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OpenCellular/firmware/lib/cgptlib/cgptlib.c
Randall Spangler bd81b3a7d3 Verified boot wrapper - replace utility functions 
This is part 3 of the vboot wrapper API refactoring.  It replaces the
function calls to utility.c functions with new API calls.  (It also
fixes up some integer type mismatches in cryptolib that were causing
warnings on the H2C build; those had been fixed a while ago in H2C but
hadn't been propagated across.)

BUG=chromium-os:17006
TEST=make && make runtests

Change-Id: I771085dcdf79d9592de64f35e3b758111a80dd9f
Reviewed-on: http://gerrit.chromium.org/gerrit/3263
Reviewed-by: Simon Glass <sjg@chromium.org>
Tested-by: Randall Spangler <rspangler@chromium.org>
2011-06-27 14:57:50 -07:00

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/* Copyright (c) 2011 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 "cgptlib.h"
#include "cgptlib_internal.h"
#include "crc32.h"
#include "gpt.h"
#include "utility.h"
#include "vboot_api.h"
int GptInit(GptData *gpt) {
int retval;
gpt->modified = 0;
gpt->current_kernel = CGPT_KERNEL_ENTRY_NOT_FOUND;
gpt->current_priority = 999;
retval = GptSanityCheck(gpt);
if (GPT_SUCCESS != retval) {
VBDEBUG(("GptInit() failed sanity check\n"));
return retval;
}
GptRepair(gpt);
return GPT_SUCCESS;
}
int GptNextKernelEntry(GptData* gpt, uint64_t* start_sector, uint64_t* size) {
GptHeader* header = (GptHeader*)gpt->primary_header;
GptEntry* entries = (GptEntry*)gpt->primary_entries;
GptEntry* e;
int new_kernel = CGPT_KERNEL_ENTRY_NOT_FOUND;
int new_prio = 0;
uint32_t i;
/* If we already found a kernel, continue the scan at the current
* kernel's prioity, in case there is another kernel with the same
* priority. */
if (gpt->current_kernel != CGPT_KERNEL_ENTRY_NOT_FOUND) {
for (i = gpt->current_kernel + 1; i < header->number_of_entries; i++) {
e = entries + i;
if (!IsKernelEntry(e))
continue;
VBDEBUG(("GptNextKernelEntry looking at same prio partition %d\n", i));
VBDEBUG(("GptNextKernelEntry s%d t%d p%d\n",
GetEntrySuccessful(e), GetEntryTries(e), GetEntryPriority(e)));
if (!(GetEntrySuccessful(e) || GetEntryTries(e)))
continue;
if (GetEntryPriority(e) == gpt->current_priority) {
gpt->current_kernel = i;
*start_sector = e->starting_lba;
*size = e->ending_lba - e->starting_lba + 1;
VBDEBUG(("GptNextKernelEntry likes that one\n"));
return GPT_SUCCESS;
}
}
}
/* We're still here, so scan for the remaining kernel with the
* highest priority less than the previous attempt. */
for (i = 0, e = entries; i < header->number_of_entries; i++, e++) {
int current_prio = GetEntryPriority(e);
if (!IsKernelEntry(e))
continue;
VBDEBUG(("GptNextKernelEntry looking at new prio partition %d\n", i));
VBDEBUG(("GptNextKernelEntry s%d t%d p%d\n",
GetEntrySuccessful(e), GetEntryTries(e), GetEntryPriority(e)));
if (!(GetEntrySuccessful(e) || GetEntryTries(e)))
continue;
if (current_prio >= gpt->current_priority)
continue; /* Already returned this kernel in a previous call */
if (current_prio > new_prio) {
new_kernel = i;
new_prio = current_prio;
}
}
/* Save what we found. Note that if we didn't find a new kernel,
* new_prio will still be -1, so future calls to this function will
* also fail. */
gpt->current_kernel = new_kernel;
gpt->current_priority = new_prio;
if (CGPT_KERNEL_ENTRY_NOT_FOUND == new_kernel) {
VBDEBUG(("GptNextKernelEntry no more kernels\n"));
return GPT_ERROR_NO_VALID_KERNEL;
}
VBDEBUG(("GptNextKernelEntry likes that one\n"));
e = entries + new_kernel;
*start_sector = e->starting_lba;
*size = e->ending_lba - e->starting_lba + 1;
return GPT_SUCCESS;
}
int GptUpdateKernelEntry(GptData* gpt, uint32_t update_type) {
GptHeader* header = (GptHeader*)gpt->primary_header;
GptEntry* entries = (GptEntry*)gpt->primary_entries;
GptEntry* e = entries + gpt->current_kernel;
uint16_t previous_attr = e->attrs.fields.gpt_att;
if (gpt->current_kernel == CGPT_KERNEL_ENTRY_NOT_FOUND)
return GPT_ERROR_INVALID_UPDATE_TYPE;
if (!IsKernelEntry(e))
return GPT_ERROR_INVALID_UPDATE_TYPE;
switch (update_type) {
case GPT_UPDATE_ENTRY_TRY: {
/* Used up a try */
int tries;
if (GetEntrySuccessful(e))
return GPT_SUCCESS; /* Successfully booted this partition, so
* tries field is ignored. */
tries = GetEntryTries(e);
if (tries > 1) {
/* Still have tries left */
SetEntryTries(e, tries - 1);
break;
}
/* Out of tries, so drop through and mark partition bad. */
}
case GPT_UPDATE_ENTRY_BAD: {
/* Giving up on this partition entirely. */
if (!GetEntrySuccessful(e)) {
/* Only clear tries and priority if the successful bit is not set. */
e->attrs.fields.gpt_att = previous_attr & ~(
CGPT_ATTRIBUTE_TRIES_MASK |
CGPT_ATTRIBUTE_PRIORITY_MASK);
}
break;
}
default:
return GPT_ERROR_INVALID_UPDATE_TYPE;
}
/* If no change to attributes, we're done */
if (e->attrs.fields.gpt_att == previous_attr)
return GPT_SUCCESS;
/* Update the CRCs */
header->entries_crc32 = Crc32((const uint8_t *)entries,
header->size_of_entry *
header->number_of_entries);
header->header_crc32 = HeaderCrc(header);
gpt->modified |= GPT_MODIFIED_HEADER1 | GPT_MODIFIED_ENTRIES1;
/* Use the repair function to update the other copy of the GPT.
* This is a tad inefficient, but is much faster than the disk I/O
* to update the GPT on disk so it doesn't matter. */
gpt->valid_headers = MASK_PRIMARY;
gpt->valid_entries = MASK_PRIMARY;
GptRepair(gpt);
return GPT_SUCCESS;
}
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