diff options
author | Sol Boucher <solb@chromium.org> | 2015-02-26 11:47:19 -0800 |
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committer | Patrick Georgi <pgeorgi@google.com> | 2015-05-08 19:55:42 +0200 |
commit | 69b88bf1276d2cb0309e2fc96df9d33a893138e3 (patch) | |
tree | 2dc297765cb1f858e5f2f6865481eeafdad8e897 /util/cbfstool/fmd.c | |
parent | 5f7e4f019e258a49fff78e90509d1fda280fc147 (diff) | |
download | coreboot-69b88bf1276d2cb0309e2fc96df9d33a893138e3.tar.xz |
fmaptool: Introduce the fmd ("flashmap descriptor") language and compiler
This adds a compiler for a language whose textual representation of flashmap
regions will be used to describe the layout of flash chips that contain more
than just a single CBFS. Direct integration with cbfstool (via a new
command-line switch for the create action) is forthcoming but will be added
separately.
BUG=chromium:461875
TEST=Use Chromium OS's cros_bundle_firmware script on the fmap.dts file for
panther. Using the latter file as a reference, write a corresponding
fmap.fmd file and feed it through fmaptool. Run both binary output files
though the flashmap project's own flashmap_decode utility. Observe only
the expected differences.
BRANCH=None
Change-Id: I06b32d138dbef0a4e5ed43c81bd31c796fd5d669
Signed-off-by: Sol Boucher <solb@chromium.org>
Original-Commit-Id: 005ab67eb594e21489cf31036aedaea87e0c7142
Original-Change-Id: Ia08f28688efdbbfc70c255916b8eb7eb0eb07fb2
Original-Signed-off-by: Sol Boucher <solb@chromium.org>
Original-Reviewed-on: https://chromium-review.googlesource.com/255031
Original-Reviewed-by: Julius Werner <jwerner@chromium.org>
Original-Reviewed-by: Stefan Reinauer <reinauer@chromium.org>
Reviewed-on: http://review.coreboot.org/9942
Tested-by: build bot (Jenkins)
Reviewed-by: Patrick Georgi <pgeorgi@google.com>
Diffstat (limited to 'util/cbfstool/fmd.c')
-rw-r--r-- | util/cbfstool/fmd.c | 401 |
1 files changed, 401 insertions, 0 deletions
diff --git a/util/cbfstool/fmd.c b/util/cbfstool/fmd.c new file mode 100644 index 0000000000..bfce0490cd --- /dev/null +++ b/util/cbfstool/fmd.c @@ -0,0 +1,401 @@ +/* + * fmd.c, parser frontend and utility functions for flashmap descriptor language + * + * Copyright (C) 2015 Google, Inc. + * + * This program is free software; you can redistribute it and/or modify + * it under the terms of the GNU General Public License as published by + * the Free Software Foundation; version 2 of the License. + * + * This program is distributed in the hope that it will be useful, + * but WITHOUT ANY WARRANTY; without even the implied warranty of + * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the + * GNU General Public License for more details. + * + * You should have received a copy of the GNU General Public License + * along with this program; if not, write to the Free Software + * Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA, 02110-1301 USA + */ + +#include "fmd.h" + +#include "fmd_parser.h" +#include "fmd_scanner.h" +#include "option.h" + +#include <assert.h> +#include <search.h> +#include <string.h> + +/* + * Validate the given flashmap descriptor node's properties. In particular: + * - Ensure its name is globally unique. + * - Ensure its offset, if known, isn't located before the end of the previous + * section, if this can be determined. + * - Ensure its offset, if known, isn't located after the beginning of the next + * section or off the end of its parent section, if this can be determined. + * - Ensure its size is nonzero. + * - Ensure that the combination of its size and offset, if they are both + * known, doesn't place its end after the beginning of the next section or + * off the end of its parent section, if this can be determined. + * In the case of a validation error, the particular problem is reported to + * standard error and this function returns false. It should be noted that this + * function makes no claim that the members of the node's child list are valid: + * under no circumstances is any recursive validation performed. + * + * @param node The flashmap descriptor node to be validated + * @param start Optional minimum permissible base of the section to be + * validated, to be provided if known + * @param end Optional maximum permissible offset to the end of the section to + * be validated, to be provided if known + * @return Whether the node is valid + */ +static bool validate_descriptor_node(const struct flashmap_descriptor *node, + struct unsigned_option start, struct unsigned_option end) { + assert(node); + + ENTRY search_key = {node->name, NULL}; + if (hsearch(search_key, FIND)) { + fprintf(stderr, "ERROR: Multiple sections with name '%s'\n", + node->name); + return false; + } + if (!hsearch(search_key, ENTER)) + assert(false); + + if (node->offset_known) { + if (start.val_known && node->offset < start.val) { + fprintf(stderr, "ERROR: Section '%s' starts too low\n", + node->name); + return false; + } else if (end.val_known && node->offset > end.val) { + fprintf(stderr, "ERROR: Section '%s' starts too high\n", + node->name); + return false; + } + } + + if (node->size_known) { + if (node->size == 0) { + fprintf(stderr, "ERROR: Section '%s' given no space\n", + node->name); + return false; + } else if (node->offset_known) { + unsigned node_end = node->offset + node->size; + if (end.val_known && node_end > end.val) { + fprintf(stderr, "ERROR: Section '%s' too big\n", + node->name); + return false; + } + } + } + + return true; +} + +/* + * Performs reverse lateral processing of sibling nodes, as described by the + * documentation of its caller, validate_and_complete_info(). If it encounters + * a node that is invalid in a way that couldn't have been discovered earlier, + * it explains the problem to standard output and returns false. + * + * @param first_incomplete_it First node whose offset or size couldn't be + * determined during forward processing + * @param cur_incomplete_it Last node whose offset or size is unknown + * @param end_watermark Offset to the end of the unresolved region + * @return Whether all completed nodes were still valid + */ +static bool complete_missing_info_backward( + flashmap_descriptor_iterator_t first_incomplete_it, + flashmap_descriptor_iterator_t cur_incomplete_it, + unsigned end_watermark) +{ + assert(first_incomplete_it); + assert(cur_incomplete_it); + assert(cur_incomplete_it >= first_incomplete_it); + + do { + struct flashmap_descriptor *cur = *cur_incomplete_it; + + assert(cur->offset_known || cur->size_known); + if (!cur->offset_known) { + if (cur->size > end_watermark) { + fprintf(stderr, "ERROR: Section '%s' too big\n", + cur->name); + return false; + } + cur->offset_known = true; + cur->offset = end_watermark -= cur->size; + } else if (!cur->size_known) { + if (cur->offset > end_watermark) { + fprintf(stderr, + "ERROR: Section '%s' starts too high\n", + cur->name); + return false; + } + cur->size_known = true; + cur->size = end_watermark - cur->offset; + end_watermark = cur->offset; + } + } while (--cur_incomplete_it >= first_incomplete_it); + + return true; +} + +/* + * Recursively examine each descendant of the provided flashmap descriptor node + * to ensure its position and size are known, attempt to infer them otherwise, + * and validate their values once they've been populated. + * This processes nodes according to the following algorithm: + * - At each level of the tree, it moves laterally between siblings, keeping + * a watermark of its current offset relative to the previous section, which + * it uses to fill in any unknown offsets it encounters along the way. + * - The first time it encounters a sibling with unknown size, it loses track + * of the watermark, and is therefore unable to complete further offsets; + * instead, if the watermark was known before, it marks the current node as + * the first that couldn't be completed in the initial pass. + * - If the current watermark is unknown (i.e. a node has been marked as the + * first incomplete one) and one with a fixed offset is encountered, a + * reverse lateral traversal is dispatched that uses that provided offset as + * a reverse watermark to complete all unknown fields until it finishes with + * the node marked as the first incomplete one: at this point, that flag is + * cleared, the watermark is updated, and forward processing resumes from + * where it left off. + * - If the watermark is unknown (i.e. node(s) are incomplete) after traversing + * all children of a particular parent node, reverse processing is employed + * as described above, except that the reverse watermark is initialized to + * the parent node's size instead of the (nonexistent) next node's offset. + * - Once all of a node's children have been processed, the algorithm applies + * itself recursively to each of the child nodes; thus, lower levels of the + * tree are processed only after their containing levels are finished. + * This approach can fail in two possible ways (in which case the problem is + * reported to standard output and this function returns false): + * - Processing reveals that some node's provided value is invalid in some way. + * - Processing determines that one or more provided values require an omitted + * field to take a nonsensical value. + * - Processing determines that it is impossible to determine a group of + * omitted values. This state is detected when a node whose offset *and* + * value are omitted is encountered during forward processing and while the + * current watermark is unknown: in such a case, neither can be known without + * being provided with either the other or more context. + * The function notably performs neither validation nor completion on the parent + * node it is passed; thus, it is important to ensure that that node is valid. + * (At the very least, it must have a valid size field in order for the + * algorithm to work on its children.) + * + * @param cur_level Parent node, which must minimally already have a valid size + * @return Whether completing and validating the children succeeded + */ +static bool validate_and_complete_info(struct flashmap_descriptor *cur_level) +{ + assert(cur_level); + assert(cur_level->size_known); + + // Our watermark is only known when first_incomplete_it is NULL. + flashmap_descriptor_iterator_t first_incomplete_it = NULL; + unsigned watermark = 0; + + fmd_foreach_child_iterator(cur_it, cur_level) { + struct flashmap_descriptor *cur_section = *cur_it; + + if (first_incomplete_it) { + if (cur_section->offset_known) { + if (complete_missing_info_backward( + first_incomplete_it, cur_it - 1, + cur_section->offset)) { + first_incomplete_it = NULL; + watermark = cur_section->offset; + } else { + return false; + } + } + // Otherwise, we can't go back until a provided offset. + } else if (!cur_section->offset_known) { + cur_section->offset_known = true; + cur_section->offset = watermark; + } + + assert(cur_level->size_known); + struct unsigned_option max_endpoint = {true, cur_level->size}; + if (cur_it != cur_level->list + cur_level->list_len - 1) { + struct flashmap_descriptor *next_section = cur_it[1]; + max_endpoint.val_known = next_section->offset_known; + max_endpoint.val = next_section->offset; + } + if (!validate_descriptor_node(cur_section, + (struct unsigned_option) + {!first_incomplete_it, watermark}, + max_endpoint)) + return false; + + if (!cur_section->size_known) { + if (!cur_section->offset_known) { + fprintf(stderr, + "ERROR: Cannot determine either offset or size of section '%s'\n", + cur_section->name); + return false; + } else if (!first_incomplete_it) { + first_incomplete_it = cur_it; + } else { + // We shouldn't find an unknown size within an + // incomplete region because the backward + // traversal at the beginning of this node's + // processing should have concluded said region. + assert(!first_incomplete_it); + } + } else if (!first_incomplete_it) { + watermark = cur_section->offset + cur_section->size; + } + } + + if (first_incomplete_it && + !complete_missing_info_backward(first_incomplete_it, + cur_level->list + cur_level->list_len - 1, + cur_level->size)) + return false; + + fmd_foreach_child(cur_section, cur_level) { + assert(cur_section->offset_known); + assert(cur_section->size_known); + + if (!validate_and_complete_info(cur_section)) + return false; + } + + return true; +} + +static void print_with_prefix(const struct flashmap_descriptor *tree, + const char *pre) +{ + assert(tree); + assert(pre); + + printf("%ssection '%s' has ", pre, tree->name); + + if (tree->offset_known) + printf("offset %uB, ", tree->offset); + else + fputs("unknown offset, ", stdout); + + if (tree->size_known) + printf("size %uB, ", tree->size); + else + fputs("unknown size, ", stdout); + + printf("and %zu subsections", tree->list_len); + if (tree->list_len) { + puts(":"); + + char child_prefix[strlen(pre) + 1]; + strcpy(child_prefix, pre); + strcat(child_prefix, "\t"); + fmd_foreach_child(each, tree) + print_with_prefix(each, child_prefix); + } else { + puts(""); + } +} + +struct flashmap_descriptor *fmd_create(FILE *stream) +{ + assert(stream); + + yyin = stream; + + struct flashmap_descriptor *ret = NULL; + if (yyparse() == 0) + ret = res; + + yylex_destroy(); + yyin = NULL; + res = NULL; + + if (ret) { + // This hash table is used to store the declared name of each + // section and ensure that each is globally unique. + if (!hcreate(fmd_count_nodes(ret))) { + perror("ERROR: While initializing hashtable"); + fmd_cleanup(ret); + return NULL; + } + + // Even though we haven't checked that the root node (ret) has + // a size field as required by this function, the parser + // warrants that it does because the grammar requires it. + if (!validate_and_complete_info(ret)) { + hdestroy(); + fmd_cleanup(ret); + return NULL; + } + + hdestroy(); + } + + return ret; +} + +void fmd_cleanup(struct flashmap_descriptor *victim) +{ + if (!victim) + return; + + free(victim->name); + for (unsigned idx = 0; idx < victim->list_len; ++idx) + fmd_cleanup(victim->list[idx]); + free(victim->list); + free(victim); +} + +size_t fmd_count_nodes(const struct flashmap_descriptor *tree) +{ + assert(tree); + + if (!tree->list_len) + return 1; + + unsigned count = 1; + fmd_foreach_child(lower, tree) + count += fmd_count_nodes(lower); + return count; +} + +const struct flashmap_descriptor *fmd_find_node( + const struct flashmap_descriptor *root, const char *name) +{ + assert(root); + assert(name); + + if (strcmp(root->name, name) == 0) + return root; + + fmd_foreach_child(descendant, root) { + const struct flashmap_descriptor *match = + fmd_find_node(descendant, name); + if (match) + return match; + } + return NULL; +} + +unsigned fmd_calc_absolute_offset(const struct flashmap_descriptor *root, + const char *name) +{ + assert(root); + assert(name); + + if (strcmp(root->name, name) == 0) + return 0; + + fmd_foreach_child(descendant, root) { + unsigned subtotal = fmd_calc_absolute_offset(descendant, name); + if (subtotal != FMD_NOTFOUND) + return descendant->offset + subtotal; + } + return FMD_NOTFOUND; +} + +void fmd_print(const struct flashmap_descriptor *tree) +{ + print_with_prefix(tree, ""); +} |