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review.coreboot.org / coreboot / bd8e761be20c08e56fd79e357727101def0ff622 / . / src / soc / intel / common / block / cse / cse_lite.c
blob: 8e43e35c47c00c891595ba0df46905390191cdaf [file] [log] [blame]
/* SPDX-License-Identifier: GPL-2.0-only */
#include <bootstate.h>
#include <console/console.h>
#include <soc/intel/common/reset.h>
#include <intelblocks/cse.h>
#include <security/vboot/vboot_common.h>
#include <security/vboot/misc.h>
#include <vb2_api.h>
/* Converts bp index to boot partition string */
#define GET_BP_STR(bp_index) (bp_index ? "RW" : "RO")
/*
* CSE Firmware supports 3 boot partitions. For CSE Lite SKU, only 2 boot partitions are
* used and 3rd boot partition is set to BP_STATUS_PARTITION_NOT_PRESENT.
* CSE Lite SKU Image Layout:
* ------------- ------------------- ---------------------
* |CSE REGION | => | RO | RW | DATA | => | BP1 | BP2 | DATA |
* ------------- ------------------- ---------------------
*/
#define CSE_MAX_BOOT_PARTITIONS 3
/* CSE Lite SKU's valid bootable partition identifiers */
enum boot_partition_id {
/* RO(BP1) contains recovery/minimal boot FW */
RO = 0,
/* RW(BP2) contains fully functional CSE Firmware */
RW = 1
};
/* CSE recovery sub-error codes */
enum csme_failure_reason {
/* Unspecified error */
CSE_LITE_SKU_UNSPECIFIED = 1,
/* CSE fails to boot from RW */
CSE_LITE_SKU_RW_JUMP_ERROR = 2,
/* CSE RW boot partition access error */
CSE_LITE_SKU_RW_ACCESS_ERROR = 3,
/* Fails to set next boot partition as RW */
CSE_LITE_SKU_RW_SWITCH_ERROR = 4,
/* CSE firmware update failure */
CSE_LITE_SKU_FW_UPDATE_ERROR = 5,
/* Fails to communicate with CSE */
CSE_LITE_SKU_COMMUNICATION_ERROR = 6,
/* Fails to wipe CSE runtime data */
CSE_LITE_SKU_DATA_WIPE_ERROR = 7
};
/*
* Boot partition status.
* The status is returned in response to MKHI_BUP_COMMON_GET_BOOT_PARTITION_INFO cmd.
*/
enum bp_status {
/* This value is returned when a partition has no errors */
BP_STATUS_SUCCESS = 0,
/*
* This value is returned when a partition should be present based on layout, but it is
* not valid.
*/
BP_STATUS_GENERAL_FAILURE = 1,
/* This value is returned when a partition is not present per initial image layout */
BP_STATUS_PARTITION_NOT_PRESENT = 2,
};
/*
* Boot Partition Info Flags
* The flags are returned in response to MKHI_BUP_COMMON_GET_BOOT_PARTITION_INFO cmd.
*/
enum bp_info_flags {
/* Redundancy Enabled: It indicates CSE supports RO(BP1) and RW(BP2) regions */
BP_INFO_REDUNDANCY_EN = 1 << 0,
/* It indicates RO(BP1) supports Minimal Recovery Mode */
BP_INFO_MIN_RECOV_MODE_EN = 1 << 1,
/*
* Read-only Config Enabled: It indicates HW protection to CSE RO region is enabled.
* The option is relevant only if the BP_INFO_MIN_RECOV_MODE_EN flag is enabled.
*/
BP_INFO_READ_ONLY_CFG = 1 << 2,
};
/* Boot Partition FW Version */
struct fw_version {
uint16_t major;
uint16_t minor;
uint16_t hotfix;
uint16_t build;
} __packed;
/* CSE boot partition entry info */
struct cse_bp_entry {
/* Boot partition version */
struct fw_version fw_ver;
/* Boot partition status */
uint32_t status;
/* Starting offset of the partition within CSE region */
uint32_t start_offset;
/* Ending offset of the partition within CSE region */
uint32_t end_offset;
uint8_t reserved[12];
} __packed;
/* CSE boot partition info */
struct cse_bp_info {
/* Number of boot partitions */
uint8_t total_number_of_bp;
/* Current boot partition */
uint8_t current_bp;
/* Next boot partition */
uint8_t next_bp;
/* Boot Partition Info Flags */
uint8_t flags;
/* Boot Partition Entry Info */
struct cse_bp_entry bp_entries[CSE_MAX_BOOT_PARTITIONS];
} __packed;
struct get_bp_info_rsp {
struct mkhi_hdr hdr;
struct cse_bp_info bp_info;
} __packed;
static void cse_trigger_recovery(uint8_t rec_sub_code)
{
if (CONFIG(VBOOT)) {
struct vb2_context *ctx;
ctx = vboot_get_context();
vb2api_fail(ctx, VB2_RECOVERY_INTEL_CSE_LITE_SKU, rec_sub_code);
vboot_save_data(ctx);
vboot_reboot();
}
die("cse_lite: Failed to trigger recovery mode(recovery subcode:%d)\n", rec_sub_code);
}
static uint8_t cse_get_current_bp(const struct cse_bp_info *cse_bp_info)
{
return cse_bp_info->current_bp;
}
static const struct cse_bp_entry *cse_get_bp_entry(enum boot_partition_id bp,
const struct cse_bp_info *cse_bp_info)
{
return &cse_bp_info->bp_entries[bp];
}
static void cse_print_boot_partition_info(const struct cse_bp_info *cse_bp_info)
{
const struct cse_bp_entry *cse_bp;
printk(BIOS_DEBUG, "cse_lite: Number of partitions = %d\n",
cse_bp_info->total_number_of_bp);
printk(BIOS_DEBUG, "cse_lite: Current partition = %s\n",
GET_BP_STR(cse_bp_info->current_bp));
printk(BIOS_DEBUG, "cse_lite: Next partition = %s\n", GET_BP_STR(cse_bp_info->next_bp));
printk(BIOS_DEBUG, "cse_lite: Flags = 0x%x\n", cse_bp_info->flags);
/* Log version info of RO & RW partitions */
cse_bp = cse_get_bp_entry(RO, cse_bp_info);
printk(BIOS_DEBUG, "cse_lite: %s version = %d.%d.%d.%d (Status=0x%x, Start=0x%x, End=0x%x)\n",
GET_BP_STR(RO), cse_bp->fw_ver.major, cse_bp->fw_ver.minor,
cse_bp->fw_ver.hotfix, cse_bp->fw_ver.build,
cse_bp->status, cse_bp->start_offset,
cse_bp->end_offset);
cse_bp = cse_get_bp_entry(RW, cse_bp_info);
printk(BIOS_DEBUG, "cse_lite: %s version = %d.%d.%d.%d (Status=0x%x, Start=0x%x, End=0x%x)\n",
GET_BP_STR(RW), cse_bp->fw_ver.major, cse_bp->fw_ver.minor,
cse_bp->fw_ver.hotfix, cse_bp->fw_ver.build,
cse_bp->status, cse_bp->start_offset,
cse_bp->end_offset);
}
/*
* Checks prerequisites for MKHI_BUP_COMMON_GET_BOOT_PARTITION_INFO and
* MKHI_BUP_COMMON_SET_BOOT_PARTITION_INFO HECI commands.
* It allows execution of the Boot Partition commands in below scenarios:
* - When CSE boots from RW partition (COM: Normal and CWS: Normal)
* - When CSE boots from RO partition (COM: Soft Temp Disable and CWS: Normal)
* - After HMRFPO_ENABLE command is issued to CSE (COM: SECOVER_MEI_MSG and CWS: Normal)
*/
static bool cse_is_bp_cmd_info_possible(void)
{
if (cse_is_hfs1_cws_normal()) {
if (cse_is_hfs1_com_normal())
return true;
if (cse_is_hfs1_com_secover_mei_msg())
return true;
if (cse_is_hfs1_com_soft_temp_disable())
return true;
}
return false;
}
static bool cse_get_bp_info(struct get_bp_info_rsp *bp_info_rsp)
{
struct get_bp_info_req {
struct mkhi_hdr hdr;
uint8_t reserved[4];
} __packed;
struct get_bp_info_req info_req = {
.hdr.group_id = MKHI_GROUP_ID_BUP_COMMON,
.hdr.command = MKHI_BUP_COMMON_GET_BOOT_PARTITION_INFO,
.reserved = {0},
};
if (!cse_is_bp_cmd_info_possible()) {
printk(BIOS_ERR, "cse_lite: CSE does not meet prerequisites\n");
return false;
}
size_t resp_size = sizeof(struct get_bp_info_rsp);
if (!heci_send_receive(&info_req, sizeof(info_req), bp_info_rsp, &resp_size)) {
printk(BIOS_ERR, "cse_lite: Could not get partition info\n");
return false;
}
if (bp_info_rsp->hdr.result) {
printk(BIOS_ERR, "cse_lite: Get partition info resp failed: %d\n",
bp_info_rsp->hdr.result);
return false;
}
cse_print_boot_partition_info(&bp_info_rsp->bp_info);
return true;
}
/*
* It sends HECI command to notify CSE about its next boot partition. When coreboot wants
* CSE to boot from certain partition (BP1 <RO> or BP2 <RW>), then this command can be used.
* The CSE's valid bootable partitions are BP1(RO) and BP2(RW).
* This function must be used before EOP.
* Returns false on failure and true on success.
*/
static bool cse_set_next_boot_partition(enum boot_partition_id bp)
{
struct set_boot_partition_info_req {
struct mkhi_hdr hdr;
uint8_t next_bp;
uint8_t reserved[3];
} __packed;
struct set_boot_partition_info_req switch_req = {
.hdr.group_id = MKHI_GROUP_ID_BUP_COMMON,
.hdr.command = MKHI_BUP_COMMON_SET_BOOT_PARTITION_INFO,
.next_bp = bp,
.reserved = {0},
};
if (bp != RO && bp != RW) {
printk(BIOS_ERR, "cse_lite: Incorrect partition id(%d) is provided", bp);
return false;
}
printk(BIOS_INFO, "cse_lite: Set Boot Partition Info Command (%s)\n", GET_BP_STR(bp));
if (!cse_is_bp_cmd_info_possible()) {
printk(BIOS_ERR, "cse_lite: CSE does not meet prerequisites\n");
return false;
}
struct mkhi_hdr switch_resp;
size_t sw_resp_sz = sizeof(struct mkhi_hdr);
if (!heci_send_receive(&switch_req, sizeof(switch_req), &switch_resp, &sw_resp_sz))
return false;
if (switch_resp.result) {
printk(BIOS_ERR, "cse_lite: Set Boot Partition Info Response Failed: %d\n",
switch_resp.result);
return false;
}
return true;
}
static bool cse_boot_to_rw(const struct cse_bp_info *cse_bp_info)
{
if (cse_get_current_bp(cse_bp_info) == RW)
return true;
if (!cse_set_next_boot_partition(RW))
return false;
do_global_reset();
die("cse_lite: Failed to reset system\n");
/* Control never reaches here */
return false;
}
static bool cse_is_rw_status_valid(const struct cse_bp_info *cse_bp_info)
{
const struct cse_bp_entry *rw_bp;
/* RW(BP2) alone represents RW partition */
rw_bp = cse_get_bp_entry(RW, cse_bp_info);
if (rw_bp->status == BP_STATUS_PARTITION_NOT_PRESENT ||
rw_bp->status == BP_STATUS_GENERAL_FAILURE) {
printk(BIOS_ERR, "cse_lite: RW BP (status:%u) is not valid\n", rw_bp->status);
return false;
}
return true;
}
static bool cse_is_rw_info_valid(struct cse_bp_info *cse_bp_info)
{
return cse_is_rw_status_valid(cse_bp_info);
}
void cse_fw_sync(void *unused)
{
static struct get_bp_info_rsp cse_bp_info;
if (vboot_recovery_mode_enabled()) {
printk(BIOS_DEBUG, "cse_lite: Skip switching to RW in the recovery path\n");
return;
}
/* If CSE SKU type is not Lite, skip enabling CSE Lite SKU */
if (!cse_is_hfs3_fw_sku_lite()) {
printk(BIOS_ERR, "cse_lite: Not a CSE Lite SKU\n");
return;
}
if (!cse_get_bp_info(&cse_bp_info)) {
printk(BIOS_ERR, "cse_lite: Failed to get CSE boot partition info\n");
cse_trigger_recovery(CSE_LITE_SKU_COMMUNICATION_ERROR);
}
if (!cse_is_rw_info_valid(&cse_bp_info.bp_info)) {
printk(BIOS_ERR, "cse_lite: CSE RW partition is not valid\n");
cse_trigger_recovery(CSE_LITE_SKU_RW_JUMP_ERROR);
}
if (!cse_boot_to_rw(&cse_bp_info.bp_info)) {
printk(BIOS_ERR, "cse_lite: Failed to switch to RW\n");
cse_trigger_recovery(CSE_LITE_SKU_RW_SWITCH_ERROR);
}
}
#if CONFIG(SOC_INTEL_TIGERLAKE)
BOOT_STATE_INIT_ENTRY(BS_DEV_INIT_CHIPS, BS_ON_ENTRY, cse_fw_sync, NULL);
#else
BOOT_STATE_INIT_ENTRY(BS_PRE_DEVICE, BS_ON_ENTRY, cse_fw_sync, NULL);
#endif