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u-boot-brain/arch/arm/mach-imx/hab.c
Bryan O'Donoghue 2c6c68d282 arm: imx: hab: Print HAB event log only after calling ROM 
The current flow of authenticate_image() will print the HAB event log even
if we reject an element of the IVT header before ever calling into the ROM.
This can be confusing.

This patch changes the flow of the code so that the HAB event log is only
printed out if we have called into the ROM and received some sort of status
code.

Signed-off-by: Bryan O'Donoghue <bryan.odonoghue@linaro.org>
Suggested-by: Cc: Breno Matheus Lima <brenomatheus@gmail.com>
Cc: Stefano Babic <sbabic@denx.de>
Cc: Fabio Estevam <fabio.estevam@nxp.com>
Cc: Peng Fan <peng.fan@nxp.com>
Cc: Albert Aribaud <albert.u.boot@aribaud.net>
Cc: Sven Ebenfeld <sven.ebenfeld@gmail.com>
Cc: George McCollister <george.mccollister@gmail.com>
Tested-by: Breno Lima <breno.lima@nxp.com>
Reviewed-by: Fabio Estevam <fabio.estevam@nxp.com>
2018-01-14 17:26:30 +01:00

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/*
* Copyright (C) 2010-2015 Freescale Semiconductor, Inc.
*
* SPDX-License-Identifier: GPL-2.0+
*/
#include <common.h>
#include <config.h>
#include <fuse.h>
#include <asm/io.h>
#include <asm/system.h>
#include <asm/arch/clock.h>
#include <asm/arch/sys_proto.h>
#include <asm/mach-imx/hab.h>
/* -------- start of HAB API updates ------------*/
#define hab_rvt_report_event_p \
( \
(is_mx6dqp()) ? \
((hab_rvt_report_event_t *)HAB_RVT_REPORT_EVENT_NEW) : \
(is_mx6dq() && (soc_rev() >= CHIP_REV_1_5)) ? \
((hab_rvt_report_event_t *)HAB_RVT_REPORT_EVENT_NEW) : \
(is_mx6sdl() && (soc_rev() >= CHIP_REV_1_2)) ? \
((hab_rvt_report_event_t *)HAB_RVT_REPORT_EVENT_NEW) : \
((hab_rvt_report_event_t *)HAB_RVT_REPORT_EVENT) \
)
#define hab_rvt_report_status_p \
( \
(is_mx6dqp()) ? \
((hab_rvt_report_status_t *)HAB_RVT_REPORT_STATUS_NEW) :\
(is_mx6dq() && (soc_rev() >= CHIP_REV_1_5)) ? \
((hab_rvt_report_status_t *)HAB_RVT_REPORT_STATUS_NEW) :\
(is_mx6sdl() && (soc_rev() >= CHIP_REV_1_2)) ? \
((hab_rvt_report_status_t *)HAB_RVT_REPORT_STATUS_NEW) :\
((hab_rvt_report_status_t *)HAB_RVT_REPORT_STATUS) \
)
#define hab_rvt_authenticate_image_p \
( \
(is_mx6dqp()) ? \
((hab_rvt_authenticate_image_t *)HAB_RVT_AUTHENTICATE_IMAGE_NEW) : \
(is_mx6dq() && (soc_rev() >= CHIP_REV_1_5)) ? \
((hab_rvt_authenticate_image_t *)HAB_RVT_AUTHENTICATE_IMAGE_NEW) : \
(is_mx6sdl() && (soc_rev() >= CHIP_REV_1_2)) ? \
((hab_rvt_authenticate_image_t *)HAB_RVT_AUTHENTICATE_IMAGE_NEW) : \
((hab_rvt_authenticate_image_t *)HAB_RVT_AUTHENTICATE_IMAGE) \
)
#define hab_rvt_entry_p \
( \
(is_mx6dqp()) ? \
((hab_rvt_entry_t *)HAB_RVT_ENTRY_NEW) : \
(is_mx6dq() && (soc_rev() >= CHIP_REV_1_5)) ? \
((hab_rvt_entry_t *)HAB_RVT_ENTRY_NEW) : \
(is_mx6sdl() && (soc_rev() >= CHIP_REV_1_2)) ? \
((hab_rvt_entry_t *)HAB_RVT_ENTRY_NEW) : \
((hab_rvt_entry_t *)HAB_RVT_ENTRY) \
)
#define hab_rvt_exit_p \
( \
(is_mx6dqp()) ? \
((hab_rvt_exit_t *)HAB_RVT_EXIT_NEW) : \
(is_mx6dq() && (soc_rev() >= CHIP_REV_1_5)) ? \
((hab_rvt_exit_t *)HAB_RVT_EXIT_NEW) : \
(is_mx6sdl() && (soc_rev() >= CHIP_REV_1_2)) ? \
((hab_rvt_exit_t *)HAB_RVT_EXIT_NEW) : \
((hab_rvt_exit_t *)HAB_RVT_EXIT) \
)
static inline enum hab_status hab_rvt_check_target_new(enum hab_target target,
const void *start,
size_t bytes)
{
return HAB_SUCCESS;
}
#define hab_rvt_check_target_p \
( \
(is_mx6dqp()) ? \
((hab_rvt_check_target_t *)hab_rvt_check_target_new) : \
(is_mx6dq() && (soc_rev() >= CHIP_REV_1_5)) ? \
((hab_rvt_check_target_t *)hab_rvt_check_target_new) : \
(is_mx6sdl() && (soc_rev() >= CHIP_REV_1_2)) ? \
((hab_rvt_check_target_t *)hab_rvt_check_target_new) : \
((hab_rvt_check_target_t *)HAB_RVT_CHECK_TARGET) \
)
#define ALIGN_SIZE 0x1000
#define MX6DQ_PU_IROM_MMU_EN_VAR 0x009024a8
#define MX6DLS_PU_IROM_MMU_EN_VAR 0x00901dd0
#define MX6SL_PU_IROM_MMU_EN_VAR 0x00900a18
#define IS_HAB_ENABLED_BIT \
(is_soc_type(MXC_SOC_MX7ULP) ? 0x80000000 : \
(is_soc_type(MXC_SOC_MX7) ? 0x2000000 : 0x2))
static bool is_hab_enabled(void);
static int ivt_header_error(const char *err_str, struct ivt_header *ivt_hdr)
{
printf("%s magic=0x%x length=0x%02x version=0x%x\n", err_str,
ivt_hdr->magic, ivt_hdr->length, ivt_hdr->version);
return 1;
}
static int verify_ivt_header(struct ivt_header *ivt_hdr)
{
int result = 0;
if (ivt_hdr->magic != IVT_HEADER_MAGIC)
result = ivt_header_error("bad magic", ivt_hdr);
if (be16_to_cpu(ivt_hdr->length) != IVT_TOTAL_LENGTH)
result = ivt_header_error("bad length", ivt_hdr);
if (ivt_hdr->version != IVT_HEADER_V1 &&
ivt_hdr->version != IVT_HEADER_V2)
result = ivt_header_error("bad version", ivt_hdr);
return result;
}
#if !defined(CONFIG_SPL_BUILD)
#define MAX_RECORD_BYTES (8*1024) /* 4 kbytes */
struct record {
uint8_t tag; /* Tag */
uint8_t len[2]; /* Length */
uint8_t par; /* Version */
uint8_t contents[MAX_RECORD_BYTES];/* Record Data */
bool any_rec_flag;
};
char *rsn_str[] = {"RSN = HAB_RSN_ANY (0x00)\n",
"RSN = HAB_ENG_FAIL (0x30)\n",
"RSN = HAB_INV_ADDRESS (0x22)\n",
"RSN = HAB_INV_ASSERTION (0x0C)\n",
"RSN = HAB_INV_CALL (0x28)\n",
"RSN = HAB_INV_CERTIFICATE (0x21)\n",
"RSN = HAB_INV_COMMAND (0x06)\n",
"RSN = HAB_INV_CSF (0x11)\n",
"RSN = HAB_INV_DCD (0x27)\n",
"RSN = HAB_INV_INDEX (0x0F)\n",
"RSN = HAB_INV_IVT (0x05)\n",
"RSN = HAB_INV_KEY (0x1D)\n",
"RSN = HAB_INV_RETURN (0x1E)\n",
"RSN = HAB_INV_SIGNATURE (0x18)\n",
"RSN = HAB_INV_SIZE (0x17)\n",
"RSN = HAB_MEM_FAIL (0x2E)\n",
"RSN = HAB_OVR_COUNT (0x2B)\n",
"RSN = HAB_OVR_STORAGE (0x2D)\n",
"RSN = HAB_UNS_ALGORITHM (0x12)\n",
"RSN = HAB_UNS_COMMAND (0x03)\n",
"RSN = HAB_UNS_ENGINE (0x0A)\n",
"RSN = HAB_UNS_ITEM (0x24)\n",
"RSN = HAB_UNS_KEY (0x1B)\n",
"RSN = HAB_UNS_PROTOCOL (0x14)\n",
"RSN = HAB_UNS_STATE (0x09)\n",
"RSN = INVALID\n",
NULL};
char *sts_str[] = {"STS = HAB_SUCCESS (0xF0)\n",
"STS = HAB_FAILURE (0x33)\n",
"STS = HAB_WARNING (0x69)\n",
"STS = INVALID\n",
NULL};
char *eng_str[] = {"ENG = HAB_ENG_ANY (0x00)\n",
"ENG = HAB_ENG_SCC (0x03)\n",
"ENG = HAB_ENG_RTIC (0x05)\n",
"ENG = HAB_ENG_SAHARA (0x06)\n",
"ENG = HAB_ENG_CSU (0x0A)\n",
"ENG = HAB_ENG_SRTC (0x0C)\n",
"ENG = HAB_ENG_DCP (0x1B)\n",
"ENG = HAB_ENG_CAAM (0x1D)\n",
"ENG = HAB_ENG_SNVS (0x1E)\n",
"ENG = HAB_ENG_OCOTP (0x21)\n",
"ENG = HAB_ENG_DTCP (0x22)\n",
"ENG = HAB_ENG_ROM (0x36)\n",
"ENG = HAB_ENG_HDCP (0x24)\n",
"ENG = HAB_ENG_RTL (0x77)\n",
"ENG = HAB_ENG_SW (0xFF)\n",
"ENG = INVALID\n",
NULL};
char *ctx_str[] = {"CTX = HAB_CTX_ANY(0x00)\n",
"CTX = HAB_CTX_FAB (0xFF)\n",
"CTX = HAB_CTX_ENTRY (0xE1)\n",
"CTX = HAB_CTX_TARGET (0x33)\n",
"CTX = HAB_CTX_AUTHENTICATE (0x0A)\n",
"CTX = HAB_CTX_DCD (0xDD)\n",
"CTX = HAB_CTX_CSF (0xCF)\n",
"CTX = HAB_CTX_COMMAND (0xC0)\n",
"CTX = HAB_CTX_AUT_DAT (0xDB)\n",
"CTX = HAB_CTX_ASSERT (0xA0)\n",
"CTX = HAB_CTX_EXIT (0xEE)\n",
"CTX = INVALID\n",
NULL};
uint8_t hab_statuses[5] = {
HAB_STS_ANY,
HAB_FAILURE,
HAB_WARNING,
HAB_SUCCESS,
-1
};
uint8_t hab_reasons[26] = {
HAB_RSN_ANY,
HAB_ENG_FAIL,
HAB_INV_ADDRESS,
HAB_INV_ASSERTION,
HAB_INV_CALL,
HAB_INV_CERTIFICATE,
HAB_INV_COMMAND,
HAB_INV_CSF,
HAB_INV_DCD,
HAB_INV_INDEX,
HAB_INV_IVT,
HAB_INV_KEY,
HAB_INV_RETURN,
HAB_INV_SIGNATURE,
HAB_INV_SIZE,
HAB_MEM_FAIL,
HAB_OVR_COUNT,
HAB_OVR_STORAGE,
HAB_UNS_ALGORITHM,
HAB_UNS_COMMAND,
HAB_UNS_ENGINE,
HAB_UNS_ITEM,
HAB_UNS_KEY,
HAB_UNS_PROTOCOL,
HAB_UNS_STATE,
-1
};
uint8_t hab_contexts[12] = {
HAB_CTX_ANY,
HAB_CTX_FAB,
HAB_CTX_ENTRY,
HAB_CTX_TARGET,
HAB_CTX_AUTHENTICATE,
HAB_CTX_DCD,
HAB_CTX_CSF,
HAB_CTX_COMMAND,
HAB_CTX_AUT_DAT,
HAB_CTX_ASSERT,
HAB_CTX_EXIT,
-1
};
uint8_t hab_engines[16] = {
HAB_ENG_ANY,
HAB_ENG_SCC,
HAB_ENG_RTIC,
HAB_ENG_SAHARA,
HAB_ENG_CSU,
HAB_ENG_SRTC,
HAB_ENG_DCP,
HAB_ENG_CAAM,
HAB_ENG_SNVS,
HAB_ENG_OCOTP,
HAB_ENG_DTCP,
HAB_ENG_ROM,
HAB_ENG_HDCP,
HAB_ENG_RTL,
HAB_ENG_SW,
-1
};
static inline uint8_t get_idx(uint8_t *list, uint8_t tgt)
{
uint8_t idx = 0;
uint8_t element = list[idx];
while (element != -1) {
if (element == tgt)
return idx;
element = list[++idx];
}
return -1;
}
void process_event_record(uint8_t *event_data, size_t bytes)
{
struct record *rec = (struct record *)event_data;
printf("\n\n%s", sts_str[get_idx(hab_statuses, rec->contents[0])]);
printf("%s", rsn_str[get_idx(hab_reasons, rec->contents[1])]);
printf("%s", ctx_str[get_idx(hab_contexts, rec->contents[2])]);
printf("%s", eng_str[get_idx(hab_engines, rec->contents[3])]);
}
void display_event(uint8_t *event_data, size_t bytes)
{
uint32_t i;
if (!(event_data && bytes > 0))
return;
for (i = 0; i < bytes; i++) {
if (i == 0)
printf("\t0x%02x", event_data[i]);
else if ((i % 8) == 0)
printf("\n\t0x%02x", event_data[i]);
else
printf(" 0x%02x", event_data[i]);
}
process_event_record(event_data, bytes);
}
int get_hab_status(void)
{
uint32_t index = 0; /* Loop index */
uint8_t event_data[128]; /* Event data buffer */
size_t bytes = sizeof(event_data); /* Event size in bytes */
enum hab_config config = 0;
enum hab_state state = 0;
hab_rvt_report_event_t *hab_rvt_report_event;
hab_rvt_report_status_t *hab_rvt_report_status;
hab_rvt_report_event = hab_rvt_report_event_p;
hab_rvt_report_status = hab_rvt_report_status_p;
if (is_hab_enabled())
puts("\nSecure boot enabled\n");
else
puts("\nSecure boot disabled\n");
/* Check HAB status */
if (hab_rvt_report_status(&config, &state) != HAB_SUCCESS) {
printf("\nHAB Configuration: 0x%02x, HAB State: 0x%02x\n",
config, state);
/* Display HAB Error events */
while (hab_rvt_report_event(HAB_FAILURE, index, event_data,
&bytes) == HAB_SUCCESS) {
puts("\n");
printf("--------- HAB Event %d -----------------\n",
index + 1);
puts("event data:\n");
display_event(event_data, bytes);
puts("\n");
bytes = sizeof(event_data);
index++;
}
}
/* Display message if no HAB events are found */
else {
printf("\nHAB Configuration: 0x%02x, HAB State: 0x%02x\n",
config, state);
puts("No HAB Events Found!\n\n");
}
return 0;
}
int do_hab_status(cmd_tbl_t *cmdtp, int flag, int argc, char * const argv[])
{
if ((argc != 1)) {
cmd_usage(cmdtp);
return 1;
}
get_hab_status();
return 0;
}
static int do_authenticate_image(cmd_tbl_t *cmdtp, int flag, int argc,
char * const argv[])
{
ulong addr, length, ivt_offset;
int rcode = 0;
if (argc < 4)
return CMD_RET_USAGE;
addr = simple_strtoul(argv[1], NULL, 16);
length = simple_strtoul(argv[2], NULL, 16);
ivt_offset = simple_strtoul(argv[3], NULL, 16);
rcode = authenticate_image(addr, length, ivt_offset);
if (rcode == 0)
rcode = CMD_RET_SUCCESS;
else
rcode = CMD_RET_FAILURE;
return rcode;
}
U_BOOT_CMD(
hab_status, CONFIG_SYS_MAXARGS, 1, do_hab_status,
"display HAB status",
""
);
U_BOOT_CMD(
hab_auth_img, 4, 0, do_authenticate_image,
"authenticate image via HAB",
"addr length ivt_offset\n"
"addr - image hex address\n"
"length - image hex length\n"
"ivt_offset - hex offset of IVT in the image"
);
#endif /* !defined(CONFIG_SPL_BUILD) */
static bool is_hab_enabled(void)
{
struct imx_sec_config_fuse_t *fuse =
(struct imx_sec_config_fuse_t *)&imx_sec_config_fuse;
uint32_t reg;
int ret;
ret = fuse_read(fuse->bank, fuse->word, &reg);
if (ret) {
puts("\nSecure boot fuse read error\n");
return ret;
}
return (reg & IS_HAB_ENABLED_BIT) == IS_HAB_ENABLED_BIT;
}
int authenticate_image(uint32_t ddr_start, uint32_t image_size,
uint32_t ivt_offset)
{
uint32_t load_addr = 0;
size_t bytes;
uint32_t ivt_addr = 0;
int result = 1;
ulong start;
hab_rvt_authenticate_image_t *hab_rvt_authenticate_image;
hab_rvt_entry_t *hab_rvt_entry;
hab_rvt_exit_t *hab_rvt_exit;
hab_rvt_check_target_t *hab_rvt_check_target;
struct ivt *ivt;
struct ivt_header *ivt_hdr;
enum hab_status status;
hab_rvt_authenticate_image = hab_rvt_authenticate_image_p;
hab_rvt_entry = hab_rvt_entry_p;
hab_rvt_exit = hab_rvt_exit_p;
hab_rvt_check_target = hab_rvt_check_target_p;
if (!is_hab_enabled()) {
puts("hab fuse not enabled\n");
return result;
}
printf("\nAuthenticate image from DDR location 0x%x...\n",
ddr_start);
hab_caam_clock_enable(1);
/* Calculate IVT address header */
ivt_addr = ddr_start + ivt_offset;
ivt = (struct ivt *)ivt_addr;
ivt_hdr = &ivt->hdr;
/* Verify IVT header bugging out on error */
if (verify_ivt_header(ivt_hdr))
goto hab_caam_clock_disable;
/* Verify IVT body */
if (ivt->self != ivt_addr) {
printf("ivt->self 0x%08x pointer is 0x%08x\n",
ivt->self, ivt_addr);
goto hab_caam_clock_disable;
}
start = ddr_start;
bytes = image_size;
if (hab_rvt_entry() != HAB_SUCCESS) {
puts("hab entry function fail\n");
goto hab_exit_failure_print_status;
}
status = hab_rvt_check_target(HAB_TGT_MEMORY, (void *)ddr_start, bytes);
if (status != HAB_SUCCESS) {
printf("HAB check target 0x%08x-0x%08x fail\n",
ddr_start, ddr_start + bytes);
goto hab_exit_failure_print_status;
}
#ifdef DEBUG
printf("\nivt_offset = 0x%x, ivt addr = 0x%x\n", ivt_offset, ivt_addr);
printf("ivt entry = 0x%08x, dcd = 0x%08x, csf = 0x%08x\n", ivt->entry,
ivt->dcd, ivt->csf);
puts("Dumping IVT\n");
print_buffer(ivt_addr, (void *)(ivt_addr), 4, 0x8, 0);
puts("Dumping CSF Header\n");
print_buffer(ivt->csf, (void *)(ivt->csf), 4, 0x10, 0);
#if !defined(CONFIG_SPL_BUILD)
get_hab_status();
#endif
puts("\nCalling authenticate_image in ROM\n");
printf("\tivt_offset = 0x%x\n", ivt_offset);
printf("\tstart = 0x%08lx\n", start);
printf("\tbytes = 0x%x\n", bytes);
#endif
/*
* If the MMU is enabled, we have to notify the ROM
* code, or it won't flush the caches when needed.
* This is done, by setting the "pu_irom_mmu_enabled"
* word to 1. You can find its address by looking in
* the ROM map. This is critical for
* authenticate_image(). If MMU is enabled, without
* setting this bit, authentication will fail and may
* crash.
*/
/* Check MMU enabled */
if (is_soc_type(MXC_SOC_MX6) && get_cr() & CR_M) {
if (is_mx6dq()) {
/*
* This won't work on Rev 1.0.0 of
* i.MX6Q/D, since their ROM doesn't
* do cache flushes. don't think any
* exist, so we ignore them.
*/
if (!is_mx6dqp())
writel(1, MX6DQ_PU_IROM_MMU_EN_VAR);
} else if (is_mx6sdl()) {
writel(1, MX6DLS_PU_IROM_MMU_EN_VAR);
} else if (is_mx6sl()) {
writel(1, MX6SL_PU_IROM_MMU_EN_VAR);
}
}
load_addr = (uint32_t)hab_rvt_authenticate_image(
HAB_CID_UBOOT,
ivt_offset, (void **)&start,
(size_t *)&bytes, NULL);
if (hab_rvt_exit() != HAB_SUCCESS) {
puts("hab exit function fail\n");
load_addr = 0;
}
hab_exit_failure_print_status:
#if !defined(CONFIG_SPL_BUILD)
get_hab_status();
#endif
hab_caam_clock_disable:
hab_caam_clock_enable(0);
if (load_addr != 0)
result = 0;
return result;
}
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