cgpt/cgpt_add.c - mirrors/cros/chromiumos/platform/vboot_reference - Git at Google

 /* 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 <stdio.h>
 #include <string.h>

 #include "cgpt.h"
 #include "cgptlib_internal.h"
 #include "cgpt_params.h"
 #include "vboot_host.h"

 static void PrintCgptAddParams(const CgptAddParams *params) {
   char tmp[64];

   fprintf(stderr, "-i %d ", params->partition);
   if (params->label)
     fprintf(stderr, "-l %s ", params->label);
   if (params->set_begin)
     fprintf(stderr, "-b %llu ", (unsigned long long)params->begin);
   if (params->set_size)
     fprintf(stderr, "-s %llu ", (unsigned long long)params->size);
   if (params->set_type) {
     GuidToStr(&params->type_guid, tmp, sizeof(tmp));
     fprintf(stderr, "-t %s ", tmp);
   }
   if (params->set_unique) {
     GuidToStr(&params->unique_guid, tmp, sizeof(tmp));
     fprintf(stderr, "-u %s ", tmp);
   }
   if (params->set_successful)
     fprintf(stderr, "-S %d ", params->successful);
   if (params->set_tries)
     fprintf(stderr, "-T %d ", params->tries);
   if (params->set_priority)
     fprintf(stderr, "-P %d ", params->priority);
   if (params->set_required)
     fprintf(stderr, "-R %d ", params->required);
   if (params->set_legacy_boot)
     fprintf(stderr, "-B %d ", params->legacy_boot);
   if (params->set_raw)
     fprintf(stderr, "-A %#x ", params->raw_value);

   fprintf(stderr, "\n");
 }

 // This is the implementation-specific helper function.
 static int GptSetEntryAttributes(struct drive *drive,
                                  uint32_t index,
                                  CgptAddParams *params) {
   GptEntry *entry;

   entry = GetEntry(&drive->gpt, PRIMARY, index);
   if (params->set_begin)
     entry->starting_lba = params->begin;
   if (params->set_size)
     entry->ending_lba = entry->starting_lba + params->size - 1;
   if (params->set_unique) {
     memcpy(&entry->unique, &params->unique_guid, sizeof(Guid));
   } else if (GuidIsZero(&entry->type)) {
 	  if (CGPT_OK != GenerateGuid(&entry->unique)) {
 		  Error("Unable to generate new GUID.\n");
 		  return -1;
     }
   }
   if (params->set_type)
     memcpy(&entry->type, &params->type_guid, sizeof(Guid));
   if (params->label) {
     if (CGPT_OK != UTF8ToUTF16((const uint8_t *)params->label, entry->name,
                                sizeof(entry->name) / sizeof(entry->name[0]))) {
       Error("The label cannot be converted to UTF16.\n");
       return -1;
     }
   }
   return 0;
 }

 // This is an internal helper function which assumes no NULL args are passed.
 // It sets the given attribute values for a single entry at the given index.
 static int SetEntryAttributes(struct drive *drive,
                               uint32_t index,
                               CgptAddParams *params) {
   if (params->set_raw) {
     SetRaw(drive, PRIMARY, index, params->raw_value);
   } else {
     if (params->set_successful)
       SetSuccessful(drive, PRIMARY, index, params->successful);
     if (params->set_tries)
       SetTries(drive, PRIMARY, index, params->tries);
     if (params->set_priority)
       SetPriority(drive, PRIMARY, index, params->priority);
     if (params->set_legacy_boot)
       SetLegacyBoot(drive, PRIMARY, index, params->legacy_boot);
     if (params->set_required)
       SetRequired(drive, PRIMARY, index, params->required);
   }

   // New partitions must specify type, begin, and size.
   if (IsUnused(drive, PRIMARY, index)) {
     if (!params->set_begin || !params->set_size || !params->set_type) {
       Error("-t, -b, and -s options are required for new partitions\n");
       return -1;
     }
     if (GuidIsZero(&params->type_guid)) {
       Error("New partitions must have a type other than \"unused\"\n");
       return -1;
     }
   }

   return 0;
 }

 static int CgptCheckAddValidity(struct drive *drive) {
   int gpt_retval;
   if (GPT_SUCCESS != (gpt_retval = GptSanityCheck(&drive->gpt))) {
     Error("GptSanityCheck() returned %d: %s\n",
           gpt_retval, GptError(gpt_retval));
     return -1;
   }

   if (CGPT_OK != CheckValid(drive)) {
     Error("please run 'cgpt repair' before adding anything.\n");
     return -1;
   }

   return 0;
 }

 static int CgptGetUnusedPartition(struct drive *drive, uint32_t *index,
                                   CgptAddParams *params) {
   uint32_t i;
   uint32_t max_part = GetNumberOfEntries(drive);
   if (params->partition) {
     if (params->partition > max_part) {
       Error("invalid partition number: %d\n", params->partition);
       return -1;
     }
     *index = params->partition - 1;
     return 0;
   } else {
     // Find next empty partition.
     for (i = 0; i < max_part; i++) {
       if (IsUnused(drive, PRIMARY, i)) {
         params->partition = i + 1;
         *index = i;
         return 0;
       }
     }
     Error("no unused partitions available\n");
     return -1;
   }
 }

 int CgptSetAttributes(CgptAddParams *params) {
   struct drive drive;

   if (params == NULL)
     return CGPT_FAILED;

   if (CGPT_OK != DriveOpen(params->drive_name, &drive, O_RDWR,
                            params->drive_size))
     return CGPT_FAILED;

   if (CgptCheckAddValidity(&drive)) {
     goto bad;
   }

   if (params->partition == 0 ||
       params->partition >= GetNumberOfEntries(&drive)) {
     Error("invalid partition number: %d\n", params->partition);
     goto bad;
   }

   SetEntryAttributes(&drive, params->partition - 1, params);

   UpdateAllEntries(&drive);

   // Write it all out.
   return DriveClose(&drive, 1);

 bad:
   DriveClose(&drive, 0);
   return CGPT_FAILED;
 }

 // This method gets the partition details such as the attributes, the
 // guids of the partitions, etc. Input is the partition number or the
 // unique id of the partition. Output is populated in the respective
 // fields of params.
 int CgptGetPartitionDetails(CgptAddParams *params) {
   struct drive drive;
   int result = CGPT_FAILED;
   int index;

   if (params == NULL)
     return CGPT_FAILED;

   if (CGPT_OK != DriveOpen(params->drive_name, &drive, O_RDWR,
                            params->drive_size))
     return CGPT_FAILED;

   if (CgptCheckAddValidity(&drive)) {
     goto bad;
   }

   int max_part = GetNumberOfEntries(&drive);
   if (params->partition > 0) {
     if (params->partition >= max_part) {
       Error("invalid partition number: %d\n", params->partition);
       goto bad;
     }
   } else {
     if (!params->set_unique) {
       Error("either partition or unique_id must be specified\n");
       goto bad;
     }
     for (index = 0; index < max_part; index++) {
       GptEntry *entry = GetEntry(&drive.gpt, PRIMARY, index);
       if (GuidEqual(&entry->unique, &params->unique_guid)) {
         params->partition = index + 1;
         break;
       }
     }
     if (index >= max_part) {
       Error("no partitions with the given unique id available\n");
       goto bad;
     }
   }
   index = params->partition - 1;

   // GPT-specific code
   GptEntry *entry = GetEntry(&drive.gpt, PRIMARY, index);
   params->begin = entry->starting_lba;
   params->size =  entry->ending_lba - entry->starting_lba + 1;
   memcpy(&params->type_guid, &entry->type, sizeof(Guid));
   memcpy(&params->unique_guid, &entry->unique, sizeof(Guid));
   params->raw_value = entry->attrs.fields.gpt_att;

   params->successful = GetSuccessful(&drive, PRIMARY, index);
   params->tries = GetTries(&drive, PRIMARY, index);
   params->priority = GetPriority(&drive, PRIMARY, index);
   result = CGPT_OK;

 bad:
   DriveClose(&drive, 0);
   return result;
 }

 static int GptAdd(struct drive *drive, CgptAddParams *params, uint32_t index) {
   GptEntry *entry, backup;
   int rv;

   entry = GetEntry(&drive->gpt, PRIMARY, index);
   memcpy(&backup, entry, sizeof(backup));

   if (SetEntryAttributes(drive, index, params) ||
       GptSetEntryAttributes(drive, index, params)) {
     memcpy(entry, &backup, sizeof(*entry));
     return -1;
   }

   UpdateAllEntries(drive);

   rv = CheckEntries((GptEntry*)drive->gpt.primary_entries,
                     (GptHeader*)drive->gpt.primary_header);

   if (0 != rv) {
     // If the modified entry is illegal, recover it and return error.
     memcpy(entry, &backup, sizeof(*entry));
     Error("%s\n", GptErrorText(rv));
     Error("");
     PrintCgptAddParams(params);
     return -1;
   }

   return 0;
 }

 int CgptAdd(CgptAddParams *params) {
   struct drive drive;
   uint32_t index;

   if (params == NULL)
     return CGPT_FAILED;

   if (CGPT_OK != DriveOpen(params->drive_name, &drive, O_RDWR,
                            params->drive_size))
     return CGPT_FAILED;

   if (CgptCheckAddValidity(&drive)) {
     goto bad;
   }

   if (CgptGetUnusedPartition(&drive, &index, params)) {
     goto bad;
   }

   if (GptAdd(&drive, params, index))
     goto bad;

   // Write it all out.
   return DriveClose(&drive, 1);

 bad:
   DriveClose(&drive, 0);
   return CGPT_FAILED;
 }
	/* 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 <stdio.h>
	#include <string.h>

	#include "cgpt.h"
	#include "cgptlib_internal.h"
	#include "cgpt_params.h"
	#include "vboot_host.h"

	static void PrintCgptAddParams(const CgptAddParams *params) {
	char tmp[64];

	fprintf(stderr, "-i %d ", params->partition);
	if (params->label)
	fprintf(stderr, "-l %s ", params->label);
	if (params->set_begin)
	fprintf(stderr, "-b %llu ", (unsigned long long)params->begin);
	if (params->set_size)
	fprintf(stderr, "-s %llu ", (unsigned long long)params->size);
	if (params->set_type) {
	GuidToStr(&params->type_guid, tmp, sizeof(tmp));
	fprintf(stderr, "-t %s ", tmp);
	}
	if (params->set_unique) {
	GuidToStr(&params->unique_guid, tmp, sizeof(tmp));
	fprintf(stderr, "-u %s ", tmp);
	}
	if (params->set_successful)
	fprintf(stderr, "-S %d ", params->successful);
	if (params->set_tries)
	fprintf(stderr, "-T %d ", params->tries);
	if (params->set_priority)
	fprintf(stderr, "-P %d ", params->priority);
	if (params->set_required)
	fprintf(stderr, "-R %d ", params->required);
	if (params->set_legacy_boot)
	fprintf(stderr, "-B %d ", params->legacy_boot);
	if (params->set_raw)
	fprintf(stderr, "-A %#x ", params->raw_value);

	fprintf(stderr, "\n");
	}

	// This is the implementation-specific helper function.
	static int GptSetEntryAttributes(struct drive *drive,
	uint32_t index,
	CgptAddParams *params) {
	GptEntry *entry;

	entry = GetEntry(&drive->gpt, PRIMARY, index);
	if (params->set_begin)
	entry->starting_lba = params->begin;
	if (params->set_size)
	entry->ending_lba = entry->starting_lba + params->size - 1;
	if (params->set_unique) {
	memcpy(&entry->unique, &params->unique_guid, sizeof(Guid));
	} else if (GuidIsZero(&entry->type)) {
	if (CGPT_OK != GenerateGuid(&entry->unique)) {
	Error("Unable to generate new GUID.\n");
	return -1;
	}
	}
	if (params->set_type)
	memcpy(&entry->type, &params->type_guid, sizeof(Guid));
	if (params->label) {
	if (CGPT_OK != UTF8ToUTF16((const uint8_t *)params->label, entry->name,
	sizeof(entry->name) / sizeof(entry->name[0]))) {
	Error("The label cannot be converted to UTF16.\n");
	return -1;
	}
	}
	return 0;
	}

	// This is an internal helper function which assumes no NULL args are passed.
	// It sets the given attribute values for a single entry at the given index.
	static int SetEntryAttributes(struct drive *drive,
	uint32_t index,
	CgptAddParams *params) {
	if (params->set_raw) {
	SetRaw(drive, PRIMARY, index, params->raw_value);
	} else {
	if (params->set_successful)
	SetSuccessful(drive, PRIMARY, index, params->successful);
	if (params->set_tries)
	SetTries(drive, PRIMARY, index, params->tries);
	if (params->set_priority)
	SetPriority(drive, PRIMARY, index, params->priority);
	if (params->set_legacy_boot)
	SetLegacyBoot(drive, PRIMARY, index, params->legacy_boot);
	if (params->set_required)
	SetRequired(drive, PRIMARY, index, params->required);
	}

	// New partitions must specify type, begin, and size.
	if (IsUnused(drive, PRIMARY, index)) {
	if (!params->set_begin \|\| !params->set_size \|\| !params->set_type) {
	Error("-t, -b, and -s options are required for new partitions\n");
	return -1;
	}
	if (GuidIsZero(&params->type_guid)) {
	Error("New partitions must have a type other than \"unused\"\n");
	return -1;
	}
	}

	return 0;
	}

	static int CgptCheckAddValidity(struct drive *drive) {
	int gpt_retval;
	if (GPT_SUCCESS != (gpt_retval = GptSanityCheck(&drive->gpt))) {
	Error("GptSanityCheck() returned %d: %s\n",
	gpt_retval, GptError(gpt_retval));
	return -1;
	}

	if (CGPT_OK != CheckValid(drive)) {
	Error("please run 'cgpt repair' before adding anything.\n");
	return -1;
	}

	return 0;
	}

	static int CgptGetUnusedPartition(struct drive drive, uint32_t index,
	CgptAddParams *params) {
	uint32_t i;
	uint32_t max_part = GetNumberOfEntries(drive);
	if (params->partition) {
	if (params->partition > max_part) {
	Error("invalid partition number: %d\n", params->partition);
	return -1;
	}
	*index = params->partition - 1;
	return 0;
	} else {
	// Find next empty partition.
	for (i = 0; i < max_part; i++) {
	if (IsUnused(drive, PRIMARY, i)) {
	params->partition = i + 1;
	*index = i;
	return 0;
	}
	}
	Error("no unused partitions available\n");
	return -1;
	}
	}

	int CgptSetAttributes(CgptAddParams *params) {
	struct drive drive;

	if (params == NULL)
	return CGPT_FAILED;

	if (CGPT_OK != DriveOpen(params->drive_name, &drive, O_RDWR,
	params->drive_size))
	return CGPT_FAILED;

	if (CgptCheckAddValidity(&drive)) {
	goto bad;
	}

	if (params->partition == 0 \|\|
	params->partition >= GetNumberOfEntries(&drive)) {
	Error("invalid partition number: %d\n", params->partition);
	goto bad;
	}

	SetEntryAttributes(&drive, params->partition - 1, params);

	UpdateAllEntries(&drive);

	// Write it all out.
	return DriveClose(&drive, 1);

	bad:
	DriveClose(&drive, 0);
	return CGPT_FAILED;
	}

	// This method gets the partition details such as the attributes, the
	// guids of the partitions, etc. Input is the partition number or the
	// unique id of the partition. Output is populated in the respective
	// fields of params.
	int CgptGetPartitionDetails(CgptAddParams *params) {
	struct drive drive;
	int result = CGPT_FAILED;
	int index;

	if (params == NULL)
	return CGPT_FAILED;

	if (CGPT_OK != DriveOpen(params->drive_name, &drive, O_RDWR,
	params->drive_size))
	return CGPT_FAILED;

	if (CgptCheckAddValidity(&drive)) {
	goto bad;
	}

	int max_part = GetNumberOfEntries(&drive);
	if (params->partition > 0) {
	if (params->partition >= max_part) {
	Error("invalid partition number: %d\n", params->partition);
	goto bad;
	}
	} else {
	if (!params->set_unique) {
	Error("either partition or unique_id must be specified\n");
	goto bad;
	}
	for (index = 0; index < max_part; index++) {
	GptEntry *entry = GetEntry(&drive.gpt, PRIMARY, index);
	if (GuidEqual(&entry->unique, &params->unique_guid)) {
	params->partition = index + 1;
	break;
	}
	}
	if (index >= max_part) {
	Error("no partitions with the given unique id available\n");
	goto bad;
	}
	}
	index = params->partition - 1;

	// GPT-specific code
	GptEntry *entry = GetEntry(&drive.gpt, PRIMARY, index);
	params->begin = entry->starting_lba;
	params->size = entry->ending_lba - entry->starting_lba + 1;
	memcpy(&params->type_guid, &entry->type, sizeof(Guid));
	memcpy(&params->unique_guid, &entry->unique, sizeof(Guid));
	params->raw_value = entry->attrs.fields.gpt_att;

	params->successful = GetSuccessful(&drive, PRIMARY, index);
	params->tries = GetTries(&drive, PRIMARY, index);
	params->priority = GetPriority(&drive, PRIMARY, index);
	result = CGPT_OK;

	bad:
	DriveClose(&drive, 0);
	return result;
	}

	static int GptAdd(struct drive drive, CgptAddParams params, uint32_t index) {
	GptEntry *entry, backup;
	int rv;

	entry = GetEntry(&drive->gpt, PRIMARY, index);
	memcpy(&backup, entry, sizeof(backup));

	if (SetEntryAttributes(drive, index, params) \|\|
	GptSetEntryAttributes(drive, index, params)) {
	memcpy(entry, &backup, sizeof(*entry));
	return -1;
	}

	UpdateAllEntries(drive);

	rv = CheckEntries((GptEntry*)drive->gpt.primary_entries,
	(GptHeader*)drive->gpt.primary_header);

	if (0 != rv) {
	// If the modified entry is illegal, recover it and return error.
	memcpy(entry, &backup, sizeof(*entry));
	Error("%s\n", GptErrorText(rv));
	Error("");
	PrintCgptAddParams(params);
	return -1;
	}

	return 0;
	}

	int CgptAdd(CgptAddParams *params) {
	struct drive drive;
	uint32_t index;

	if (params == NULL)
	return CGPT_FAILED;

	if (CGPT_OK != DriveOpen(params->drive_name, &drive, O_RDWR,
	params->drive_size))
	return CGPT_FAILED;

	if (CgptCheckAddValidity(&drive)) {
	goto bad;
	}

	if (CgptGetUnusedPartition(&drive, &index, params)) {
	goto bad;
	}

	if (GptAdd(&drive, params, index))
	goto bad;

	// Write it all out.
	return DriveClose(&drive, 1);

	bad:
	DriveClose(&drive, 0);
	return CGPT_FAILED;
	}