int main(int ac, char **av)
{
unsigned char board[MEM_SIZE];
t_vm *vm;
t_dlist *list;
t_dlist *list_s;
if (ac < 2)
return (0);
list = NULL;
list_s = NULL;
list = new_list(list);
list_s = new_list(list_s);
init_board(board);
vm = NULL;
vm = new_vm(vm);
fill_list(list, av);
check_debug(list, vm);
syntax(list);
find_dump(list, vm);
find_champ(list, vm, board, 0);
id_champ(vm);
champ_id_reg(vm);
init_alive(vm);
start_vm(vm, board);
winning(vm);
return (0);
}
int
main(
int argc,
char ** argv)
{
GList *dlist;
GList *dlist1;
disk_t *diskp;
disklist_t diskl;
size_t i;
char *conf_diskfile;
char *conf_tapelist;
char *conf_indexdir;
find_result_t *output_find;
time_t tmp_time;
int amtrmidx_debug = 0;
config_overrides_t *cfg_ovr = NULL;
gboolean compress_index;
gboolean sort_index;
char *lock_file;
file_lock *lock_index;
if (argc > 1 && argv[1] && g_str_equal(argv[1], "--version")) {
printf("amtrmidx-%s\n", VERSION);
return (0);
}
/*
* Configure program for internationalization:
* 1) Only set the message locale for now.
* 2) Set textdomain for all amanda related programs to "amanda"
* We don't want to be forced to support dozens of message catalogs.
*/
setlocale(LC_MESSAGES, "C");
textdomain("amanda");
safe_fd(-1, 0);
safe_cd();
set_pname("amtrmidx");
/* Don't die when child closes pipe */
signal(SIGPIPE, SIG_IGN);
dbopen(DBG_SUBDIR_SERVER);
dbprintf(_("%s: version %s\n"), argv[0], VERSION);
cfg_ovr = extract_commandline_config_overrides(&argc, &argv);
if (argc > 1 && g_str_equal(argv[1], "-t")) {
amtrmidx_debug = 1;
argc--;
argv++;
}
if (argc < 2) {
g_fprintf(stderr, _("Usage: %s [-t] <config> [-o configoption]*\n"), argv[0]);
return 1;
}
set_config_overrides(cfg_ovr);
config_init_with_global(CONFIG_INIT_EXPLICIT_NAME | CONFIG_INIT_USE_CWD, argv[1]);
conf_diskfile = config_dir_relative(getconf_str(CNF_DISKFILE));
read_diskfile(conf_diskfile, &diskl);
amfree(conf_diskfile);
if (config_errors(NULL) >= CFGERR_WARNINGS) {
config_print_errors();
if (config_errors(NULL) >= CFGERR_ERRORS) {
g_critical(_("errors processing config file"));
}
}
check_running_as(RUNNING_AS_DUMPUSER);
dbrename(get_config_name(), DBG_SUBDIR_SERVER);
conf_tapelist = config_dir_relative(getconf_str(CNF_TAPELIST));
if(read_tapelist(conf_tapelist)) {
error(_("could not load tapelist \"%s\""), conf_tapelist);
/*NOTREACHED*/
}
amfree(conf_tapelist);
compress_index = getconf_boolean(CNF_COMPRESS_INDEX);
sort_index = getconf_boolean(CNF_SORT_INDEX);
output_find = find_dump(&diskl);
conf_indexdir = config_dir_relative(getconf_str(CNF_INDEXDIR));
/* take a lock file to prevent concurent trim */
lock_file = g_strdup_printf("%s/%s", conf_indexdir, "lock");
lock_index = file_lock_new(lock_file);
if (file_lock_lock_wr(lock_index) != 0)
goto lock_failed;
/* now go through the list of disks and find which have indexes */
time(&tmp_time);
tmp_time -= 7*24*60*60; /* back one week */
for (dlist = diskl.head; dlist != NULL; dlist = dlist->next)
{
diskp = dlist->data;
if (diskp->index)
{
char *indexdir, *qindexdir;
DIR *d;
struct dirent *f;
char **names;
size_t name_length;
size_t name_count;
char *host;
char *disk, *qdisk;
size_t len_date;
disk_t *dp;
GSList *matching_dp = NULL;
/* get listing of indices, newest first */
host = sanitise_filename(diskp->host->hostname);
disk = sanitise_filename(diskp->name);
qdisk = quote_string(diskp->name);
indexdir = g_strjoin(NULL, conf_indexdir, "/",
host, "/",
disk, "/",
NULL);
qindexdir = quote_string(indexdir);
/* find all dles that use the same indexdir */
for (dlist1 = diskl.head; dlist1 != NULL; dlist1 = dlist1->next)
{
char *dp_host, *dp_disk;
dp = dlist1->data;
dp_host = sanitise_filename(dp->host->hostname);
dp_disk = sanitise_filename(dp->name);
if (g_str_equal(host, dp_host) &&
g_str_equal(disk, dp_disk)) {
matching_dp = g_slist_append(matching_dp, dp);
}
amfree(dp_host);
amfree(dp_disk);
}
dbprintf("%s %s -> %s\n", diskp->host->hostname,
qdisk, qindexdir);
amfree(qdisk);
if ((d = opendir(indexdir)) == NULL) {
dbprintf(_("could not open index directory %s\n"), qindexdir);
amfree(host);
amfree(disk);
amfree(indexdir);
amfree(qindexdir);
g_slist_free(matching_dp);
continue;
}
name_length = 100;
names = (char **)g_malloc(name_length * sizeof(char *));
name_count = 0;
while ((f = readdir(d)) != NULL) {
size_t l;
if(is_dot_or_dotdot(f->d_name)) {
continue;
}
for(i = 0; i < sizeof("YYYYMMDDHHMMSS")-1; i++) {
if(! isdigit((int)(f->d_name[i]))) {
break;
}
}
len_date = i;
/* len_date=8 for YYYYMMDD */
/* len_date=14 for YYYYMMDDHHMMSS */
if((len_date != 8 && len_date != 14)
|| f->d_name[len_date] != '_'
|| ! isdigit((int)(f->d_name[len_date+1]))) {
continue; /* not an index file */
}
/*
* Clear out old index temp files.
*/
l = strlen(f->d_name) - (sizeof(".tmp")-1);
if ((l > (len_date + 1))
&& (g_str_equal(f->d_name + l, ".tmp"))) {
struct stat sbuf;
char *path, *qpath;
path = g_strconcat(indexdir, f->d_name, NULL);
qpath = quote_string(path);
if(lstat(path, &sbuf) != -1
&& ((sbuf.st_mode & S_IFMT) == S_IFREG)
&& ((time_t)sbuf.st_mtime < tmp_time)) {
dbprintf("rm %s\n", qpath);
if(amtrmidx_debug == 0 && unlink(path) == -1) {
dbprintf(_("Error removing %s: %s\n"),
qpath, strerror(errno));
}
}
amfree(qpath);
amfree(path);
continue;
}
if(name_count >= name_length) {
char **new_names;
new_names = g_malloc((name_length * 2) * sizeof(char *));
memcpy(new_names, names, name_length * sizeof(char *));
amfree(names);
names = new_names;
name_length *= 2;
}
names[name_count++] = g_strdup(f->d_name);
}
closedir(d);
qsort(names, name_count, sizeof(char *), sort_by_name_reversed);
/*
* Search for the first full dump past the minimum number
* of index files to keep.
*/
for(i = 0; i < name_count; i++) {
char *datestamp;
int level;
size_t len_date;
int matching = 0;
GSList *mdp;
for(len_date = 0; len_date < sizeof("YYYYMMDDHHMMSS")-1; len_date++) {
if(! isdigit((int)(names[i][len_date]))) {
break;
}
}
datestamp = g_strdup(names[i]);
datestamp[len_date] = '\0';
if (sscanf(&names[i][len_date+1], "%d", &level) != 1)
level = 0;
for (mdp = matching_dp; mdp != NULL; mdp = mdp->next) {
dp = mdp->data;
if (dump_exist(output_find, dp->host->hostname,
dp->name, datestamp, level)) {
matching = 1;
}
}
if (!matching) {
struct stat sbuf;
char *path, *qpath;
path = g_strconcat(indexdir, names[i], NULL);
qpath = quote_string(path);
if(lstat(path, &sbuf) != -1
&& ((sbuf.st_mode & S_IFMT) == S_IFREG)
&& ((time_t)sbuf.st_mtime < tmp_time)) {
dbprintf("rm %s\n", qpath);
if(amtrmidx_debug == 0 && unlink(path) == -1) {
dbprintf(_("Error removing %s: %s\n"),
qpath, strerror(errno));
}
}
amfree(qpath);
amfree(path);
}
/* Did it require un/compression and/or sorting */
{
char *orig_name = getindexfname(host, disk, datestamp, level);
char *sorted_name = getindex_sorted_fname(host, disk, datestamp, level);
char *sorted_gz_name = getindex_sorted_gz_fname(host, disk, datestamp, level);
char *unsorted_name = getindex_unsorted_fname(host, disk, datestamp, level);
char *unsorted_gz_name = getindex_unsorted_gz_fname(host, disk, datestamp, level);
gboolean orig_exist = FALSE;
gboolean sorted_exist = FALSE;
gboolean sorted_gz_exist = FALSE;
gboolean unsorted_exist = FALSE;
gboolean unsorted_gz_exist = FALSE;
int fd;
int uncompress_err_fd = -1;
int sort_err_fd = -1;
int compress_err_fd = -1;
pid_t uncompress_pid = -1;
pid_t sort_pid = -1;
pid_t compress_pid = -1;
orig_exist = file_exists(orig_name);
sorted_exist = file_exists(sorted_name);
sorted_gz_exist = file_exists(sorted_gz_name);
unsorted_exist = file_exists(unsorted_name);
unsorted_gz_exist = file_exists(unsorted_gz_name);
if (sort_index && compress_index) {
if (!sorted_gz_exist) {
if (sorted_exist) {
// COMPRESS
compress_pid = run_compress(-1, NULL, &compress_err_fd, sorted_name, sorted_gz_name);
unlink(sorted_name);
} else if (unsorted_exist) {
// SORT AND COMPRESS
sort_pid = run_sort(-1, &fd, &sort_err_fd, unsorted_name, NULL);
compress_pid = run_compress(fd, NULL, &compress_err_fd, NULL, sorted_gz_name);
unlink(unsorted_name);
} else if (unsorted_gz_exist) {
// UNCOMPRESS SORT AND COMPRESS
uncompress_pid = run_uncompress(-1, &fd, &uncompress_err_fd, unsorted_gz_name, NULL);
sort_pid = run_sort(fd, &fd, &sort_err_fd, NULL, NULL);
compress_pid = run_compress(fd, NULL, &compress_err_fd, NULL, sorted_gz_name);
unlink(unsorted_gz_name);
} else if (orig_exist) {
// UNCOMPRESS SORT AND COMPRESS
uncompress_pid = run_uncompress(-1, &fd, &uncompress_err_fd, orig_name, NULL);
sort_pid = run_sort(fd, &fd, &sort_err_fd, NULL, NULL);
compress_pid = run_compress(fd, NULL, &compress_err_fd, NULL, sorted_gz_name);
unlink(orig_name);
}
} else {
if (sorted_exist) {
unlink(sorted_name);
}
if (unsorted_exist) {
unlink(unsorted_name);
}
if (unsorted_gz_exist) {
unlink(unsorted_gz_name);
}
}
} else if (sort_index && !compress_index) {
if (!sorted_exist) {
if (sorted_gz_exist) {
// UNCOMPRESS
uncompress_pid = run_uncompress(-1, NULL, &uncompress_err_fd, sorted_gz_name, sorted_name);
unlink(sorted_gz_name);
} else if (unsorted_exist) {
// SORT
sort_pid = run_sort(-1, NULL, &sort_err_fd, unsorted_name, sorted_name);
unlink(unsorted_name);
} else if (unsorted_gz_exist) {
// UNCOMPRESS AND SORT
uncompress_pid = run_uncompress(-1, &fd, &uncompress_err_fd, unsorted_gz_name, NULL);
sort_pid = run_sort(fd, NULL, &sort_err_fd, NULL, sorted_name);
unlink(unsorted_gz_name);
} else if (orig_exist) {
// UNCOMPRESS AND SORT
uncompress_pid = run_uncompress(-1, &fd, &uncompress_err_fd, orig_name, NULL);
sort_pid = run_sort(fd, NULL, &sort_err_fd, NULL, sorted_name);
unlink(orig_name);
}
} else {
if (sorted_gz_exist) {
unlink(sorted_gz_name);
}
if (unsorted_exist) {
unlink(unsorted_name);
}
if (unsorted_gz_exist) {
unlink(unsorted_gz_name);
}
}
} else if (!sort_index && compress_index) {
if (!sorted_gz_exist && !unsorted_gz_exist) {
if (sorted_exist) {
// COMPRESS sorted
compress_pid = run_compress(-1, NULL, &compress_err_fd, sorted_name, sorted_gz_name);
unlink(sorted_name);
} else if (unsorted_exist) {
// COMPRESS unsorted
compress_pid = run_compress(-1, NULL, &compress_err_fd, unsorted_name, unsorted_gz_name);
unlink(unsorted_name);
} else if (orig_exist) {
// RENAME orig
rename(orig_name, unsorted_gz_name);
}
} else {
if (sorted_exist) {
unlink(sorted_name);
}
if (unsorted_exist) {
unlink(unsorted_name);
}
if (sorted_gz_exist && unsorted_gz_exist) {
unlink(unsorted_gz_name);
}
}
} else if (!sort_index && !compress_index) {
if (!sorted_exist && !unsorted_exist) {
if (sorted_gz_exist) {
// UNCOMPRESS sorted
uncompress_pid = run_uncompress(-1, NULL, &uncompress_err_fd, sorted_gz_name, sorted_name);
unlink(sorted_gz_name);
} else if (unsorted_gz_exist) {
// UNCOMPRESS unsorted
uncompress_pid = run_uncompress(-1, NULL, &uncompress_err_fd, unsorted_gz_name, unsorted_name);
unlink(unsorted_gz_name);
} else if (orig_exist) {
// UNCOMPRESS orig
uncompress_pid = run_uncompress(-1, NULL, &uncompress_err_fd, orig_name, unsorted_name);
unlink(orig_name);
}
} else {
if (sorted_gz_exist) {
unlink(sorted_gz_name);
}
if (unsorted_gz_exist) {
unlink(unsorted_gz_name);
}
if (sorted_exist && unsorted_exist) {
unlink(unsorted_name);
}
}
}
if (uncompress_pid != -1)
wait_process(uncompress_pid, uncompress_err_fd, "uncompress");
if (sort_pid != -1)
wait_process(sort_pid, sort_err_fd, "sort");
if (compress_pid != -1)
wait_process(compress_pid, compress_err_fd, "compress");
g_free(orig_name);
g_free(sorted_name);
g_free(sorted_gz_name);
g_free(unsorted_name);
g_free(unsorted_gz_name);
}
amfree(datestamp);
amfree(names[i]);
}
g_slist_free(matching_dp);
amfree(names);
amfree(host);
amfree(disk);
amfree(indexdir);
amfree(qindexdir);
}
}
file_lock_unlock(lock_index);
lock_failed:
file_lock_free(lock_index);
amfree(conf_indexdir);
amfree(lock_file);
free_find_result(&output_find);
clear_tapelist();
free_disklist(&diskl);
unload_disklist();
dbclose();
return 0;
}
/*
* Build the list of tapes we'll be wanting, and include data about the
* files we want from said tapes while we're at it (the whole find_result
* should do fine)
*/
tapelist_t *
list_needed_tapes(
GSList * dumpspecs,
int only_one,
disklist_t *diskqp)
{
GSList *needed_tapes = NULL;
GSList *seen_dumps = NULL;
GSList *iter, *iter2;
find_result_t *alldumps = NULL;
find_result_t *curmatch = NULL;
find_result_t *matches = NULL;
tapelist_t *tapes = NULL;
int usage_order_counter = 0;
char *conf_tapelist;
/* Load the tape list */
conf_tapelist = config_dir_relative(getconf_str(CNF_TAPELIST));
if(read_tapelist(conf_tapelist)) {
error(_("could not load tapelist \"%s\""), conf_tapelist);
/*NOTREACHED*/
}
amfree(conf_tapelist);
/* Grab a find_output_t of all logged dumps */
alldumps = find_dump(diskqp);
if(alldumps == NULL){
g_fprintf(stderr, _("No dump records found\n"));
dbclose();
exit(1);
}
/* Compare all known dumps to our match list, note what we'll need */
matches = dumps_match_dumpspecs(alldumps, dumpspecs, 1);
/* D = dump_timestamp, newest first
* h = hostname
* k = diskname
* l = level
* p = partnum
* w = write_timestamp */
sort_find_result("Dhklpw", &matches);
for(curmatch = matches; curmatch; curmatch = curmatch->next) {
int havetape = 0;
/* keep only first dump if only_one */
if (only_one &&
curmatch != matches &&
(strcmp(curmatch->hostname, matches->hostname) ||
strcmp(curmatch->diskname, matches->diskname) ||
strcmp(curmatch->timestamp, matches->timestamp) ||
curmatch->level != matches->level)) {
continue;
}
if(strcmp("OK", curmatch->status)){
g_fprintf(stderr,_("Dump %s %s %s %d had status '%s', skipping\n"),
curmatch->timestamp, curmatch->hostname,
curmatch->diskname, curmatch->level,
curmatch->status);
continue;
}
for(iter = needed_tapes; iter; iter = iter->next) {
needed_tape_t *curtape = iter->data;
if (!strcmp(curtape->label, curmatch->label)) {
int keep = 1;
havetape = 1;
for(iter2 = curtape->files; iter2; iter2 = iter2->next){
find_result_t *rsttemp = iter2->data;
if(curmatch->filenum == rsttemp->filenum){
g_fprintf(stderr, _("Seeing multiple entries for tape "
"%s file %lld, using most recent\n"),
curtape->label,
(long long)curmatch->filenum);
keep = 0;
}
}
if(!keep){
break;
}
curtape->isafile = (curmatch->filenum < 1);
curtape->files = g_slist_prepend(curtape->files, curmatch);
break;
}
}
if (!havetape) {
needed_tape_t *newtape = g_new0(needed_tape_t, 1);
newtape->usage_order = usage_order_counter++;
newtape->files = g_slist_prepend(newtape->files, curmatch);
newtape->isafile = (curmatch->filenum < 1);
newtape->label = curmatch->label;
needed_tapes = g_slist_prepend(needed_tapes, newtape);
} /* if(!havetape) */
} /* for(curmatch = matches ... */
if(g_slist_length(needed_tapes) == 0){
g_fprintf(stderr, _("No matching dumps found\n"));
exit(1);
/* NOTREACHED */
}
/* sort the tapelist by tape write_timestamp */
needed_tapes = g_slist_sort(needed_tapes, sort_needed_tapes_by_write_timestamp);
/* stick that list in a structure that librestore will understand, removing
* files we have already seen in the process; this prefers the earliest written
* copy of any dumps which are available on multiple tapes */
seen_dumps = NULL;
for(iter = needed_tapes; iter; iter = iter->next) {
needed_tape_t *curtape = iter->data;
for(iter2 = curtape->files; iter2; iter2 = iter2->next) {
find_result_t *curfind = iter2->data;
find_result_t *prev;
GSList *iter;
int have_part;
/* have we already seen this? */
have_part = 0;
for (iter = seen_dumps; iter; iter = iter->next) {
prev = iter->data;
if (!strcmp(prev->partnum, curfind->partnum) &&
!strcmp(prev->hostname, curfind->hostname) &&
!strcmp(prev->diskname, curfind->diskname) &&
!strcmp(prev->timestamp, curfind->timestamp) &&
prev->level == curfind->level) {
have_part = 1;
break;
}
}
if (!have_part) {
seen_dumps = g_slist_prepend(seen_dumps, curfind);
tapes = append_to_tapelist(tapes, curtape->label,
curfind->filenum, -1, curtape->isafile);
}
}
}
/* free our resources */
for (iter = needed_tapes; iter; iter = iter->next) {
needed_tape_t *curtape = iter->data;
g_slist_free(curtape->files);
g_free(curtape);
}
g_slist_free(seen_dumps);
g_slist_free(needed_tapes);
free_find_result(&matches);
/* and we're done */
g_fprintf(stderr, _("%d tape(s) needed for restoration\n"), num_entries(tapes));
return(tapes);
}