[1] = "Unknown (1)",
[ME_HFS2_PHASE_UKERNEL] = "uKernel Phase",
[ME_HFS2_PHASE_BUP] = "BUP Phase",
[4] = "Unknown (4)",
[5] = "Unknown (5)",
[ME_HFS2_PHASE_HOST_COMM] = "Host Communication",
[7] = "Unknown (7)",
[8] = "Unknown (8)"
};
/* HFSTS2[27:24] Power Management Event */
static const char *const 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_CM0_CM3] =
"CM0->CM3",
[ME_HFS2_PMEVENT_CM3_CM0] =
"CM3->CM0",
[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_CMX_CMOFF] =
"Cx/Mx->Cx/Moff",
[ME_HFS2_PMEVENT_CM0_CM0PG] =
"CM0->CM0PG",
[ME_HFS2_PMEVENT_CM3_CM3PG] =
"CM3->CM3PG",
[ME_HFS2_PMEVENT_CM0PG_CM0] =
"CM0PG->CM0"
};
/* Progress Code 0 states */
static const char *const me_progress_rom_values[] = {
[ME_HFS2_STATE_ROM_BEGIN] = "BEGIN",
[ME_HFS2_STATE_ROM_DISABLE] = "DISABLE"
};
/* Progress Code 1 states */
static const char *const 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_CG_ENABLE] =
"Enabling CG for cset",
[ME_HFS2_STATE_BUP_PM_HND_EN] =
"Enabling PM handshaking",
[ME_HFS2_STATE_BUP_FLOW_DET] =
"Flow determination start process",
[ME_HFS2_STATE_BUP_PMC_PATCHING] =
"PMC Patching process",
[ME_HFS2_STATE_BUP_GET_FLASH_VSCC] =
"Get VSCC params",
[ME_HFS2_STATE_BUP_SET_FLASH_VSCC] =
"Set VSCC params",
[ME_HFS2_STATE_BUP_VSCC_ERR] =
"Error reading/matching the VSCC table in the descriptor",
[ME_HFS2_STATE_BUP_EFSS_INIT] =
"Initialize EFFS",
[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_STRAP_DIS] =
"EFFS says ME disabled",
[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",
};
static void print_me_version(void *unused)
{
struct mkhi_hdr {
uint8_t group_id;
uint8_t command:7;
uint8_t is_resp:1;
uint8_t rsvd;
uint8_t result;
} __packed;
struct version {
uint16_t minor;
uint16_t major;
uint16_t build;
uint16_t hotfix;
} __packed;
struct fw_ver_resp {
struct mkhi_hdr hdr;
struct version code;
struct version rec;
struct version fitc;
} __packed;
const struct mkhi_hdr fw_ver_msg = {
.group_id = MKHI_GEN_GROUP_ID,
.command = MKHI_GET_FW_VERSION,
};
struct fw_ver_resp resp;
size_t resp_size = sizeof(resp);
union me_hfsts1 hfs1;
/*
* Print ME version only if UART debugging is enabled. Else, it takes ~1
* second to talk to ME and get this information.
*/
if (!CONFIG(CONSOLE_SERIAL))
return;
if (!is_cse_enabled())
return;
hfs1.data = me_read_config32(PCI_ME_HFSTS1);
/*
* This command can be run only if:
* - Working state is normal and
* - Operation mode is normal.
*/
if ((hfs1.fields.working_state != ME_HFS_CWS_NORMAL) ||
(hfs1.fields.operation_mode != ME_HFS_MODE_NORMAL))
goto failed;
/*
* It is important to do a heci_reset to ensure BIOS and ME are in sync
* before reading firmware version.
*/
heci_reset();
if (!heci_send(&fw_ver_msg, sizeof(fw_ver_msg), BIOS_HOST_ADD,
HECI_MKHI_ADD))
goto failed;
if (!heci_receive(&resp, &resp_size))
goto failed;
if (resp.hdr.result)
goto failed;
printk(BIOS_DEBUG, "ME: Version : %d.%d.%d.%d\n", resp.code.major,
resp.code.minor, resp.code.hotfix, resp.code.build);
return;
failed:
printk(BIOS_DEBUG, "ME: Version : Unavailable\n");
}
/*
* This can't be put in intel_me_status because by the time control
* reaches there, ME doesn't respond to GET_FW_VERSION command.
*/
BOOT_STATE_INIT_ENTRY(BS_DEV_ENABLE, BS_ON_EXIT, print_me_version, NULL);
void intel_me_status(void)
{
union me_hfsts1 hfs1;
union me_hfs2 hfs2;
union me_hfs3 hfs3;
union me_hfs6 hfs6;
if (!is_cse_enabled())
return;
hfs1.data = me_read_config32(PCI_ME_HFSTS1);
hfs2.data = me_read_config32(PCI_ME_HFSTS2);
hfs3.data = me_read_config32(PCI_ME_HFSTS3);
hfs6.data = me_read_config32(PCI_ME_HFSTS6);
printk(BIOS_DEBUG, "ME: Host Firmware Status Register 1 : 0x%08X\n",
hfs1.data);
printk(BIOS_DEBUG, "ME: Host Firmware Status Register 2 : 0x%08X\n",
hfs2.data);
printk(BIOS_DEBUG, "ME: Host Firmware Status Register 3 : 0x%08X\n",
hfs3.data);
printk(BIOS_DEBUG, "ME: Host Firmware Status Register 4 : 0x%08X\n",
me_read_config32(PCI_ME_HFSTS4));
printk(BIOS_DEBUG, "ME: Host Firmware Status Register 5 : 0x%08X\n",
me_read_config32(PCI_ME_HFSTS5));
printk(BIOS_DEBUG, "ME: Host Firmware Status Register 6 : 0x%08X\n",
hfs6.data);
/* Check Current States */
printk(BIOS_DEBUG, "ME: FW Partition Table : %s\n",
hfs1.fields.fpt_bad ? "BAD" : "OK");
printk(BIOS_DEBUG, "ME: Bringup Loader Failure : %s\n",
hfs1.fields.ft_bup_ld_flr ? "YES" : "NO");
printk(BIOS_DEBUG, "ME: Firmware Init Complete : %s\n",
hfs1.fields.fw_init_complete ? "YES" : "NO");
printk(BIOS_DEBUG, "ME: Manufacturing Mode : %s\n",
hfs1.fields.mfg_mode ? "YES" : "NO");
printk(BIOS_DEBUG, "ME: Boot Options Present : %s\n",
hfs1.fields.boot_options_present ? "YES" : "NO");
printk(BIOS_DEBUG, "ME: Update In Progress : %s\n",
hfs1.fields.update_in_progress ? "YES" : "NO");
printk(BIOS_DEBUG, "ME: D3 Support : %s\n",
hfs1.fields.d3_support_valid ? "YES" : "NO");
printk(BIOS_DEBUG, "ME: D0i3 Support : %s\n",
hfs1.fields.d0i3_support_valid ? "YES" : "NO");
printk(BIOS_DEBUG, "ME: Low Power State Enabled : %s\n",
hfs2.fields.low_power_state ? "YES" : "NO");
printk(BIOS_DEBUG, "ME: CPU Replaced : %s\n",
hfs2.fields.cpu_replaced_sts ? "YES" : "NO");
printk(BIOS_DEBUG, "ME: CPU Replacement Valid : %s\n",
hfs2.fields.cpu_replaced_valid ? "YES" : "NO");
printk(BIOS_DEBUG, "ME: Current Working State : %s\n",
me_cws_values[hfs1.fields.working_state]);
printk(BIOS_DEBUG, "ME: Current Operation State : %s\n",
me_opstate_values[hfs1.fields.operation_state]);
printk(BIOS_DEBUG, "ME: Current Operation Mode : %s\n",
me_opmode_values[hfs1.fields.operation_mode]);
printk(BIOS_DEBUG, "ME: Error Code : %s\n",
me_error_values[hfs1.fields.error_code]);
printk(BIOS_DEBUG, "ME: Progress Phase : %s\n",
me_progress_values[hfs2.fields.progress_code]);
printk(BIOS_DEBUG, "ME: Power Management Event : %s\n",
me_pmevent_values[hfs2.fields.current_pmevent]);
printk(BIOS_DEBUG, "ME: Progress Phase State : ");
switch (hfs2.fields.progress_code) {
case ME_HFS2_PHASE_ROM: /* ROM Phase */
if (hfs2.fields.current_state
< ARRAY_SIZE(me_progress_rom_values)
&& me_progress_rom_values[hfs2.fields.current_state])
printk(BIOS_DEBUG, "%s",
me_progress_rom_values[
hfs2.fields.current_state]);
else
printk(BIOS_DEBUG, "0x%02x", hfs2.fields.current_state);
break;
case ME_HFS2_PHASE_UKERNEL: /* uKernel Phase */
printk(BIOS_DEBUG, "0x%02x", hfs2.fields.current_state);
break;
case ME_HFS2_PHASE_BUP: /* Bringup Phase */
if (hfs2.fields.current_state
< ARRAY_SIZE(me_progress_bup_values)
&& me_progress_bup_values[hfs2.fields.current_state])
printk(BIOS_DEBUG, "%s",
me_progress_bup_values[
hfs2.fields.current_state]);
else
printk(BIOS_DEBUG, "0x%02x", hfs2.fields.current_state);
break;
case ME_HFS2_PHASE_HOST_COMM: /* Host Communication Phase */
if (!hfs2.fields.current_state)
printk(BIOS_DEBUG, "Host communication established");
else
printk(BIOS_DEBUG, "0x%02x", hfs2.fields.current_state);
break;
default:
printk(BIOS_DEBUG, "Unknown phase: 0x%02x state: 0x%02x",
hfs2.fields.progress_code, hfs2.fields.current_state);
}
printk(BIOS_DEBUG, "\n");
/* Power Down Mitigation Status */
printk(BIOS_DEBUG, "ME: Power Down Mitigation : %s\n",
hfs3.fields.power_down_mitigation ? "YES" : "NO");
if (hfs3.fields.power_down_mitigation) {
printk(BIOS_INFO, "ME: PD Mitigation State : ");
if (hfs3.fields.encrypt_key_override == 1 &&
hfs3.fields.encrypt_key_check == 0 &&
hfs3.fields.pch_config_change == 0)
printk(BIOS_INFO, "Normal Operation");
else if (hfs3.fields.encrypt_key_override == 1 &&
hfs3.fields.encrypt_key_check == 1 &&
hfs3.fields.pch_config_change == 0)
printk(BIOS_INFO, "Issue Detected and Recovered");
else
printk(BIOS_INFO, "Issue Detected but not Recovered");
printk(BIOS_INFO, "\n");
printk(BIOS_DEBUG, "ME: Encryption Key Override : %s\n",
hfs3.fields.encrypt_key_override ? "Workaround Applied" :
"Unable to override");
printk(BIOS_DEBUG, "ME: Encryption Key Check : %s\n",
hfs3.fields.encrypt_key_check ? "FAIL" : "PASS");
printk(BIOS_DEBUG, "ME: PCH Configuration Info : %s\n",
hfs3.fields.pch_config_change ? "Changed" : "No Change");
printk(BIOS_DEBUG, "ME: Firmware SKU : ");
switch (hfs3.fields.fw_sku) {
case ME_HFS3_FW_SKU_CONSUMER:
printk(BIOS_DEBUG, "Consumer\n");
break;
case ME_HFS3_FW_SKU_CORPORATE:
printk(BIOS_DEBUG, "Corporate\n");
break;
default:
printk(BIOS_DEBUG, "Unknown (0x%x)\n",
hfs3.fields.fw_sku);
}
}
printk(BIOS_DEBUG, "ME: FPF status : ");
switch (hfs6.fields.fpf_nvars) {
case ME_HFS6_FPF_NOT_COMMITTED:
printk(BIOS_DEBUG, "unfused\n");
break;
case ME_HFS6_FPF_ERROR:
printk(BIOS_DEBUG, "unknown\n");
break;
default:
printk(BIOS_DEBUG, "fused\n");
}
}
static int send_heci_reset_message(void)
{
int status;
struct reset_reply {
u8 group_id;
u8 command;
u8 reserved;
u8 result;
} __packed reply;
struct reset_message {
u8 group_id;
u8 cmd;
u8 reserved;
u8 result;
u8 req_origin;
u8 reset_type;
} __packed;
struct reset_message msg = {
.cmd = MKHI_GLOBAL_RESET,
.req_origin = GR_ORIGIN_BIOS_POST,
.reset_type = GLOBAL_RST_TYPE
};
size_t reply_size;
heci_reset();
status = heci_send(&msg, sizeof(msg), BIOS_HOST_ADD, HECI_MKHI_ADD);
if (!status)
return -1;
reply_size = sizeof(reply);
memset(&reply, 0, reply_size);
status = heci_receive(&reply, &reply_size);
if (!status)
return -1;
/* get reply result from HECI MSG */
if (reply.result) {
printk(BIOS_DEBUG, "%s: Exit with Failure\n", __func__);
return -1;
}
printk(BIOS_DEBUG, "%s: Exit with Success\n", __func__);
return 0;
}
int send_global_reset(void)
{
int status = -1;
union me_hfsts1 hfs1;
if (!is_cse_enabled())
goto ret;
/* Check ME operating mode */
hfs1.data = me_read_config32(PCI_ME_HFSTS1);
if (hfs1.fields.operation_mode)
goto ret;
/* ME should be in Normal Mode for this command */
status = send_heci_reset_message();
ret:
return status;
}
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