int
cmd_execbg (Shell *shell, void *args)
{
if (array_is_empty (args))
{
fprintf (stderr, "The command execbg expects at least one argument.\n");
return -1;
}
return execute (array_get (args, 0), args, EXEC_BG, NULL);
}
int
cmd_sdc (Shell *s, void *args)
{
if (array_is_empty (args))
{
fprintf (stderr, "The command sdc expects at least one argument.\n");
return -1;
}
shell_set_default_command (s, array_get (args, 0));
return 0;
}
int
cmd_exec (Shell *shell, void *args)
{
if (array_is_empty (args))
{
fprintf (stderr, "The command exec expects at least one argument.\n");
return -1;
}
execute (array_get (args, 0), args, EXEC_REPLACE, NULL);
error (0, errno, "Error");
return -1;
}
int
cmd_help (Shell *shell, void *args)
{
if (array_is_empty (args))
{
printf ("Available commands:\n");
const Array *a = shell_get_commands (shell);
for (size_t i = 0, n = array_get_size (a); i < n; ++i)
{
const command_t *command = array_get (a, i);
printf (" %s\n", command->name);
}
return 0;
}
int return_value = 0;
for (size_t i = 0, n = array_get_size (args); i < n; ++i)
{
const char *name = array_get (args, i);
const command_t *p = shell_get_command (shell, name);
if (!p) // Command not found.
{
fprintf (stderr, "No command \"%s\" found.\n", name);
--return_value;
}
else
{
printf ("- %s: %s", name, name);
if (p->args_list)
{
printf (" %s", p->args_list);
}
printf ("\n ");
if (p->help)
{
printf ("%s", p->help);
}
else
{
printf ("%s", "No help available for this command.");
}
printf ("\n");
}
}
return return_value;
}
int
cmd_history (Shell *shell, void *args)
{
if (array_is_empty (args))
{
fprintf (stderr, "The command history expects at least one argument.\n");
return -1;
}
const char *opt = array_get (args, 0);
if (0 == strcmp ("-c", opt))
{
clear_history ();
return 0;
}
return -1;
}
int
cmd_execfg (Shell *shell, void *args)
{
if (array_is_empty (args))
{
fprintf (stderr, "The command execfg expects at least one argument.\n");
return -1;
}
int status;
if (-1 == execute (array_get (args, 0), args, EXEC_FG, &status))
{
fprintf (stderr, "fork () failed.\n");
return -1;
}
return status;
}
int
cmd_version (Shell *shell, void *args)
{
if (!array_is_empty (args))
{
const char *arg = array_get (args, 0);
if (0 == strcmp ("-v", arg))
{
printf ("%s\n", get_prog_version ());
return 0;
}
else if (0 == strcmp ("-n", arg))
{
printf ("%s\n", get_prog_version_name ());
return 0;
}
}
print_version ();
return 0;
}
int ArrayMain(void)
{
int sum[] = { 1,2,3,4,5,6,7,8,9 };
struct Array tmp;
int *ret;
int *ret2;
int *ret3;
int *ret4;
array_init(&tmp, 128);
/* add an element and get it */
array_insert_rear(&tmp, sum);
ret = array_get_head(&tmp);
printf("%d(should be 1)\n", *ret);
/* array is 2 1 3 */
array_insert_head(&tmp, sum + 1);
array_insert_rear(&tmp, sum + 2);
ret2 = array_get_rear(&tmp);
printf("%d (should be 3)\n", *ret2);
/* array is 4 1 3 */
array_set_by_index(&tmp, sum + 3, 0);
ret3 = array_get_head(&tmp);
printf("%d(should be 4)\n", *ret3);
/* array is 1 3 */
array_remove_head(&tmp);
printf("%d(should be 2)\n", array_get_length(&tmp));
while (!array_is_empty(&tmp))
{
ret4 = array_get_head(&tmp);
printf("%d ", *ret4);
array_remove_head(&tmp);
}
printf("(should be 1 3)\n");
return 0;
}
int
cmd_setenv (Shell *shell, void *args)
{
if (array_is_empty (args))
{
char **p = environ;
while (*p)
{
printf ("%s\n", *p);
++p;
}
}
else
{
for (size_t i = 0, n = array_get_size (args); i < n; ++i)
{
putenv (strdup (array_get (args, i)));
}
}
return 0;
}
int
cmd_cd (Shell *shell, void *args)
{
char *new_pwd;
if (!array_is_empty (args))
{
if (0 == strcmp ("-", array_get (args, 0)))
{
if ( (new_pwd = getenv ("OLDPWD")) )
{
new_pwd = strdup (new_pwd);
}
else
{
fprintf (stderr, "Failed to get previous directory.\n");
return -1;
}
}
else
{
new_pwd = strdup (array_get (args, 0));
}
}
else if (!get_home_dir ())
{
fprintf (stderr, "Failed to get home directory.\n");
return -1;
}
else
{
new_pwd = strdup (get_home_dir ());
}
char *old_pwd = get_cwd ();
if (0 != chdir (new_pwd))
{
fprintf (stderr, "Failed to change directory to \"%s\".\n", new_pwd);
return -1;
}
// Because new_cwd does not contain an absolute path.
free (new_pwd);
if (old_pwd)
{
setenv ("OLDPWD", old_pwd, 1);
free (old_pwd);
}
else
{
unsetenv ("OLDPWD");
}
if ( (new_pwd = get_cwd ()) )
{
setenv ("PWD", new_pwd, 1);
free (new_pwd);
}
else
{
unsetenv ("PWD");
}
return 0;
}
enum dsc_image_parse_result
dsc_image_parse(struct tbd_create_info *const info_in,
struct dyld_shared_cache_info *const dsc_info,
struct dyld_cache_image_info *const image,
const uint64_t macho_options,
const uint64_t tbd_options,
__unused const uint64_t options)
{
/*
* The mappings store the data-structures that make up a mach-o file for all
* dyld_shared_cache images.
*
* To find out image's data, we have to recurse the mappings, to find the
* one containing our file.
*/
uint64_t max_image_size = 0;
const uint64_t file_offset =
get_image_file_offset_from_address(dsc_info,
image->address,
&max_image_size);
if (file_offset == 0) {
return E_DSC_IMAGE_PARSE_NO_CORRESPONDING_MAPPING;
}
if (max_image_size < sizeof(struct mach_header)) {
return E_DSC_IMAGE_PARSE_SIZE_TOO_SMALL;
}
const uint8_t *const map = dsc_info->map;
const struct mach_header *const header =
(const struct mach_header *)(map + file_offset);
const uint32_t magic = header->magic;
const bool is_64 = magic == MH_MAGIC_64 || magic == MH_CIGAM_64;
const bool is_big_endian = magic == MH_CIGAM || magic == MH_CIGAM_64;
if (is_64) {
if (max_image_size < sizeof(struct mach_header_64)) {
return E_DSC_IMAGE_PARSE_SIZE_TOO_SMALL;
}
} else {
const bool is_fat =
magic == FAT_MAGIC || magic == FAT_MAGIC_64 ||
magic == FAT_CIGAM || magic == FAT_CIGAM_64;
if (is_fat) {
return E_DSC_IMAGE_PARSE_FAT_NOT_SUPPORTED;
}
if (!is_big_endian && magic != MH_MAGIC) {
return E_DSC_IMAGE_PARSE_NOT_A_MACHO;
}
}
const uint32_t flags = header->flags;
if (flags & MH_TWOLEVEL) {
info_in->flags_field |= TBD_FLAG_FLAT_NAMESPACE;
}
if (!(flags & MH_APP_EXTENSION_SAFE)) {
info_in->flags_field |= TBD_FLAG_NOT_APP_EXTENSION_SAFE;
}
struct symtab_command symtab = {};
/*
* The symbol-table and string-table offsets are absolute, not relative from
* image's base, but we still need to account for shared-cache's start and
* size.
*
* To accomplish this, we parse the symbol-table separately.
*
* The section's offset are also absolute (relative to the map, not to the
* header).
*/
const uint64_t arch_bit = dsc_info->arch_bit;
const uint64_t lc_options =
O_MACHO_FILE_PARSE_DONT_PARSE_SYMBOL_TABLE |
O_MACHO_FILE_PARSE_SECT_OFF_ABSOLUTE |
macho_options;
struct mf_parse_load_commands_from_map_info info = {
.map = map,
.map_size = dsc_info->size,
.macho = (const uint8_t *)header,
.macho_size = max_image_size,
.arch = dsc_info->arch,
.arch_bit = arch_bit,
.available_map_range = dsc_info->available_range,
.is_64 = is_64,
.is_big_endian = is_big_endian,
.ncmds = header->ncmds,
.sizeofcmds = header->sizeofcmds,
.tbd_options = tbd_options,
.options = lc_options
};
const enum macho_file_parse_result parse_load_commands_result =
macho_file_parse_load_commands_from_map(info_in, &info, &symtab);
if (parse_load_commands_result != E_MACHO_FILE_PARSE_OK) {
return translate_macho_file_parse_result(parse_load_commands_result);
}
/*
* If symtab is invalid, we can simply assume that no symbol-table was
* found, but that this was ok from the options as
* macho_file_parse_load_commands_from_map didn't return an error-code.
*/
if (symtab.cmd != LC_SYMTAB) {
return E_DSC_IMAGE_PARSE_OK;
}
/*
* For parsing the symbol-tables, we provide the full dyld_shared_cache map
* as the symbol-table and string-table offsets are relative to the full
* map, not relative to the mach-o header.
*/
enum macho_file_parse_result ret = E_MACHO_FILE_PARSE_OK;
if (is_64) {
ret =
macho_file_parse_symbols_64_from_map(info_in,
map,
dsc_info->available_range,
arch_bit,
is_big_endian,
symtab.symoff,
symtab.nsyms,
symtab.stroff,
symtab.strsize,
tbd_options);
} else {
ret =
macho_file_parse_symbols_from_map(info_in,
map,
dsc_info->available_range,
arch_bit,
is_big_endian,
symtab.symoff,
symtab.nsyms,
symtab.stroff,
symtab.strsize,
tbd_options);
}
if (ret != E_MACHO_FILE_PARSE_OK) {
return translate_macho_file_parse_result(ret);
}
if (!(tbd_options & O_TBD_PARSE_IGNORE_MISSING_EXPORTS)) {
if (array_is_empty(&info_in->exports)) {
return E_DSC_IMAGE_PARSE_NO_EXPORTS;
}
}
info_in->archs = arch_bit;
info_in->archs_count = 1;
info_in->flags |= F_TBD_CREATE_INFO_EXPORTS_HAVE_FULL_ARCHS;
return E_DSC_IMAGE_PARSE_OK;
}
