// SPDX-License-Identifier: GPL-2.0-or-later /* * Copyright (c) 2022, Linaro Limited */ #include #include #include #include #include #include #include #include #include #include #include static struct fwu_mdata g_mdata; /* = {0} makes uninit crc32 always invalid */ static struct udevice *g_dev; static u8 in_trial; static u8 boottime_check; enum { IMAGE_ACCEPT_SET = 1, IMAGE_ACCEPT_CLEAR, }; enum { PRIMARY_PART = 1, SECONDARY_PART, BOTH_PARTS, }; static int trial_counter_update(u16 *trial_state_ctr) { bool delete; u32 var_attr; efi_status_t status; efi_uintn_t var_size; delete = !trial_state_ctr ? true : false; var_size = !trial_state_ctr ? 0 : (efi_uintn_t)sizeof(*trial_state_ctr); var_attr = !trial_state_ctr ? 0 : EFI_VARIABLE_NON_VOLATILE | EFI_VARIABLE_BOOTSERVICE_ACCESS; status = efi_set_variable_int(u"TrialStateCtr", &efi_global_variable_guid, var_attr, var_size, trial_state_ctr, false); if ((delete && (status != EFI_NOT_FOUND && status != EFI_SUCCESS)) || (!delete && status != EFI_SUCCESS)) return -1; return 0; } static int trial_counter_read(u16 *trial_state_ctr) { efi_status_t status; efi_uintn_t var_size; var_size = (efi_uintn_t)sizeof(trial_state_ctr); status = efi_get_variable_int(u"TrialStateCtr", &efi_global_variable_guid, NULL, &var_size, trial_state_ctr, NULL); if (status != EFI_SUCCESS) { log_err("Unable to read TrialStateCtr variable\n"); return -1; } return 0; } static int fwu_trial_count_update(void) { int ret; u16 trial_state_ctr; ret = trial_counter_read(&trial_state_ctr); if (ret) { log_debug("Unable to read trial_state_ctr\n"); goto out; } ++trial_state_ctr; if (trial_state_ctr > CONFIG_FWU_TRIAL_STATE_CNT) { log_info("Trial State count exceeded. Revert back to previous_active_index\n"); ret = fwu_revert_boot_index(); if (ret) log_err("Unable to revert active_index\n"); ret = 1; } else { log_info("Trial State count: attempt %d out of %d\n", trial_state_ctr, CONFIG_FWU_TRIAL_STATE_CNT); ret = trial_counter_update(&trial_state_ctr); if (ret) log_err("Unable to increment TrialStateCtr variable\n"); } out: return ret; } static int in_trial_state(struct fwu_mdata *mdata) { u32 i, active_bank; struct fwu_image_entry *img_entry; struct fwu_image_bank_info *img_bank_info; active_bank = mdata->active_index; img_entry = &mdata->img_entry[0]; for (i = 0; i < CONFIG_FWU_NUM_IMAGES_PER_BANK; i++) { img_bank_info = &img_entry[i].img_bank_info[active_bank]; if (!img_bank_info->accepted) { log_info("System booting in Trial State\n"); return 1; } } return 0; } static int fwu_get_image_type_id(u8 image_index, efi_guid_t *image_type_id) { int i; struct efi_fw_image *image; image = update_info.images; for (i = 0; i < update_info.num_images; i++) { if (image_index == image[i].image_index) { guidcpy(image_type_id, &image[i].image_type_id); return 0; } } return -ENOENT; } /** * fwu_sync_mdata() - Update given meta-data partition(s) with the copy provided * @mdata: FWU metadata structure * @part: Bitmask of FWU metadata partitions to be written to * * Return: 0 if OK, -ve on error */ static int fwu_sync_mdata(struct fwu_mdata *mdata, int part) { void *buf = &mdata->version; int err; if (part == BOTH_PARTS) { err = fwu_sync_mdata(mdata, SECONDARY_PART); if (err) return err; part = PRIMARY_PART; } /* * Calculate the crc32 for the updated FWU metadata * and put the updated value in the FWU metadata crc32 * field */ mdata->crc32 = crc32(0, buf, sizeof(*mdata) - sizeof(u32)); err = fwu_write_mdata(g_dev, mdata, part == PRIMARY_PART); if (err) { log_err("Unable to write %s mdata\n", part == PRIMARY_PART ? "primary" : "secondary"); return err; } /* update the cached copy of meta-data */ memcpy(&g_mdata, mdata, sizeof(struct fwu_mdata)); return 0; } static inline int mdata_crc_check(struct fwu_mdata *mdata) { void *buf = &mdata->version; u32 calc_crc32 = crc32(0, buf, sizeof(*mdata) - sizeof(u32)); return calc_crc32 == mdata->crc32 ? 0 : -EINVAL; } /** * fwu_get_mdata() - Read, verify and return the FWU metadata * @mdata: Output FWU metadata read or NULL * * Read both the metadata copies from the storage media, verify their checksum, * and ascertain that both copies match. If one of the copies has gone bad, * restore it from the good copy. * * Return: 0 if OK, -ve on error */ int fwu_get_mdata(struct fwu_mdata *mdata) { int err; bool parts_ok[2] = { false }; struct fwu_mdata s, *parts_mdata[2]; parts_mdata[0] = &g_mdata; parts_mdata[1] = &s; /* if mdata already read and ready */ err = mdata_crc_check(parts_mdata[0]); if (!err) goto ret_mdata; /* else read, verify and, if needed, fix mdata */ for (int i = 0; i < 2; i++) { parts_ok[i] = false; err = fwu_read_mdata(g_dev, parts_mdata[i], !i); if (!err) { err = mdata_crc_check(parts_mdata[i]); if (!err) parts_ok[i] = true; else log_debug("mdata : %s crc32 failed\n", i ? "secondary" : "primary"); } } if (parts_ok[0] && parts_ok[1]) { /* * Before returning, check that both the * FWU metadata copies are the same. */ err = memcmp(parts_mdata[0], parts_mdata[1], sizeof(struct fwu_mdata)); if (!err) goto ret_mdata; /* * If not, populate the secondary partition from the * primary partition copy. */ log_info("Both FWU metadata copies are valid but do not match."); log_info(" Restoring the secondary partition from the primary\n"); parts_ok[1] = false; } for (int i = 0; i < 2; i++) { if (parts_ok[i]) continue; memcpy(parts_mdata[i], parts_mdata[1 - i], sizeof(struct fwu_mdata)); err = fwu_sync_mdata(parts_mdata[i], i ? SECONDARY_PART : PRIMARY_PART); if (err) { log_debug("mdata : %s write failed\n", i ? "secondary" : "primary"); return err; } } ret_mdata: if (!err && mdata) memcpy(mdata, parts_mdata[0], sizeof(struct fwu_mdata)); return err; } /** * fwu_get_active_index() - Get active_index from the FWU metadata * @active_idx: active_index value to be read * * Read the active_index field from the FWU metadata and place it in * the variable pointed to be the function argument. * * Return: 0 if OK, -ve on error * */ int fwu_get_active_index(uint *active_idx) { int ret = 0; struct fwu_mdata *mdata = &g_mdata; /* * Found the FWU metadata partition, now read the active_index * value */ *active_idx = mdata->active_index; if (*active_idx >= CONFIG_FWU_NUM_BANKS) { log_debug("Active index value read is incorrect\n"); ret = -EINVAL; } return ret; } /** * fwu_set_active_index() - Set active_index in the FWU metadata * @active_idx: active_index value to be set * * Update the active_index field in the FWU metadata * * Return: 0 if OK, -ve on error * */ int fwu_set_active_index(uint active_idx) { int ret; struct fwu_mdata *mdata = &g_mdata; if (active_idx >= CONFIG_FWU_NUM_BANKS) { log_debug("Invalid active index value\n"); return -EINVAL; } /* * Update the active index and previous_active_index fields * in the FWU metadata */ mdata->previous_active_index = mdata->active_index; mdata->active_index = active_idx; /* * Now write this updated FWU metadata to both the * FWU metadata partitions */ ret = fwu_sync_mdata(mdata, BOTH_PARTS); if (ret) { log_debug("Failed to update FWU metadata partitions\n"); ret = -EIO; } return ret; } /** * fwu_get_dfu_alt_num() - Get the dfu_alt_num to be used for capsule update * @image_index: The Image Index for the image * @alt_num: pointer to store dfu_alt_num * * Currently, the capsule update driver uses the DFU framework for * the updates. This function gets the DFU alt number which is to * be used for capsule update. * * Return: 0 if OK, -ve on error * */ int fwu_get_dfu_alt_num(u8 image_index, u8 *alt_num) { int ret, i; uint update_bank; efi_guid_t *image_guid, image_type_id; struct fwu_mdata *mdata = &g_mdata; struct fwu_image_entry *img_entry; struct fwu_image_bank_info *img_bank_info; ret = fwu_plat_get_update_index(&update_bank); if (ret) { log_debug("Failed to get the FWU update bank\n"); goto out; } ret = fwu_get_image_type_id(image_index, &image_type_id); if (ret) { log_debug("Unable to get image_type_id for image_index %u\n", image_index); goto out; } ret = -EINVAL; /* * The FWU metadata has been read. Now get the image_uuid for the * image with the update_bank. */ for (i = 0; i < CONFIG_FWU_NUM_IMAGES_PER_BANK; i++) { if (!guidcmp(&image_type_id, &mdata->img_entry[i].image_type_uuid)) { img_entry = &mdata->img_entry[i]; img_bank_info = &img_entry->img_bank_info[update_bank]; image_guid = &img_bank_info->image_uuid; ret = fwu_plat_get_alt_num(g_dev, image_guid, alt_num); if (ret) log_debug("alt_num not found for partition with GUID %pUs\n", image_guid); else log_debug("alt_num %d for partition %pUs\n", *alt_num, image_guid); goto out; } } log_err("Partition with the image type %pUs not found\n", &image_type_id); out: return ret; } /** * fwu_revert_boot_index() - Revert the active index in the FWU metadata * * Revert the active_index value in the FWU metadata, by swapping the values * of active_index and previous_active_index in both copies of the * FWU metadata. * * Return: 0 if OK, -ve on error * */ int fwu_revert_boot_index(void) { int ret; u32 cur_active_index; struct fwu_mdata *mdata = &g_mdata; /* * Swap the active index and previous_active_index fields * in the FWU metadata */ cur_active_index = mdata->active_index; mdata->active_index = mdata->previous_active_index; mdata->previous_active_index = cur_active_index; /* * Now write this updated FWU metadata to both the * FWU metadata partitions */ ret = fwu_sync_mdata(mdata, BOTH_PARTS); if (ret) { log_debug("Failed to update FWU metadata partitions\n"); ret = -EIO; } return ret; } /** * fwu_clrset_image_accept() - Set or Clear the Acceptance bit for the image * @img_type_id: GUID of the image type for which the accepted bit is to be * set or cleared * @bank: Bank of which the image's Accept bit is to be set or cleared * @action: Action which specifies whether image's Accept bit is to be set or * cleared * * Set/Clear the accepted bit for the image specified by the img_guid parameter. * This indicates acceptance or rejection of image for subsequent boots by some * governing component like OS(or firmware). * * Return: 0 if OK, -ve on error * */ static int fwu_clrset_image_accept(efi_guid_t *img_type_id, u32 bank, u8 action) { int ret, i; struct fwu_mdata *mdata = &g_mdata; struct fwu_image_entry *img_entry; struct fwu_image_bank_info *img_bank_info; img_entry = &mdata->img_entry[0]; for (i = 0; i < CONFIG_FWU_NUM_IMAGES_PER_BANK; i++) { if (!guidcmp(&img_entry[i].image_type_uuid, img_type_id)) { img_bank_info = &img_entry[i].img_bank_info[bank]; if (action == IMAGE_ACCEPT_SET) img_bank_info->accepted |= FWU_IMAGE_ACCEPTED; else img_bank_info->accepted = 0; ret = fwu_sync_mdata(mdata, BOTH_PARTS); goto out; } } /* Image not found */ ret = -ENOENT; out: return ret; } /** * fwu_accept_image() - Set the Acceptance bit for the image * @img_type_id: GUID of the image type for which the accepted bit is to be * cleared * @bank: Bank of which the image's Accept bit is to be set * * Set the accepted bit for the image specified by the img_guid parameter. This * indicates acceptance of image for subsequent boots by some governing component * like OS(or firmware). * * Return: 0 if OK, -ve on error * */ int fwu_accept_image(efi_guid_t *img_type_id, u32 bank) { return fwu_clrset_image_accept(img_type_id, bank, IMAGE_ACCEPT_SET); } /** * fwu_clear_accept_image() - Clear the Acceptance bit for the image * @img_type_id: GUID of the image type for which the accepted bit is to be * cleared * @bank: Bank of which the image's Accept bit is to be cleared * * Clear the accepted bit for the image type specified by the img_type_id parameter. * This function is called after the image has been updated. The accepted bit is * cleared to be set subsequently after passing the image acceptance criteria, by * either the OS(or firmware) * * Return: 0 if OK, -ve on error * */ int fwu_clear_accept_image(efi_guid_t *img_type_id, u32 bank) { return fwu_clrset_image_accept(img_type_id, bank, IMAGE_ACCEPT_CLEAR); } /** * fwu_plat_get_update_index() - Get the value of the update bank * @update_idx: Bank number to which images are to be updated * * Get the value of the bank(partition) to which the update needs to be * made. * * Note: This is a weak function and platforms can override this with * their own implementation for selection of the update bank. * * Return: 0 if OK, -ve on error * */ __weak int fwu_plat_get_update_index(uint *update_idx) { int ret; u32 active_idx; ret = fwu_get_active_index(&active_idx); if (ret < 0) return -1; *update_idx = (active_idx + 1) % CONFIG_FWU_NUM_BANKS; return ret; } /** * fwu_plat_get_bootidx() - Get the value of the boot index * @boot_idx: Boot index value * * Get the value of the bank(partition) from which the platform * has booted. This value is passed to U-Boot from the earlier * stage bootloader which loads and boots all the relevant * firmware images */ __weak void fwu_plat_get_bootidx(uint *boot_idx) { int ret; ret = fwu_get_active_index(boot_idx); if (ret < 0) *boot_idx = 0; /* Dummy value */ } /** * fwu_update_checks_pass() - Check if FWU update can be done * * Check if the FWU update can be executed. The updates are * allowed only when the platform is not in Trial State and * the boot time checks have passed * * Return: 1 if OK, 0 if checks do not pass * */ u8 fwu_update_checks_pass(void) { return !in_trial && boottime_check; } /** * fwu_empty_capsule_checks_pass() - Check if empty capsule can be processed * * Check if the empty capsule can be processed to either accept or revert * an earlier executed update. The empty capsules need to be processed * only when the platform is in Trial State and the boot time checks have * passed * * Return: 1 if OK, 0 if not to be allowed * */ u8 fwu_empty_capsule_checks_pass(void) { return in_trial && boottime_check; } /** * fwu_trial_state_ctr_start() - Start the Trial State counter * * Start the counter to identify the platform booting in the * Trial State. The counter is implemented as an EFI variable. * * Return: 0 if OK, -ve on error * */ int fwu_trial_state_ctr_start(void) { int ret; u16 trial_state_ctr; trial_state_ctr = 0; ret = trial_counter_update(&trial_state_ctr); if (ret) log_err("Unable to initialise TrialStateCtr\n"); return ret; } static int fwu_boottime_checks(void) { int ret; u32 boot_idx, active_idx; ret = uclass_first_device_err(UCLASS_FWU_MDATA, &g_dev); if (ret) { log_debug("Cannot find fwu device\n"); return ret; } /* Don't have boot time checks on sandbox */ if (IS_ENABLED(CONFIG_SANDBOX)) { boottime_check = 1; return 0; } ret = fwu_get_mdata(NULL); if (ret) { log_debug("Unable to read meta-data\n"); return ret; } /* * Get the Boot Index, i.e. the bank from * which the platform has booted. This value * gets passed from the ealier stage bootloader * which booted u-boot, e.g. tf-a. If the * boot index is not the same as the * active_index read from the FWU metadata, * update the active_index. */ fwu_plat_get_bootidx(&boot_idx); if (boot_idx >= CONFIG_FWU_NUM_BANKS) { log_err("Received incorrect value of boot_index\n"); return 0; } ret = fwu_get_active_index(&active_idx); if (ret) { log_err("Unable to read active_index\n"); return 0; } if (boot_idx != active_idx) { log_info("Boot idx %u is not matching active idx %u, changing active_idx\n", boot_idx, active_idx); ret = fwu_set_active_index(boot_idx); if (!ret) boottime_check = 1; } if (efi_init_obj_list() != EFI_SUCCESS) return 0; in_trial = in_trial_state(&g_mdata); if (!in_trial || (ret = fwu_trial_count_update()) > 0) ret = trial_counter_update(NULL); if (!ret) boottime_check = 1; return 0; } EVENT_SPY_SIMPLE(EVT_MAIN_LOOP, fwu_boottime_checks);