blob: 6c2160ca7a615980fe3013c2d1dc02c13593b9cd [file] [log] [blame]
// Copyright (c) 2012 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.
#include "cgpt.h"
#define __STDC_FORMAT_MACROS
#include <string.h>
#include "cgptlib_internal.h"
#include "cgpt_params.h"
#include "crc32.h"
/* Generate output like:
*
* [AB-CD-EF-01] for group = 1
* [ABCD-EF01] for group = 3 (low byte first)
*
* Needs (size*3-1+3) bytes of space in 'buf' (included the tailing '\0').
*/
#define BUFFER_SIZE(size) (size *3 - 1 + 3)
static short Uint8To2Chars(const uint8_t t) {
int h = t >> 4;
int l = t & 0xf;
h = (h >= 0xA) ? h - 0xA + 'A' : h + '0';
l = (l >= 0xA) ? l - 0xA + 'A' : l + '0';
return (h << 8) + l;
}
static void RawDump(const uint8_t *memory, const int size,
char *buf, int group) {
int i, outlen = 0;
buf[outlen++] = '[';
for (i = 0; i < size; ++i) {
short c2 = Uint8To2Chars(memory[i]);
buf[outlen++] = c2 >> 8;
buf[outlen++] = c2 & 0xff;
if (i != (size - 1) && ((i + 1) % group) == 0)
buf[outlen++] = '-';
}
buf[outlen++] = ']';
buf[outlen++] = '\0';
}
/* Output formatters */
#define TITLE_FMT "%12s%12s%8s %s\n"
#define GPT_FMT "%12d%12d%8s %s\n"
#define GPT_MORE "%12s%12s%8s ", "", "", ""
#define PARTITION_FMT "%12d%12d%8d %s\n"
#define PARTITION_MORE "%12s%12s%8s %s%s\n", "", "", ""
static void HeaderDetails(GptHeader *header, GptEntry *entries,
const char *indent, int raw) {
int i;
printf("%sSig: ", indent);
if (!raw) {
printf("[");
for (i = 0; i < sizeof(header->signature); ++i)
printf("%c", header->signature[i]);
printf("]");
} else {
char buf[BUFFER_SIZE(sizeof(header->signature))];
RawDump((uint8_t *)header->signature, sizeof(header->signature), buf, 1);
printf("%s", buf);
}
printf("\n");
printf("%sRev: 0x%08x\n", indent, header->revision);
printf("%sSize: %d\n", indent, header->size);
printf("%sHeader CRC: 0x%08x %s\n", indent, header->header_crc32,
(HeaderCrc(header) != header->header_crc32) ? "(INVALID)" : "");
printf("%sMy LBA: %lld\n", indent, (long long)header->my_lba);
printf("%sAlternate LBA: %lld\n", indent, (long long)header->alternate_lba);
printf("%sFirst LBA: %lld\n", indent, (long long)header->first_usable_lba);
printf("%sLast LBA: %lld\n", indent, (long long)header->last_usable_lba);
{ /* For disk guid */
char buf[GUID_STRLEN];
GuidToStr(&header->disk_uuid, buf, GUID_STRLEN);
printf("%sDisk UUID: %s\n", indent, buf);
}
printf("%sEntries LBA: %lld\n", indent, (long long)header->entries_lba);
printf("%sNumber of entries: %d\n", indent, header->number_of_entries);
printf("%sSize of entry: %d\n", indent, header->size_of_entry);
printf("%sEntries CRC: 0x%08x %s\n", indent, header->entries_crc32,
header->entries_crc32 !=
Crc32((const uint8_t *)entries,header->size_of_entry *
header->number_of_entries)
? "INVALID" : ""
);
}
void EntryDetails(GptEntry *entry, uint32_t index, int raw) {
char contents[256]; // scratch buffer for formatting output
uint8_t label[GPT_PARTNAME_LEN];
if (!raw) {
char type[GUID_STRLEN], unique[GUID_STRLEN];
UTF16ToUTF8(entry->name, sizeof(entry->name) / sizeof(entry->name[0]),
label, sizeof(label));
require(snprintf(contents, sizeof(contents),
"Label: \"%s\"", label) < sizeof(contents));
printf(PARTITION_FMT, (int)entry->starting_lba,
(int)(entry->ending_lba - entry->starting_lba + 1),
index+1, contents);
if (CGPT_OK == ResolveType(&entry->type, type)) {
printf(PARTITION_MORE, "Type: ", type);
} else {
GuidToStr(&entry->type, type, GUID_STRLEN);
printf(PARTITION_MORE, "Type: ", type);
}
GuidToStr(&entry->unique, unique, GUID_STRLEN);
printf(PARTITION_MORE, "UUID: ", unique);
if (GuidEqual(&guid_chromeos_kernel, &entry->type)) {
int tries = (entry->attrs.fields.gpt_att &
CGPT_ATTRIBUTE_TRIES_MASK) >>
CGPT_ATTRIBUTE_TRIES_OFFSET;
int successful = (entry->attrs.fields.gpt_att &
CGPT_ATTRIBUTE_SUCCESSFUL_MASK) >>
CGPT_ATTRIBUTE_SUCCESSFUL_OFFSET;
int priority = (entry->attrs.fields.gpt_att &
CGPT_ATTRIBUTE_PRIORITY_MASK) >>
CGPT_ATTRIBUTE_PRIORITY_OFFSET;
require(snprintf(contents, sizeof(contents),
"priority=%d tries=%d successful=%d",
priority, tries, successful) < sizeof(contents));
printf(PARTITION_MORE, "Attr: ", contents);
}
} else {
char type[GUID_STRLEN], unique[GUID_STRLEN];
UTF16ToUTF8(entry->name, sizeof(entry->name) / sizeof(entry->name[0]),
label, sizeof(label));
require(snprintf(contents, sizeof(contents),
"Label: \"%s\"", label) < sizeof(contents));
printf(PARTITION_FMT, (int)entry->starting_lba,
(int)(entry->ending_lba - entry->starting_lba + 1),
index+1, contents);
GuidToStr(&entry->type, type, GUID_STRLEN);
printf(PARTITION_MORE, "Type: ", type);
GuidToStr(&entry->unique, unique, GUID_STRLEN);
printf(PARTITION_MORE, "UUID: ", unique);
require(snprintf(contents, sizeof(contents),
"[%x]", entry->attrs.fields.gpt_att) < sizeof(contents));
printf(PARTITION_MORE, "Attr: ", contents);
}
}
void EntriesDetails(GptData *gpt, const int secondary, int raw) {
uint32_t i;
for (i = 0; i < GetNumberOfEntries(gpt); ++i) {
GptEntry *entry;
entry = GetEntry(gpt, secondary, i);
if (GuidIsZero(&entry->type))
continue;
EntryDetails(entry, i, raw);
}
}
int CgptGetNumNonEmptyPartitions(CgptShowParams *params) {
struct drive drive;
int gpt_retval;
int retval;
if (params == NULL)
return CGPT_FAILED;
if (CGPT_OK != DriveOpen(params->drive_name, &drive, O_RDONLY))
return CGPT_FAILED;
if (GPT_SUCCESS != (gpt_retval = GptSanityCheck(&drive.gpt))) {
Error("GptSanityCheck() returned %d: %s\n",
gpt_retval, GptError(gpt_retval));
retval = CGPT_FAILED;
goto done;
}
params->num_partitions = 0;
int numEntries = GetNumberOfEntries(&drive.gpt);
int i;
for(i = 0; i < numEntries; i++) {
GptEntry *entry = GetEntry(&drive.gpt, ANY_VALID, i);
if (GuidIsZero(&entry->type))
continue;
params->num_partitions++;
}
retval = CGPT_OK;
done:
DriveClose(&drive, 0);
return retval;
}
int CgptShow(CgptShowParams *params) {
struct drive drive;
int gpt_retval;
if (params == NULL)
return CGPT_FAILED;
if (CGPT_OK != DriveOpen(params->drive_name, &drive, O_RDONLY))
return CGPT_FAILED;
if (GPT_SUCCESS != (gpt_retval = GptSanityCheck(&drive.gpt))) {
Error("GptSanityCheck() returned %d: %s\n",
gpt_retval, GptError(gpt_retval));
return CGPT_FAILED;
}
if (params->partition) { // show single partition
if (params->partition > GetNumberOfEntries(&drive.gpt)) {
Error("invalid partition number: %d\n", params->partition);
return CGPT_FAILED;
}
uint32_t index = params->partition - 1;
GptEntry *entry = GetEntry(&drive.gpt, ANY_VALID, index);
char buf[256]; // scratch buffer for string conversion
if (params->single_item) {
switch(params->single_item) {
case 'b':
printf("%" PRId64 "\n", entry->starting_lba);
break;
case 's':
printf("%" PRId64 "\n", entry->ending_lba - entry->starting_lba + 1);
break;
case 't':
GuidToStr(&entry->type, buf, sizeof(buf));
printf("%s\n", buf);
break;
case 'u':
GuidToStr(&entry->unique, buf, sizeof(buf));
printf("%s\n", buf);
break;
case 'l':
UTF16ToUTF8(entry->name, sizeof(entry->name) / sizeof(entry->name[0]),
(uint8_t *)buf, sizeof(buf));
printf("%s\n", buf);
break;
case 'S':
printf("%d\n", GetSuccessful(&drive.gpt, ANY_VALID, index));
break;
case 'T':
printf("%d\n", GetTries(&drive.gpt, ANY_VALID, index));
break;
case 'P':
printf("%d\n", GetPriority(&drive.gpt, ANY_VALID, index));
break;
case 'A':
printf("0x%x\n", entry->attrs.fields.gpt_att);
break;
}
} else {
printf(TITLE_FMT, "start", "size", "part", "contents");
EntryDetails(entry, index, params->numeric);
}
} else if (params->quick) { // show all partitions, quickly
uint32_t i;
GptEntry *entry;
char type[GUID_STRLEN];
for (i = 0; i < GetNumberOfEntries(&drive.gpt); ++i) {
entry = GetEntry(&drive.gpt, ANY_VALID, i);
if (GuidIsZero(&entry->type))
continue;
if (!params->numeric && CGPT_OK == ResolveType(&entry->type, type)) {
} else {
GuidToStr(&entry->type, type, GUID_STRLEN);
}
printf(PARTITION_FMT, (int)entry->starting_lba,
(int)(entry->ending_lba - entry->starting_lba + 1),
i+1, type);
}
} else { // show all partitions
GptEntry *entries;
if (CGPT_OK != ReadPMBR(&drive)) {
Error("Unable to read PMBR\n");
return CGPT_FAILED;
}
printf(TITLE_FMT, "start", "size", "part", "contents");
char buf[256]; // buffer for formatted PMBR content
PMBRToStr(&drive.pmbr, buf, sizeof(buf)); // will exit if buf is too small
printf(GPT_FMT, 0, GPT_PMBR_SECTOR, "", buf);
if (drive.gpt.valid_headers & MASK_PRIMARY) {
printf(GPT_FMT, (int)GPT_PMBR_SECTOR,
(int)GPT_HEADER_SECTOR, "", "Pri GPT header");
} else {
printf(GPT_FMT, (int)GPT_PMBR_SECTOR,
(int)GPT_HEADER_SECTOR, "INVALID", "Pri GPT header");
}
if (params->debug ||
((drive.gpt.valid_headers & MASK_PRIMARY) && params->verbose)) {
GptHeader *header;
char indent[64];
require(snprintf(indent, sizeof(indent), GPT_MORE) < sizeof(indent));
header = (GptHeader*)drive.gpt.primary_header;
entries = (GptEntry*)drive.gpt.primary_entries;
HeaderDetails(header, entries, indent, params->numeric);
}
printf(GPT_FMT, (int)(GPT_PMBR_SECTOR + GPT_HEADER_SECTOR),
(int)GPT_ENTRIES_SECTORS,
drive.gpt.valid_entries & MASK_PRIMARY ? "" : "INVALID",
"Pri GPT table");
if (params->debug ||
(drive.gpt.valid_entries & MASK_PRIMARY))
EntriesDetails(&drive.gpt, PRIMARY, params->numeric);
/****************************** Secondary *************************/
printf(GPT_FMT, (int)(drive.gpt.drive_sectors - GPT_HEADER_SECTOR -
GPT_ENTRIES_SECTORS),
(int)GPT_ENTRIES_SECTORS,
drive.gpt.valid_entries & MASK_SECONDARY ? "" : "INVALID",
"Sec GPT table");
/* We show secondary table details if any of following is true.
* 1. in debug mode.
* 2. only secondary is valid.
* 3. secondary is not identical to promary.
*/
if (params->debug ||
((drive.gpt.valid_entries & MASK_SECONDARY) &&
(!(drive.gpt.valid_entries & MASK_PRIMARY) ||
memcmp(drive.gpt.primary_entries, drive.gpt.secondary_entries,
TOTAL_ENTRIES_SIZE)))) {
EntriesDetails(&drive.gpt, SECONDARY, params->numeric);
}
if (drive.gpt.valid_headers & MASK_SECONDARY)
printf(GPT_FMT, (int)(drive.gpt.drive_sectors - GPT_HEADER_SECTOR),
(int)GPT_HEADER_SECTOR, "", "Sec GPT header");
else
printf(GPT_FMT, (int)GPT_PMBR_SECTOR,
(int)GPT_HEADER_SECTOR, "INVALID", "Sec GPT header");
/* We show secondary header if any of following is true:
* 1. in debug mode.
* 2. only secondary is valid.
* 3. secondary is not synonymous to primary.
*/
if (params->debug ||
((drive.gpt.valid_headers & MASK_SECONDARY) &&
(!(drive.gpt.valid_headers & MASK_PRIMARY) ||
!IsSynonymous((GptHeader*)drive.gpt.primary_header,
(GptHeader*)drive.gpt.secondary_header)) &&
params->verbose)) {
GptHeader *header;
char indent[64];
require(snprintf(indent, sizeof(indent), GPT_MORE) < sizeof(indent));
header = (GptHeader*)drive.gpt.secondary_header;
entries = (GptEntry*)drive.gpt.secondary_entries;
HeaderDetails(header, entries, indent, params->numeric);
}
}
CheckValid(&drive);
DriveClose(&drive, 0);
return CGPT_OK;
}