patchelfcrc/src/main.c

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/*
* This file is part of patchelfcrc .
* Copyright (c) 2022 Mario Hüttel.
*
* 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 only.
*
* 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, see <http://www.gnu.org/licenses/>.
*/
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#include <stdio.h>
#include <libelf.h>
#include <argp.h>
#include <stdbool.h>
#include <string.h>
#include <stdlib.h>
#include <patchelfcrc/named_crcs.h>
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#include <patchelfcrc/crc.h>
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#include <patchelfcrc/version.h>
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#include <linklist-lib/singly-linked-list.h>
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#include <patchelfcrc/reporting.h>
#include <patchelfcrc/elfpatch.h>
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#include <patchelfcrc/xml.h>
#include <fort.h>
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const char *argp_program_bug_address = "<mario [dot] huettel [at] linux [dot] com>";
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#define ARG_KEY_DRY_RUN (1)
#define ARG_KEY_START_MAGIC (2)
#define ARG_KEY_END_MAGIC (3)
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#define ARG_KEY_LIST (4)
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#define ARG_KEY_EXPORT (5)
#define ARG_KEY_IMPORT (6)
#define ARG_KEY_XSD (7)
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struct command_line_options {
bool little_endian;
bool dry_run;
bool verbose;
bool print_xsd;
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enum granularity granularity;
enum crc_format format;
struct crc_settings crc;
bool has_start_magic;
uint32_t start_magic;
bool has_end_magic;
uint32_t end_magic;
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bool list;
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SlList *section_list;
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const char *elf_path;
const char *output_section;
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const char *export_xml;
const char *import_xml;
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};
/**
* @brief Parse command line options
* @param key Option key
* @param arg Argument passed
* @param state State of ARGP parser
* @return 0 No error
* @return ARGP_ERR_UNKNOWN in case of an unknown option
*/
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static error_t parse_opt(int key, char *arg, struct argp_state *state)
{
struct command_line_options *args = (struct command_line_options *)state->input;
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const struct named_crc *looked_up_crc;
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char *endptr;
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switch (key) {
case ARG_KEY_DRY_RUN:
args->dry_run = true;
args->verbose = true;
break;
case ARG_KEY_START_MAGIC:
args->has_start_magic = true;
args->start_magic = strtoul(arg, NULL, 0);
break;
case ARG_KEY_END_MAGIC:
args->has_end_magic = true;
args->end_magic = strtoul(arg, NULL, 0);
break;
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case ARG_KEY_EXPORT:
args->export_xml = arg;
break;
case ARG_KEY_IMPORT:
args->import_xml = arg;
break;
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case ARG_KEY_LIST:
args->list = true;
break;
case ARG_KEY_XSD:
args->print_xsd = true;
break;
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case 'p':
/* Polyniomial */
args->crc.polynomial = strtoull(arg, &endptr, 0);
if (endptr == arg) {
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if ((looked_up_crc = lookup_named_crc(arg))) {
memcpy(&args->crc, &looked_up_crc->settings, sizeof(struct crc_settings));
} else {
argp_error(state, "Error parsing polynomial: %s\n", arg);
}
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}
break;
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case 'l':
args->little_endian = true;
break;
case 'v':
args->verbose = true;
break;
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case 'S':
/* Section */
args->section_list = sl_list_append(args->section_list, strdup(arg));
break;
case 'g':
if (!strcmp(arg, "byte"))
args->granularity = GRANULARITY_BYTE;
else if (!strcmp(arg, "halfword"))
args->granularity = GRANULARITY_16BIT;
else if (!strcmp(arg, "word"))
args->granularity = GRANULARITY_32BIT;
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else
argp_error(state, "Error parsing granularity: %s\n", arg);
break;
case 'F':
if (!strcmp(arg, "bare"))
args->format = FORMAT_BARE;
else if (!strcmp(arg, "struct"))
args->format = FORMAT_STRUCT;
else
argp_error(state, "Error parsing output format: %s\n", arg);
break;
case 'O':
args->output_section = arg;
break;
case 'r':
args->crc.rev = true;
break;
case 's':
args->crc.start_value = strtoul(arg, NULL, 0);
break;
case 'x':
args->crc.xor = strtoul(arg, NULL, 0);
break;
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case ARGP_KEY_ARG:
if (state->arg_num >= 1)
argp_usage(state);
else
args->elf_path = arg;
break;
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default:
return ARGP_ERR_UNKNOWN;
}
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return 0;
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}
static int parse_cmdline_options(int *argc, char ***argv, struct command_line_options *cmd_opts)
{
const int crc_param_group = 1;
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error_t err;
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if (!argc || !argv)
return -1000;
static struct argp_option options[] = {
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{"little-endian", 'l', 0, 0, "Memory image is little endian. Only relevant if granularity is greater than a single byte", 0},
{"granularity", 'g', "GRANULARITY", 0, "Granularity to calculate the CRC for", 0},
{"poly", 'p', "POLYNOMIAL", 0, "Polynomial to use", crc_param_group},
{"start-value", 's', "STARTVALUE", 0, "Start value for CRC calculation", crc_param_group},
{"reversed", 'r', 0, 0, "Bit reversed CRC", crc_param_group},
{"xor-out", 'x', "XORVAL", 0, "XOR the output with XORVAL. Default 0x0", crc_param_group},
{"dry-run", ARG_KEY_DRY_RUN, 0, 0, "Dry run. Caclualate CRCs but do not patch output file. Implicitly activates verbose mode.", 0},
{"verbose", 'v', 0, 0, "Verbose output", 0},
{"section", 'S', "SEC", 0, "Section to calculate CRC for", 2},
{"output-section", 'O', "OUTPUTSEC", 0, "Output section for generated CRCs", 2},
{"crc-format", 'F', "FORMAT", 0, "Output Format for CRCs.", 2},
{"start-magic", ARG_KEY_START_MAGIC, "STARTMAGIC", 0, "Check output section for start magic (uint32)", 2},
{"end-magic", ARG_KEY_END_MAGIC, "STARTMAGIC", 0, "Check output section for start magic (uint32)", 2},
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{"list-crcs", ARG_KEY_LIST, 0, 0, "List predefined CRCs", 0},
{"export", ARG_KEY_EXPORT, "XML", 0, "Export CRCs to XML file", 3},
{"import", ARG_KEY_IMPORT, "XML", 0, "Do not caclulate CRCs but import them from file", 3},
{"xsd", ARG_KEY_XSD, 0, 0, "Print XSD to stdout", 0},
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/* Sentinel */
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{NULL, 0, 0, 0, NULL, 0}
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};
static struct argp arg_parser = {
options,
parse_opt,
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"ELF",
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NULL,
0, 0, 0
};
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err = argp_parse(&arg_parser, *argc, *argv, 0, 0, cmd_opts);
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return err ? -1 : 0;
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}
static void prepare_default_opts(struct command_line_options *opts)
{
opts->little_endian = false;
opts->verbose = false;
opts->print_xsd = false;
opts->granularity = GRANULARITY_BYTE;
opts->dry_run = false;
opts->crc.xor = 0UL;
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opts->crc.polynomial = 0x104C11DB7UL;
opts->crc.start_value = 0xFFFFFFFFUL;
opts->crc.rev = false;
opts->format = FORMAT_BARE;
opts->has_end_magic = false;
opts->has_start_magic = false;
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opts->list = false;
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opts->section_list = NULL;
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opts->elf_path = NULL;
opts->output_section = NULL;
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opts->export_xml = NULL;
opts->import_xml = NULL;
}
static void print_verbose_start_info(const struct command_line_options *cmd_opts)
{
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int i;
SlList *list_iter;
const struct named_crc *predef_crc;
print_debug("Start CRC patching\n");
print_debug("Endianess: %s endian\n", (cmd_opts->little_endian ? "little" : "big"));
print_debug("Granularity: %u bits\n", (unsigned int)cmd_opts->granularity);
if (cmd_opts->has_start_magic)
print_debug("Checking for start magic: 0x%08x\n", (unsigned int)cmd_opts->start_magic);
if (cmd_opts->has_end_magic)
print_debug("Checking for end magic: 0x%08x\n", (unsigned int)cmd_opts->end_magic);
if (cmd_opts->dry_run)
print_debug("Dry run mode selected. Will not touch ELF file.\n");
predef_crc = reverse_lookup_named_crc(&cmd_opts->crc);
if (predef_crc) {
print_debug("Predefined CRC detected: %s\n", predef_crc->name);
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} else {
print_debug("Generator polynomial: 0x%lx\n", cmd_opts->crc.polynomial);
print_debug("Start value: 0x%x\n", cmd_opts->crc.start_value);
print_debug("Output XOR: 0x%x\n", cmd_opts->crc.xor);
print_debug("Reversed: %s\n", cmd_opts->crc.rev ? "yes" : "no");
print_debug("CRC length: %d\n", crc_len_from_poly(cmd_opts->crc.polynomial));
}
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if (cmd_opts->elf_path) {
print_debug("ELF file: %s\n", cmd_opts->elf_path);
}
if (cmd_opts->output_section) {
print_debug("Output section: %s\n", cmd_opts->output_section);
}
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if (cmd_opts->export_xml) {
print_debug("Export CRCs to '%s'\n", cmd_opts->export_xml);
}
if (cmd_opts->import_xml) {
print_debug("Import CRCs from '%s'\n", cmd_opts->import_xml);
}
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if (cmd_opts->section_list) {
for (list_iter = cmd_opts->section_list, i = 1; list_iter; list_iter = sl_list_next(list_iter), i++) {
print_debug("Input section [%d]: \"%s\"\n", i, (const char *)list_iter->data);
}
}
}
static void free_cmd_args(struct command_line_options *opts)
{
SlList *list_iter;
/* Free the output section names */
for (list_iter = opts->section_list; list_iter; list_iter = sl_list_next(list_iter)) {
if (list_iter->data)
free(list_iter->data);
}
/* Free the section list */
sl_list_free(opts->section_list);
opts->section_list = NULL;
}
/**
* @brief check_all_sections_present
* @param ep
* @param list
* @return -1 if no sections are provided. 0 if all sections are present. -2 if setions cannot be found
*/
static int check_all_sections_present(elfpatch_handle_t *ep, SlList *list)
{
SlList *iter;
const char *sec_name;
int ret = 0;
if (!ep)
return -1001;
if (!list) {
print_err("No input sections specified.\n")
return -1;
}
for (iter = list; iter; iter = sl_list_next(iter)) {
sec_name = (const char *)iter->data;
if (!sec_name)
continue;
if (elf_patch_check_for_section(ep, sec_name)) {
print_err("Cannot find section '%s'\n", sec_name);
ret = -2;
} else {
print_debug("Input section '%s': found\n", sec_name);
}
}
return ret;
}
/**
* @brief Compute CRCs over the sections in @p list
* @param ep Elf patch
* @param list List of section names to patch
* @param opts Command line options. Used for CRC generation
* @param[out] crcs Array of output CRCs. Must be large enough to hold all elements
* @return 0 if successful
*/
static int compute_crcs(elfpatch_handle_t *ep, SlList *list, const struct command_line_options *opts, uint32_t *crcs)
{
SlList *iter;
const char *sec_name;
int ret = 0;
struct crc_calc _crc;
struct crc_calc * const crc = &_crc;
unsigned int idx;
/* Construct the CRC */
crc_init(crc, &opts->crc);
for (iter = list, idx = 0; iter; iter = sl_list_next(iter), idx++) {
crc_reset(crc);
sec_name = (const char *)iter->data;
if (elf_patch_compute_crc_over_section(ep, sec_name, crc, opts->granularity, opts->little_endian)) {
print_err("Error during CRC calculation. Exiting.\n");
ret = -1;
break;
}
crc_finish_calc(crc);
crcs[idx] = crc_get_value(crc);
}
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crc_destroy(crc);
return ret;
}
/**
* @brief Debug-print the CRCs of sections in form of a table
* @param[in] list List of section names
* @param[in] crcs Array of CRCs.
* @note The array @p crcs must be at least as long as @p list
*/
static void print_crcs(SlList *list, const uint32_t *crcs)
{
SlList *iter;
unsigned int idx;
const char *sec_name;
ft_table_t *table;
table = ft_create_table();
/* Write header */
ft_set_cell_prop(table, 0, FT_ANY_COLUMN, FT_CPROP_ROW_TYPE, FT_ROW_HEADER);
ft_write_ln(table, "Section", "CRC");
for (iter = list, idx = 0; iter; iter = sl_list_next(iter), idx++) {
sec_name = (const char *)iter->data;
ft_printf_ln(table, "%s|0x%x", sec_name, crcs[idx]);
}
print_debug("Calculated CRCs:\n%s\n", ft_to_string(table));
ft_destroy_table(table);
}
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int main(int argc, char **argv)
{
struct command_line_options cmd_opts;
elfpatch_handle_t *ep;
int ret = 0;
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uint32_t *crcs = NULL;
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struct xml_crc_import *import_data = NULL;
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xml_init();
prepare_default_opts(&cmd_opts);
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parse_cmdline_options(&argc, &argv, &cmd_opts);
if (cmd_opts.print_xsd) {
xml_print_xsd();
goto free_cmds;
}
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if (cmd_opts.verbose || cmd_opts.dry_run)
reporting_enable_verbose();
print_verbose_start_info(&cmd_opts);
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if (cmd_opts.list) {
list_predefined_crcs();
goto free_cmds;
}
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/* Check if file has been supplied */
if (!cmd_opts.elf_path) {
print_err("No ELF file specified. Exiting...\n");
return -1;
}
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if (cmd_opts.export_xml && cmd_opts.import_xml) {
print_err("XML export and input cannot be specified at the same time.");
return -2;
}
if (!cmd_opts.output_section && cmd_opts.export_xml == NULL) {
print_err("No output section / XML export specified. Will continue but not create any output\n");
}
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/* Do error printing if using a reversed polynomial. It is not implemented yet! */
if (cmd_opts.crc.rev) {
print_err("Reversed polynomials are not supported yet\nExiting...\n");
goto free_cmds;
}
/* Prepare libelf for use with the latest ELF version */
elf_version(EV_CURRENT);
/* Open the ELF file */
ep = elf_patch_open(cmd_opts.elf_path, cmd_opts.dry_run, cmd_opts.little_endian);
if (!ep) {
ret = -2;
goto free_cmds;
}
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/* Check if all sections are present */
if (check_all_sections_present(ep, cmd_opts.section_list)) {
ret = -2;
goto ret_close_elf;
}
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/* Compute CRCs over sections */
crcs = (uint32_t *)malloc(sl_list_length(cmd_opts.section_list) * sizeof(uint32_t));
if (compute_crcs(ep, cmd_opts.section_list, &cmd_opts, crcs)) {
goto ret_close_elf;
}
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if (reporting_get_verbosity()) {
print_crcs(cmd_opts.section_list, crcs);
}
if (cmd_opts.output_section) {
if (elf_patch_write_crcs_to_section(ep, cmd_opts.output_section, cmd_opts.section_list,
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crcs, crc_len_from_poly(cmd_opts.crc.polynomial),
cmd_opts.start_magic, cmd_opts.end_magic,
cmd_opts.has_start_magic, cmd_opts.has_end_magic,
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cmd_opts.format, cmd_opts.little_endian)) {
ret = -1;
}
}
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if (cmd_opts.export_xml) {
if (xml_write_crcs_to_file(cmd_opts.export_xml, crcs, cmd_opts.section_list, &cmd_opts.crc, ep)) {
print_err("Error during XML generation\n");
ret = -3;
}
/* Fix this: */
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import_data = xml_import_from_file(cmd_opts.export_xml);
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}
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ret_close_elf:
elf_patch_close_and_free(ep);
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free_cmds:
free_cmd_args(&cmd_opts);
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/* Free CRCs if necessary */
if (crcs)
free(crcs);
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if (import_data)
xml_crc_import_free(import_data);
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return ret;
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}