/* Copyright (c) 2013 The Chromium OS Authors. All rights reserved. * Use of this source code is governed by a BSD-style license that can be * found in the LICENSE file. * * Display functions used in kernel selection. */ #include "bmpblk_font.h" #include "gbb_header.h" #include "utility.h" #include "vboot_api.h" #include "vboot_common.h" #include "vboot_display.h" #include "vboot_nvstorage.h" static uint32_t disp_current_screen = VB_SCREEN_BLANK; static uint32_t disp_width = 0, disp_height = 0; VbError_t VbGetLocalizationCount(VbCommonParams *cparams, uint32_t *count) { GoogleBinaryBlockHeader *gbb = (GoogleBinaryBlockHeader *)cparams->gbb_data; BmpBlockHeader *hdr; /* Default to 0 on error */ *count = 0; /* Make sure bitmap data is inside the GBB and is non-zero in size */ if (0 == gbb->bmpfv_size || gbb->bmpfv_offset > cparams->gbb_size || gbb->bmpfv_offset + gbb->bmpfv_size > cparams->gbb_size) { return VBERROR_INVALID_GBB; } /* Sanity-check the bitmap block header */ hdr = (BmpBlockHeader *)(((uint8_t *)gbb) + gbb->bmpfv_offset); if ((0 != Memcmp(hdr->signature, BMPBLOCK_SIGNATURE, BMPBLOCK_SIGNATURE_SIZE)) || (hdr->major_version > BMPBLOCK_MAJOR_VERSION) || ((hdr->major_version == BMPBLOCK_MAJOR_VERSION) && (hdr->minor_version > BMPBLOCK_MINOR_VERSION))) { return VBERROR_INVALID_BMPFV; } *count = hdr->number_of_localizations; return VBERROR_SUCCESS; } const char *VbHWID(VbCommonParams *cparams) { GoogleBinaryBlockHeader *gbb = (GoogleBinaryBlockHeader *)cparams->gbb_data; if (0 == gbb->hwid_size || gbb->hwid_offset > cparams->gbb_size || gbb->hwid_offset + gbb->hwid_size > cparams->gbb_size) { VBDEBUG(("VbHWID(): invalid hwid offset/size\n")); return "{INVALID}"; } return (char *)((uint8_t *)gbb + gbb->hwid_offset); } /* * TODO: We could cache the font info to speed things up, by making the * in-memory font structure distinct from the in-flash version. We'll do that * Real Soon Now. Until then, we just repeat the same linear search every time. */ VbFont_t *VbInternalizeFontData(FontArrayHeader *fonthdr) { /* Just return the raw data pointer for now. */ return (VbFont_t *)fonthdr; } void VbDoneWithFontForNow(VbFont_t *ptr) { /* Nothing. */ } ImageInfo *VbFindFontGlyph(VbFont_t *font, uint32_t ascii, void **bufferptr, uint32_t *buffersize) { uint8_t *ptr, *firstptr; uint32_t max; uint32_t i; FontArrayEntryHeader *entry; ptr = (uint8_t *)font; max = ((FontArrayHeader *)ptr)->num_entries; ptr += sizeof(FontArrayHeader); firstptr = ptr; /* * Simple linear search. * * Note: We're assuming glpyhs are uncompressed. That's true because * the bmpblk_font tool doesn't compress anything. The bmpblk_utility * does, but it compresses the entire font blob at once, and we've * already uncompressed that before we got here. */ for(i=0; iascii == ascii) { *bufferptr = ptr + sizeof(FontArrayEntryHeader); *buffersize = entry->info.original_size; return &(entry->info); } ptr += sizeof(FontArrayEntryHeader)+entry->info.compressed_size; } /* * We must return something valid. We'll just use the first glyph in * the font structure (so it should be something distinct). */ entry = (FontArrayEntryHeader *)firstptr; *bufferptr = firstptr + sizeof(FontArrayEntryHeader); *buffersize = entry->info.original_size; return &(entry->info); } void VbRenderTextAtPos(const char *text, int right_to_left, uint32_t x, uint32_t y, VbFont_t *font) { int i; ImageInfo *image_info = 0; void *buffer; uint32_t buffersize; uint32_t cur_x = x, cur_y = y; if (!text || !font) { VBDEBUG((" VbRenderTextAtPos: invalid args\n")); return; } for (i=0; text[i]; i++) { if (text[i] == '\n') { if (!image_info) image_info = VbFindFontGlyph(font, text[i], &buffer, &buffersize); cur_x = x; cur_y += image_info->height; continue; } image_info = VbFindFontGlyph(font, text[i], &buffer, &buffersize); if (right_to_left) cur_x -= image_info->width; if (VBERROR_SUCCESS != VbExDisplayImage(cur_x, cur_y, buffer, buffersize)) { VBDEBUG((" VbRenderTextAtPos: " "can't display ascii 0x%x\n", text[i])); } if (!right_to_left) cur_x += image_info->width; } } #define OUTBUF_LEN 128 VbError_t VbDisplayScreenFromGBB(VbCommonParams *cparams, uint32_t screen, VbNvContext *vncptr) { GoogleBinaryBlockHeader *gbb = (GoogleBinaryBlockHeader *)cparams->gbb_data; static uint8_t *bmpfv; void *fullimage = NULL; BmpBlockHeader *hdr; ScreenLayout *layout; ImageInfo *image_info; uint32_t screen_index; uint32_t localization = 0; VbError_t retval = VBERROR_UNKNOWN; /* Assume error until proven ok */ uint32_t inoutsize; uint32_t offset; uint32_t i; VbFont_t *font; const char *text_to_show; int rtol = 0; char outbuf[OUTBUF_LEN] = ""; uint32_t used = 0; /* Make sure bitmap data is inside the GBB and is non-zero in size */ if (0 == gbb->bmpfv_size || gbb->bmpfv_offset > cparams->gbb_size || gbb->bmpfv_offset + gbb->bmpfv_size > cparams->gbb_size) { VBDEBUG(("VbDisplayScreenFromGBB(): " "invalid bmpfv offset/size\n")); return VBERROR_INVALID_GBB; } /* Copy bitmap data from GBB into RAM for speed */ if (!bmpfv) { #ifdef COPY_BMP_DATA bmpfv = (uint8_t *)VbExMalloc(gbb->bmpfv_size); Memcpy(bmpfv, ((uint8_t *)gbb) + gbb->bmpfv_offset, gbb->bmpfv_size); #else bmpfv = ((uint8_t *)gbb) + gbb->bmpfv_offset; #endif } /* Sanity-check the bitmap block header */ hdr = (BmpBlockHeader *)bmpfv; if ((0 != Memcmp(hdr->signature, BMPBLOCK_SIGNATURE, BMPBLOCK_SIGNATURE_SIZE)) || (hdr->major_version > BMPBLOCK_MAJOR_VERSION) || ((hdr->major_version == BMPBLOCK_MAJOR_VERSION) && (hdr->minor_version > BMPBLOCK_MINOR_VERSION))) { VBDEBUG(("VbDisplayScreenFromGBB(): " "invalid/too new bitmap header\n")); retval = VBERROR_INVALID_BMPFV; goto VbDisplayScreenFromGBB_exit; } /* * Translate screen ID into index. Note that not all screens are in * the GBB. * * TODO: ensure screen IDs match indices? Having this translation here * is awful. */ switch (screen) { case VB_SCREEN_DEVELOPER_WARNING: screen_index = SCREEN_DEVELOPER_WARNING; break; case VB_SCREEN_RECOVERY_REMOVE: screen_index = SCREEN_RECOVERY_REMOVE; break; case VB_SCREEN_RECOVERY_NO_GOOD: screen_index = SCREEN_RECOVERY_NO_GOOD; break; case VB_SCREEN_RECOVERY_INSERT: screen_index = SCREEN_RECOVERY_INSERT; break; case VB_SCREEN_RECOVERY_TO_DEV: screen_index = SCREEN_RECOVERY_TO_DEV; break; case VB_SCREEN_DEVELOPER_TO_NORM: screen_index = SCREEN_DEVELOPER_TO_NORM; break; case VB_SCREEN_WAIT: screen_index = SCREEN_WAIT; break; case VB_SCREEN_TO_NORM_CONFIRMED: screen_index = SCREEN_TO_NORM_CONFIRMED; break; case VB_SCREEN_BLANK: case VB_SCREEN_DEVELOPER_EGG: default: /* Screens which aren't in the GBB */ VBDEBUG(("VbDisplayScreenFromGBB(): screen %d not in the GBB\n", (int)screen)); retval = VBERROR_INVALID_SCREEN_INDEX; goto VbDisplayScreenFromGBB_exit; } if (screen_index >= hdr->number_of_screenlayouts) { VBDEBUG(("VbDisplayScreenFromGBB(): " "screen %d index %d not in the GBB\n", (int)screen, (int)screen_index)); retval = VBERROR_INVALID_SCREEN_INDEX; goto VbDisplayScreenFromGBB_exit; } /* Clip localization to number of localizations present in the GBB */ VbNvGet(vncptr, VBNV_LOCALIZATION_INDEX, &localization); if (localization >= hdr->number_of_localizations) { localization = 0; VbNvSet(vncptr, VBNV_LOCALIZATION_INDEX, localization); } /* * Calculate offset of screen layout = start of screen stuff + correct * locale + correct screen. */ offset = sizeof(BmpBlockHeader) + localization * hdr->number_of_screenlayouts * sizeof(ScreenLayout) + screen_index * sizeof(ScreenLayout); layout = (ScreenLayout *)(bmpfv + offset); /* Display all bitmaps for the image */ for (i = 0; i < MAX_IMAGE_IN_LAYOUT; i++) { if (!layout->images[i].image_info_offset) continue; offset = layout->images[i].image_info_offset; image_info = (ImageInfo *)(bmpfv + offset); fullimage = bmpfv + offset + sizeof(ImageInfo); inoutsize = image_info->original_size; if (inoutsize && image_info->compression != COMPRESS_NONE) { fullimage = VbExMalloc(inoutsize); retval = VbExDecompress( bmpfv + offset + sizeof(ImageInfo), image_info->compressed_size, image_info->compression, fullimage, &inoutsize); if (VBERROR_SUCCESS != retval) { VbExFree(fullimage); goto VbDisplayScreenFromGBB_exit; } } switch(image_info->format) { case FORMAT_BMP: retval = VbExDisplayImage(layout->images[i].x, layout->images[i].y, fullimage, inoutsize); break; case FORMAT_FONT: /* * The uncompressed blob is our font structure. Cache * it as needed. */ font = VbInternalizeFontData(fullimage); /* TODO: handle text in general here */ if (TAG_HWID == image_info->tag || TAG_HWID_RTOL == image_info->tag) { text_to_show = VbHWID(cparams); rtol = (TAG_HWID_RTOL == image_info->tag); } else { text_to_show = ""; rtol = 0; } VbRenderTextAtPos(text_to_show, rtol, layout->images[i].x, layout->images[i].y, font); VbDoneWithFontForNow(font); break; default: VBDEBUG(("VbDisplayScreenFromGBB(): " "unsupported ImageFormat %d\n", image_info->format)); retval = VBERROR_INVALID_GBB; } if (COMPRESS_NONE != image_info->compression) VbExFree(fullimage); if (VBERROR_SUCCESS != retval) goto VbDisplayScreenFromGBB_exit; } /* Successful if all bitmaps displayed */ retval = VBERROR_SUCCESS; /* * If GBB flags is nonzero, complain because that's something that the * factory MUST fix before shipping. We only have to do this here, * because it's obvious that something is wrong if we're not displaying * screens from the GBB. */ if (gbb->major_version == GBB_MAJOR_VER && gbb->minor_version >= 1 && (gbb->flags != 0)) { used += StrnAppend(outbuf + used, "gbb.flags is nonzero: 0x", OUTBUF_LEN - used); used += Uint64ToString(outbuf + used, OUTBUF_LEN - used, gbb->flags, 16, 8); used += StrnAppend(outbuf + used, "\n", OUTBUF_LEN - used); (void)VbExDisplayDebugInfo(outbuf); } VbDisplayScreenFromGBB_exit: VBDEBUG(("leaving VbDisplayScreenFromGBB() with %d\n",retval)); return retval; } VbError_t VbDisplayScreen(VbCommonParams *cparams, uint32_t screen, int force, VbNvContext *vncptr) { VbError_t retval; /* Initialize display if necessary */ if (!disp_width) { retval = VbExDisplayInit(&disp_width, &disp_height); if (VBERROR_SUCCESS != retval) return retval; } /* If requested screen is the same as the current one, we're done. */ if (disp_current_screen == screen && 0 == force) return VBERROR_SUCCESS; /* If the screen is blank, turn off the backlight; else turn it on. */ VbExDisplayBacklight(VB_SCREEN_BLANK == screen ? 0 : 1); /* Request the screen */ disp_current_screen = screen; /* Look in the GBB first */ if (VBERROR_SUCCESS == VbDisplayScreenFromGBB(cparams, screen, vncptr)) return VBERROR_SUCCESS; /* If screen wasn't in the GBB bitmaps, fall back to a default */ return VbExDisplayScreen(screen); } static void Uint8ToString(char *buf, uint8_t val) { const char *trans = "0123456789abcdef"; *buf++ = trans[val >> 4]; *buf = trans[val & 0xF]; } static void FillInSha1Sum(char *outbuf, VbPublicKey *key) { uint8_t *buf = ((uint8_t *)key) + key->key_offset; uint64_t buflen = key->key_size; uint8_t *digest = DigestBuf(buf, buflen, SHA1_DIGEST_ALGORITHM); int i; for (i = 0; i < SHA1_DIGEST_SIZE; i++) { Uint8ToString(outbuf, digest[i]); outbuf += 2; } *outbuf = '\0'; VbExFree(digest); } const char *RecoveryReasonString(uint8_t code) { switch(code) { case VBNV_RECOVERY_NOT_REQUESTED: return "Recovery not requested"; case VBNV_RECOVERY_LEGACY: return "Recovery requested from legacy utility"; case VBNV_RECOVERY_RO_MANUAL: return "recovery button pressed"; case VBNV_RECOVERY_RO_INVALID_RW: return "RW firmware failed signature check"; case VBNV_RECOVERY_RO_S3_RESUME: return "S3 resume failed"; case VBNV_RECOVERY_DEP_RO_TPM_ERROR: return "TPM error in read-only firmware"; case VBNV_RECOVERY_RO_SHARED_DATA: return "Shared data error in read-only firmware"; case VBNV_RECOVERY_RO_TEST_S3: return "Test error from S3Resume()"; case VBNV_RECOVERY_RO_TEST_LFS: return "Test error from LoadFirmwareSetup()"; case VBNV_RECOVERY_RO_TEST_LF: return "Test error from LoadFirmware()"; case VBNV_RECOVERY_RO_INVALID_RW_CHECK_MIN + VBSD_LF_CHECK_NOT_DONE: return "RW firmware check not done"; case VBNV_RECOVERY_RO_INVALID_RW_CHECK_MIN + VBSD_LF_CHECK_DEV_MISMATCH: return "RW firmware developer flag mismatch"; case VBNV_RECOVERY_RO_INVALID_RW_CHECK_MIN + VBSD_LF_CHECK_REC_MISMATCH: return "RW firmware recovery flag mismatch"; case VBNV_RECOVERY_RO_INVALID_RW_CHECK_MIN + VBSD_LF_CHECK_VERIFY_KEYBLOCK: return "RW firmware unable to verify key block"; case VBNV_RECOVERY_RO_INVALID_RW_CHECK_MIN + VBSD_LF_CHECK_KEY_ROLLBACK: return "RW firmware key version rollback detected"; case VBNV_RECOVERY_RO_INVALID_RW_CHECK_MIN + VBSD_LF_CHECK_DATA_KEY_PARSE: return "RW firmware unable to parse data key"; case VBNV_RECOVERY_RO_INVALID_RW_CHECK_MIN + VBSD_LF_CHECK_VERIFY_PREAMBLE: return "RW firmware unable to verify preamble"; case VBNV_RECOVERY_RO_INVALID_RW_CHECK_MIN + VBSD_LF_CHECK_FW_ROLLBACK: return "RW firmware version rollback detected"; case VBNV_RECOVERY_RO_INVALID_RW_CHECK_MIN + VBSD_LF_CHECK_GET_FW_BODY: return "RW firmware unable to get firmware body"; case VBNV_RECOVERY_RO_INVALID_RW_CHECK_MIN + VBSD_LF_CHECK_HASH_WRONG_SIZE: return "RW firmware hash is wrong size"; case VBNV_RECOVERY_RO_INVALID_RW_CHECK_MIN + VBSD_LF_CHECK_VERIFY_BODY: return "RW firmware unable to verify firmware body"; case VBNV_RECOVERY_RO_INVALID_RW_CHECK_MIN + VBSD_LF_CHECK_NO_RO_NORMAL: return "RW firmware read-only normal path is not supported"; case VBNV_RECOVERY_RO_FIRMWARE: return "Firmware problem outside of verified boot"; case VBNV_RECOVERY_RO_TPM_REBOOT: return "TPM requires a system reboot (should be transient)"; case VBNV_RECOVERY_EC_SOFTWARE_SYNC: return "EC software sync error"; case VBNV_RECOVERY_EC_UNKNOWN_IMAGE: return "EC software sync unable to determine active EC image"; case VBNV_RECOVERY_DEP_EC_HASH: return "EC software sync error obtaining EC image hash"; case VBNV_RECOVERY_EC_EXPECTED_IMAGE: return "EC software sync error " "obtaining expected EC image from BIOS"; case VBNV_RECOVERY_EC_EXPECTED_HASH: return "EC software sync error " "obtaining expected EC hash from BIOS"; case VBNV_RECOVERY_EC_HASH_MISMATCH: return "EC software sync error " "comparing expected EC hash and image"; case VBNV_RECOVERY_EC_UPDATE: return "EC software sync error updating EC"; case VBNV_RECOVERY_EC_JUMP_RW: return "EC software sync unable to jump to EC-RW"; case VBNV_RECOVERY_EC_PROTECT: return "EC software sync protection error"; case VBNV_RECOVERY_RO_UNSPECIFIED: return "Unspecified/unknown error in RO firmware"; case VBNV_RECOVERY_RW_DEV_SCREEN: return "User requested recovery from dev-mode warning screen"; case VBNV_RECOVERY_RW_NO_OS: return "No OS kernel detected (or kernel rollback attempt?)"; case VBNV_RECOVERY_RW_INVALID_OS: return "OS kernel failed signature check"; case VBNV_RECOVERY_DEP_RW_TPM_ERROR: return "TPM error in rewritable firmware"; case VBNV_RECOVERY_RW_DEV_MISMATCH: return "RW firmware in dev mode, but dev switch is off"; case VBNV_RECOVERY_RW_SHARED_DATA: return "Shared data error in rewritable firmware"; case VBNV_RECOVERY_RW_TEST_LK: return "Test error from LoadKernel()"; case VBNV_RECOVERY_DEP_RW_NO_DISK: return "No bootable disk found"; case VBNV_RECOVERY_TPM_E_FAIL: return "TPM error that was not fixed by reboot"; case VBNV_RECOVERY_RO_TPM_S_ERROR: return "TPM setup error in read-only firmware"; case VBNV_RECOVERY_RO_TPM_W_ERROR: return "TPM write error in read-only firmware"; case VBNV_RECOVERY_RO_TPM_L_ERROR: return "TPM lock error in read-only firmware"; case VBNV_RECOVERY_RO_TPM_U_ERROR: return "TPM update error in read-only firmware"; case VBNV_RECOVERY_RW_TPM_R_ERROR: return "TPM read error in rewritable firmware"; case VBNV_RECOVERY_RW_TPM_W_ERROR: return "TPM write error in rewritable firmware"; case VBNV_RECOVERY_RW_TPM_L_ERROR: return "TPM lock error in rewritable firmware"; case VBNV_RECOVERY_EC_HASH_FAILED: return "EC software sync unable to get EC image hash"; case VBNV_RECOVERY_EC_HASH_SIZE: return "EC software sync invalid image hash size"; case VBNV_RECOVERY_LK_UNSPECIFIED: return "Unspecified error while trying to load kernel"; case VBNV_RECOVERY_RW_NO_DISK: return "No bootable storage device in system"; case VBNV_RECOVERY_RW_NO_KERNEL: return "No bootable kernel found on disk"; case VBNV_RECOVERY_RW_UNSPECIFIED: return "Unspecified/unknown error in RW firmware"; case VBNV_RECOVERY_KE_DM_VERITY: return "DM-verity error"; case VBNV_RECOVERY_KE_UNSPECIFIED: return "Unspecified/unknown error in kernel"; case VBNV_RECOVERY_US_TEST: return "Recovery mode test from user-mode"; case VBNV_RECOVERY_US_UNSPECIFIED: return "Unspecified/unknown error in user-mode"; } return "We have no idea what this means"; } #define DEBUG_INFO_SIZE 512 VbError_t VbDisplayDebugInfo(VbCommonParams *cparams, VbNvContext *vncptr) { VbSharedDataHeader *shared = (VbSharedDataHeader *)cparams->shared_data_blob; GoogleBinaryBlockHeader *gbb = (GoogleBinaryBlockHeader *)cparams->gbb_data; char buf[DEBUG_INFO_SIZE] = ""; char sha1sum[SHA1_DIGEST_SIZE * 2 + 1]; uint32_t used = 0; uint32_t i; /* Redisplay current screen to overwrite any previous debug output */ VbDisplayScreen(cparams, disp_current_screen, 1, vncptr); /* Add hardware ID */ used += StrnAppend(buf + used, "HWID: ", DEBUG_INFO_SIZE - used); if (0 == gbb->hwid_size || gbb->hwid_offset > cparams->gbb_size || gbb->hwid_offset + gbb->hwid_size > cparams->gbb_size) { VBDEBUG(("VbDisplayDebugInfo(): invalid hwid offset/size\n")); used += StrnAppend(buf + used, "(INVALID)", DEBUG_INFO_SIZE - used); } else { used += StrnAppend(buf + used, (char *)((uint8_t *)gbb + gbb->hwid_offset), DEBUG_INFO_SIZE - used); } /* Add recovery reason */ used += StrnAppend(buf + used, "\nrecovery_reason: 0x", DEBUG_INFO_SIZE - used); used += Uint64ToString(buf + used, DEBUG_INFO_SIZE - used, shared->recovery_reason, 16, 2); used += StrnAppend(buf + used, " ", DEBUG_INFO_SIZE - used); used += StrnAppend(buf + used, RecoveryReasonString(shared->recovery_reason), DEBUG_INFO_SIZE - used); /* Add VbSharedData flags */ used += StrnAppend(buf + used, "\nVbSD.flags: 0x", DEBUG_INFO_SIZE - used); used += Uint64ToString(buf + used, DEBUG_INFO_SIZE - used, shared->flags, 16, 8); /* Add raw contents of VbNvStorage */ used += StrnAppend(buf + used, "\nVbNv.raw:", DEBUG_INFO_SIZE - used); for (i = 0; i < VBNV_BLOCK_SIZE; i++) { used += StrnAppend(buf + used, " ", DEBUG_INFO_SIZE - used); used += Uint64ToString(buf + used, DEBUG_INFO_SIZE - used, vncptr->raw[i], 16, 2); } /* Add dev_boot_usb flag */ VbNvGet(vncptr, VBNV_DEV_BOOT_USB, &i); used += StrnAppend(buf + used, "\ndev_boot_usb: ", DEBUG_INFO_SIZE - used); used += Uint64ToString(buf + used, DEBUG_INFO_SIZE - used, i, 10, 0); /* Add dev_boot_legacy flag */ VbNvGet(vncptr, VBNV_DEV_BOOT_LEGACY, &i); used += StrnAppend(buf + used, "\ndev_boot_legacy: ", DEBUG_INFO_SIZE - used); used += Uint64ToString(buf + used, DEBUG_INFO_SIZE - used, i, 10, 0); /* Add dev_boot_signed_only flag */ VbNvGet(vncptr, VBNV_DEV_BOOT_SIGNED_ONLY, &i); used += StrnAppend(buf + used, "\ndev_boot_signed_only: ", DEBUG_INFO_SIZE - used); used += Uint64ToString(buf + used, DEBUG_INFO_SIZE - used, i, 10, 0); /* Add TPM versions */ used += StrnAppend(buf + used, "\nTPM: fwver=0x", DEBUG_INFO_SIZE - used); used += Uint64ToString(buf + used, DEBUG_INFO_SIZE - used, shared->fw_version_tpm, 16, 8); used += StrnAppend(buf + used, " kernver=0x", DEBUG_INFO_SIZE - used); used += Uint64ToString(buf + used, DEBUG_INFO_SIZE - used, shared->kernel_version_tpm, 16, 8); /* Add GBB flags */ used += StrnAppend(buf + used, "\ngbb.flags: 0x", DEBUG_INFO_SIZE - used); if (gbb->major_version == GBB_MAJOR_VER && gbb->minor_version >= 1) { used += Uint64ToString(buf + used, DEBUG_INFO_SIZE - used, gbb->flags, 16, 8); } else { used += StrnAppend(buf + used, "0 (default)", DEBUG_INFO_SIZE - used); } /* Add sha1sum for Root & Recovery keys */ FillInSha1Sum(sha1sum, (VbPublicKey *)((uint8_t *)gbb + gbb->rootkey_offset)); used += StrnAppend(buf + used, "\ngbb.rootkey: ", DEBUG_INFO_SIZE - used); used += StrnAppend(buf + used, sha1sum, DEBUG_INFO_SIZE - used); FillInSha1Sum(sha1sum, (VbPublicKey *)((uint8_t *)gbb + gbb->recovery_key_offset)); used += StrnAppend(buf + used, "\ngbb.recovery_key: ", DEBUG_INFO_SIZE - used); used += StrnAppend(buf + used, sha1sum, DEBUG_INFO_SIZE - used); /* If we're in dev-mode, show the kernel subkey that we expect, too. */ if (0 == shared->recovery_reason) { FillInSha1Sum(sha1sum, &shared->kernel_subkey); used += StrnAppend(buf + used, "\nkernel_subkey: ", DEBUG_INFO_SIZE - used); used += StrnAppend(buf + used, sha1sum, DEBUG_INFO_SIZE - used); } /* Make sure we finish with a newline */ used += StrnAppend(buf + used, "\n", DEBUG_INFO_SIZE - used); /* TODO: add more interesting data: * - Information on current disks */ buf[DEBUG_INFO_SIZE - 1] = '\0'; return VbExDisplayDebugInfo(buf); } #define MAGIC_WORD_LEN 5 #define MAGIC_WORD "xyzzy" static uint8_t MagicBuffer[MAGIC_WORD_LEN]; VbError_t VbCheckDisplayKey(VbCommonParams *cparams, uint32_t key, VbNvContext *vncptr) { int i; /* Update key buffer */ for(i = 1; i < MAGIC_WORD_LEN; i++) MagicBuffer[i - 1] = MagicBuffer[i]; /* Save as lower-case ASCII */ MagicBuffer[MAGIC_WORD_LEN - 1] = (key | 0x20) & 0xFF; if ('\t' == key) { /* Tab = display debug info */ return VbDisplayDebugInfo(cparams, vncptr); } else if (VB_KEY_LEFT == key || VB_KEY_RIGHT == key || VB_KEY_DOWN == key || VB_KEY_UP == key) { /* Arrow keys = change localization */ uint32_t loc = 0; uint32_t count = 0; VbNvGet(vncptr, VBNV_LOCALIZATION_INDEX, &loc); if (VBERROR_SUCCESS != VbGetLocalizationCount(cparams, &count)) loc = 0; /* No localization count (bad GBB?) */ else if (VB_KEY_RIGHT == key || VB_KEY_UP == key) loc = (loc < count - 1 ? loc + 1 : 0); else loc = (loc > 0 ? loc - 1 : count - 1); VBDEBUG(("VbCheckDisplayKey() - change localization to %d\n", (int)loc)); VbNvSet(vncptr, VBNV_LOCALIZATION_INDEX, loc); #ifdef SAVE_LOCALE_IMMEDIATELY VbNvTeardown(vncptr); /* really only computes checksum */ if (vncptr->raw_changed) VbExNvStorageWrite(vncptr->raw); #endif /* Force redraw of current screen */ return VbDisplayScreen(cparams, disp_current_screen, 1, vncptr); } if (0 == Memcmp(MagicBuffer, MAGIC_WORD, MAGIC_WORD_LEN)) { if (VBEASTEREGG) (void)VbDisplayScreen(cparams, disp_current_screen, 1, vncptr); } return VBERROR_SUCCESS; }