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coreboot-kgpe-d16/util/cbfstool/fmaptool.c
Felix Held d57c1286de util/cbfstool/fmaptool: generate defines for all fmap sections 
Add defines for the start and size of the FMAP sections to the
optionally generated header file. For the defines the name of the
corresponding FMAP section is used without the full path, since every
section name should be unique anyway as documented here:
Documentation/lib/flashmap.md

BUG=b:157068645
TEST=Generated header file contains expected defines.
BRANCH=zork

Change-Id: Ie31161cfd304b69a3cb4bb366bf365d979e77c64
Signed-off-by: Felix Held <felix-coreboot@felixheld.de>
Reviewed-on: https://review.coreboot.org/c/coreboot/+/45594
Tested-by: build bot (Jenkins) <no-reply@coreboot.org>
Reviewed-by: Aaron Durbin <adurbin@chromium.org>
Reviewed-by: Furquan Shaikh <furquan@google.com>
2020-09-23 13:39:21 +00:00

272 lines
7.4 KiB
C
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/* fmaptool, CLI utility for converting plaintext fmd files into fmap blobs */
/* SPDX-License-Identifier: GPL-2.0-only */
#include "common.h"
#include "cbfs_sections.h"
#include "fmap_from_fmd.h"
#include <stdio.h>
#include <string.h>
#include <unistd.h>
#define STDIN_FILENAME_SENTINEL "-"
#define HEADER_FMAP_OFFSET "FMAP_OFFSET"
#define HEADER_FMAP_SIZE "FMAP_SIZE"
enum fmaptool_return {
FMAPTOOL_EXIT_SUCCESS = 0,
FMAPTOOL_EXIT_BAD_ARGS,
FMAPTOOL_EXIT_BAD_INPUT_PATH,
FMAPTOOL_EXIT_BAD_OUTPUT_PATH,
FMAPTOOL_EXIT_FAILED_DESCRIPTOR,
FMAPTOOL_EXIT_MISSING_FMAP_SECTION,
FMAPTOOL_EXIT_MISSING_PRIMARY_CBFS,
FMAPTOOL_EXIT_FAILED_FMAP_CONVERSION,
FMAPTOOL_EXIT_UNKNOWN_FMAP_SIZE,
FMAPTOOL_EXIT_FAILED_WRITING_OUTPUT,
FMAPTOOL_EXIT_FAILED_WRITING_HEADER,
};
static void usage(const char *invoked_as)
{
fputs("fmaptool: Compiler for fmd (flashmap descriptor) files\n",
stderr);
fputs("\nUSAGE:\n", stderr);
fprintf(stderr,
"\t%s [-h <header output file>] [-R <region output file>] <fmd input file> <binary output file>\n",
invoked_as);
fputs("\nMANDATORY ARGUMENTS:\n", stderr);
fprintf(stderr,
"<fmd input file> may be '%s' to read from standard input\n",
STDIN_FILENAME_SENTINEL);
fputs("<binary output file> must be a regular file\n", stderr);
fputs("\nOPTIONAL SWITCHES:\n", stderr);
fprintf(stderr,
"-h\tAlso produce a C header defining %s to the FMAP section's flash offset.\n",
HEADER_FMAP_OFFSET);
fprintf(stderr,
"-R\tAlso produce a text file listing the CBFS regions, comma separated.\n");
fputs("\nOUTPUT:\n", stderr);
fputs("A successful invocation prints a summary of work done to standard error, and a comma-separated list\n",
stderr);
fputs("of those sections that contain CBFSes, starting with the primary such section, to standard output.\n",
stderr);
}
static void list_cbfs_section_names(FILE *out)
{
cbfs_section_iterator_t cbfs_it = cbfs_sections_iterator();
assert(cbfs_it);
bool subsequent = false;
while (cbfs_it) {
const char *cur_name =
cbfs_sections_iterator_deref(cbfs_it)->name;
if (cbfs_sections_iterator_advance(&cbfs_it) && subsequent)
fputc(',', out);
fputs(cur_name, out);
subsequent = true;
}
fputc('\n', out);
}
static void write_header_fmap_sections(FILE *header, const struct flashmap_descriptor *root,
unsigned int offset)
{
assert(root);
/*
* The offset may only be unknown for the root node in a system where the flash isn't
* memory-mapped.
*/
if (!root->offset_known && offset != 0)
return;
const unsigned int current_offset = offset + (root->offset_known ? root->offset : 0);
fprintf(header, "#define FMAP_SECTION_%s_START %#x\n", root->name, current_offset);
if (!root->size_known)
return;
fprintf(header, "#define FMAP_SECTION_%s_SIZE %#x\n", root->name, root->size);
fmd_foreach_child(child, root)
write_header_fmap_sections(header, child, current_offset);
}
static bool write_header(const char *out_fname,
const struct flashmap_descriptor *root,
const int fmap_size)
{
assert(out_fname);
FILE *header = fopen(out_fname, "w");
if (!header) {
fprintf(stderr, "FATAL: Unable to open file '%s' for writing\n",
out_fname);
return false;
}
unsigned fmap_offset =
fmd_calc_absolute_offset(root, SECTION_NAME_FMAP);
assert(fmap_offset != FMD_NOTFOUND);
fputs("#ifndef FMAPTOOL_GENERATED_HEADER_H_\n", header);
fputs("#define FMAPTOOL_GENERATED_HEADER_H_\n\n", header);
fprintf(header, "#define %s %#x\n", HEADER_FMAP_OFFSET, fmap_offset);
fprintf(header, "#define %s %#x\n\n", HEADER_FMAP_SIZE, fmap_size);
write_header_fmap_sections(header, root, 0);
fputs("\n", header);
fputs("#endif\n", header);
fclose(header);
return true;
}
static void full_fmd_cleanup(struct flashmap_descriptor **victim)
{
assert(victim);
cbfs_sections_cleanup();
fmd_cleanup(*victim);
*victim = NULL;
}
int main(int argc, char **argv)
{
struct {
// Mandatory
const char *fmd_filename;
const char *fmap_filename;
// Optional
const char *header_filename;
const char *region_filename;
} args = {NULL, NULL, NULL, NULL};
bool show_usage = false;
int each_arg;
while (!show_usage && (each_arg = getopt(argc, argv, ":h:R:")) != -1) {
switch (each_arg) {
case 'h':
args.header_filename = optarg;
break;
case 'R':
args.region_filename = optarg;
break;
case ':':
fprintf(stderr, "-%c: Expected an accompanying value\n",
optopt);
show_usage = true;
break;
default:
fprintf(stderr, "-%c: Unexpected command-line switch\n",
optopt);
show_usage = true;
}
}
if (show_usage || argc - optind != 2) {
usage(argv[0]);
return FMAPTOOL_EXIT_BAD_ARGS;
}
args.fmd_filename = argv[optind];
args.fmap_filename = argv[optind + 1];
FILE *fmd_file = stdin;
if (strcmp(args.fmd_filename, STDIN_FILENAME_SENTINEL) != 0) {
fmd_file = fopen(args.fmd_filename, "r");
if (!fmd_file) {
fprintf(stderr, "FATAL: Unable to open file '%s'\n",
args.fmd_filename);
return FMAPTOOL_EXIT_BAD_INPUT_PATH;
}
}
struct flashmap_descriptor *descriptor = fmd_create(fmd_file);
fclose(fmd_file);
if (!descriptor) {
fputs("FATAL: Failed while processing provided descriptor\n",
stderr);
full_fmd_cleanup(&descriptor);
return FMAPTOOL_EXIT_FAILED_DESCRIPTOR;
}
if (!fmd_find_node(descriptor, SECTION_NAME_FMAP)) {
fprintf(stderr,
"FATAL: Flashmap descriptor must have an '%s' section\n",
SECTION_NAME_FMAP);
full_fmd_cleanup(&descriptor);
return FMAPTOOL_EXIT_MISSING_FMAP_SECTION;
}
if (!cbfs_sections_primary_cbfs_accounted_for()) {
fprintf(stderr,
"FATAL: Flashmap descriptor must have a '%s' section that is annotated with '(%s)'\n",
SECTION_NAME_PRIMARY_CBFS,
SECTION_ANNOTATION_CBFS);
full_fmd_cleanup(&descriptor);
return FMAPTOOL_EXIT_MISSING_PRIMARY_CBFS;
}
struct fmap *flashmap = fmap_from_fmd(descriptor);
if (!flashmap) {
fputs("FATAL: Failed while constructing FMAP section\n",
stderr);
full_fmd_cleanup(&descriptor);
return FMAPTOOL_EXIT_FAILED_FMAP_CONVERSION;
}
int size = fmap_size(flashmap);
if (size < 0) {
fputs("FATAL: Failed to determine FMAP section size\n",
stderr);
fmap_destroy(flashmap);
full_fmd_cleanup(&descriptor);
return FMAPTOOL_EXIT_UNKNOWN_FMAP_SIZE;
}
FILE *fmap_file = fopen(args.fmap_filename, "wb");
if (!fmap_file) {
fprintf(stderr, "FATAL: Unable to open file '%s' for writing\n",
args.fmap_filename);
fmap_destroy(flashmap);
full_fmd_cleanup(&descriptor);
return FMAPTOOL_EXIT_BAD_OUTPUT_PATH;
}
if (!fwrite(flashmap, size, 1, fmap_file)) {
fputs("FATAL: Failed to write final FMAP to file\n", stderr);
fclose(fmap_file);
fmap_destroy(flashmap);
full_fmd_cleanup(&descriptor);
return FMAPTOOL_EXIT_FAILED_WRITING_OUTPUT;
}
fclose(fmap_file);
fmap_destroy(flashmap);
if (args.header_filename &&
!write_header(args.header_filename, descriptor, size)) {
full_fmd_cleanup(&descriptor);
return FMAPTOOL_EXIT_FAILED_WRITING_HEADER;
}
fprintf(stderr, "SUCCESS: Wrote %d bytes to file '%s'%s\n", size,
args.fmap_filename,
args.header_filename ? " (and generated header)" : "");
fputs("The sections containing CBFSes are: ", stderr);
list_cbfs_section_names(stdout);
if (args.region_filename) {
FILE *region_file = fopen(args.region_filename, "w");
if (region_file == NULL)
return FMAPTOOL_EXIT_FAILED_WRITING_OUTPUT;
list_cbfs_section_names(region_file);
fclose(region_file);
}
full_fmd_cleanup(&descriptor);
return FMAPTOOL_EXIT_SUCCESS;
}
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