/*
* Amanda, The Advanced Maryland Automatic Network Disk Archiver
- * Copyright (c) 1991-1998 University of Maryland at College Park
+ * Copyright (c) 1991-1999 University of Maryland at College Park
* All Rights Reserved.
*
* Permission to use, copy, modify, distribute, and sell this software and its
* file named AUTHORS, in the root directory of this distribution.
*/
/*
- * $Id: planner.c,v 1.76.2.15.2.13.2.32.2.16 2005/03/16 18:09:50 martinea Exp $
+ * $Id: planner.c 10421 2008-03-06 18:48:30Z martineau $
*
* backup schedule planner for the Amanda backup system.
*/
#include "infofile.h"
#include "logfile.h"
#include "clock.h"
-#include "dgram.h"
+#include "packet.h"
+#include "security.h"
#include "protocol.h"
#include "version.h"
#include "amfeatures.h"
#include "server_util.h"
#include "holding.h"
+#include "timestamp.h"
+#include "amxml.h"
+
+#define planner_debug(i,x) do { \
+ if ((i) <= debug_planner) { \
+ dbprintf(x); \
+ } \
+} while (0)
#define MAX_LEVELS 3 /* max# of estimates per filesys */
#define RUNS_REDZONE 5 /* should be in conf file? */
#define PROMOTE_THRESHOLD 0.05 /* if <5% unbalanced, don't promote */
-#define DEFAULT_DUMPRATE 30.0 /* K/s */
+#define DEFAULT_DUMPRATE 1024.0 /* K/s */
/* configuration file stuff */
-char *conf_tapetype;
-int conf_maxdumpsize;
-int conf_runtapes;
-int conf_dumpcycle;
-int conf_runspercycle;
-int conf_tapecycle;
-int conf_etimeout;
-int conf_reserve;
-int conf_autoflush;
+char * conf_tapetype;
+gint64 conf_maxdumpsize;
+int conf_runtapes;
+int conf_dumpcycle;
+int conf_runspercycle;
+int conf_tapecycle;
+time_t conf_etimeout;
+int conf_reserve;
+int conf_autoflush;
+int conf_usetimestamps;
#define HOST_READY ((void *)0) /* must be 0 */
#define HOST_ACTIVE ((void *)1)
int got_estimate;
int dump_priority;
int dump_level;
- long dump_size;
+ gint64 dump_nsize; /* native size */
+ gint64 dump_csize; /* compressed size */
int degr_level; /* if dump_level == 0, what would be the inc level */
- long degr_size;
+ gint64 degr_nsize; /* native degraded size */
+ gint64 degr_csize; /* compressed degraded size */
int last_level;
- long last_lev0size;
+ gint64 last_lev0size;
int next_level0;
int level_days;
int promote;
+ int post_dle;
double fullrate, incrrate;
double fullcomp, incrcomp;
char *errstr;
int level[MAX_LEVELS];
char *dumpdate[MAX_LEVELS];
- long est_size[MAX_LEVELS];
+ gint64 est_size[MAX_LEVELS];
+ char *degr_mesg;
} est_t;
#define est(dp) ((est_t *)(dp)->up)
/* pestq = partial estimate */
disklist_t startq, waitq, pestq, estq, failq, schedq;
-long total_size;
+gint64 total_size;
double total_lev0, balanced_size, balance_threshold;
-unsigned long tape_length, tape_mark;
-int result_port, amanda_port;
-
-static am_feature_t *our_features = NULL;
-static char *our_feature_string = NULL;
-
-#ifdef KRB4_SECURITY
-int kamanda_port;
-#endif
+gint64 tape_length;
+size_t tape_mark;
tapetype_t *tape;
-long tt_blocksize;
-long tt_blocksize_kb;
+size_t tt_blocksize;
+size_t tt_blocksize_kb;
int runs_per_cycle = 0;
time_t today;
+char *planner_timestamp = NULL;
-dgram_t *msg;
+static am_feature_t *our_features = NULL;
+static char *our_feature_string = NULL;
/* We keep a LIFO queue of before images for all modifications made
* to schedq in our attempt to make the schedule fit on the tape.
int deleted; /* 0=modified, 1=deleted */
disk_t *dp; /* The disk that was changed */
int level; /* The original level */
- long size; /* The original size */
+ gint64 nsize; /* The original native size */
+ gint64 csize; /* The original compressed size */
char *errstr; /* A message describing why this disk is here */
} bi_t;
bilist_t biq; /* The BI queue itself */
-char *datestamp = NULL;
-
/*
* ========================================================================
* MAIN PROGRAM
*
*/
-static void setup_estimate P((disk_t *dp));
-static void get_estimates P((void));
-static void analyze_estimate P((disk_t *dp));
-static void handle_failed P((disk_t *dp));
-static void delay_dumps P((void));
-static int promote_highest_priority_incremental P((void));
-static int promote_hills P((void));
-static void output_scheduleline P((disk_t *dp));
-
-int main(argc, argv)
-int argc;
-char **argv;
+static void setup_estimate(disk_t *dp);
+static void get_estimates(void);
+static void analyze_estimate(disk_t *dp);
+static void handle_failed(disk_t *dp);
+static void delay_dumps(void);
+static int promote_highest_priority_incremental(void);
+static int promote_hills(void);
+static void output_scheduleline(disk_t *dp);
+int main(int, char **);
+
+int
+main(
+ int argc,
+ char ** argv)
{
- disklist_t *origqp;
+ disklist_t origq;
disk_t *dp;
int moved_one;
- char **vp;
- unsigned long malloc_hist_1, malloc_size_1;
- unsigned long malloc_hist_2, malloc_size_2;
- long initial_size;
- int fd;
- char *conffile;
+ int diskarg_offset;
+ gint64 initial_size;
+ int i;
char *conf_diskfile;
char *conf_tapelist;
char *conf_infofile;
times_t section_start;
+ char *qname;
+ int nb_disk;
+ char *errstr = NULL;
+ config_overwrites_t *cfg_ovr = NULL;
+ char *cfg_opt = NULL;
+ int planner_setuid;
+ int exit_status = EXIT_SUCCESS;
- for(fd = 3; fd < FD_SETSIZE; fd++) {
- /*
- * Make sure nobody spoofs us with a lot of extra open files
- * that would cause an open we do to get a very high file
- * descriptor, which in turn might be used as an index into
- * an array (e.g. an fd_set).
- */
- close(fd);
- }
+ /*
+ * 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");
- setvbuf(stderr, (char *)NULL, _IOLBF, 0);
+ /* drop root privileges */
+ planner_setuid = set_root_privs(0);
- if (argc > 1) {
- config_name = stralloc(argv[1]);
- config_dir = vstralloc(CONFIG_DIR, "/", config_name, "/", NULL);
- } else {
- char my_cwd[STR_SIZE];
+ safe_fd(-1, 0);
- if (getcwd(my_cwd, sizeof(my_cwd)) == NULL) {
- error("cannot determine current working directory");
- }
- config_dir = stralloc2(my_cwd, "/");
- if ((config_name = strrchr(my_cwd, '/')) != NULL) {
- config_name = stralloc(config_name + 1);
- }
- }
+ set_pname("planner");
- safe_cd();
+ dbopen(DBG_SUBDIR_SERVER);
- set_pname("planner");
+ cfg_ovr = extract_commandline_config_overwrites(&argc, &argv);
+ if (argc > 1)
+ cfg_opt = argv[1];
+
+ config_init(CONFIG_INIT_EXPLICIT_NAME | CONFIG_INIT_USE_CWD, cfg_opt);
+ apply_config_overwrites(cfg_ovr);
+
+ /* conf_diskfile is freed later, as it may be used in an error message */
+ conf_diskfile = config_dir_relative(getconf_str(CNF_DISKFILE));
+ read_diskfile(conf_diskfile, &origq);
- malloc_size_1 = malloc_inuse(&malloc_hist_1);
+ /* Don't die when child closes pipe */
+ signal(SIGPIPE, SIG_IGN);
+
+ setvbuf(stderr, (char *)NULL, (int)_IOLBF, 0);
erroutput_type = (ERR_AMANDALOG|ERR_INTERACTIVE);
set_logerror(logerror);
+
+ if (!planner_setuid) {
+ error(_("planner must be run setuid root"));
+ }
+
+ if (config_errors(NULL) >= CFGERR_ERRORS) {
+ g_critical(_("errors processing config file"));
+ }
+
+ safe_cd();
+
+ check_running_as(RUNNING_AS_DUMPUSER);
+
+ dbrename(get_config_name(), DBG_SUBDIR_SERVER);
+
startclock();
section_start = curclock();
our_features = am_init_feature_set();
our_feature_string = am_feature_to_string(our_features);
- fprintf(stderr, "%s: pid %ld executable %s version %s\n",
+ log_add(L_INFO, "%s pid %ld", get_pname(), (long)getpid());
+ g_fprintf(stderr, _("%s: pid %ld executable %s version %s\n"),
get_pname(), (long) getpid(), argv[0], version());
- for(vp = version_info; *vp != NULL; vp++)
- fprintf(stderr, "%s: %s", get_pname(), *vp);
-
- /*
- * 1. Networking Setup
- *
- * Planner runs setuid to get a priviledged socket for BSD security.
- * We get the socket right away as root, then setuid back to a normal
- * user. If we are not using BSD security, planner is not installed
- * setuid root.
- */
+ for (i = 0; version_info[i] != NULL; i++)
+ g_fprintf(stderr, _("%s: %s"), get_pname(), version_info[i]);
- /* set up dgram port first thing */
-
- msg = dgram_alloc();
-
- if(dgram_bind(msg, &result_port) == -1) {
- error("could not bind result datagram port: %s", strerror(errno));
+ diskarg_offset = 2;
+ if (argc > 3 && strcmp(argv[2], "--starttime") == 0) {
+ planner_timestamp = stralloc(argv[3]);
+ diskarg_offset += 2;
}
- if(geteuid() == 0) {
- /* set both real and effective uid's to real uid, likewise for gid */
- setgid(getgid());
- setuid(getuid());
- }
/*
- * From this point on we are running under our real uid, so we don't
- * have to worry about opening security holes below. Make sure we
- * are a valid user.
+ * 1. Networking Setup
+ *
*/
- if(getpwuid(getuid()) == NULL) {
- error("can't get login name for my uid %ld", (long)getuid());
- }
+ protocol_init();
/*
* 2. Read in Configuration Information
* All the Amanda configuration files are loaded before we begin.
*/
- fprintf(stderr,"READING CONF FILES...\n");
+ g_fprintf(stderr,_("READING CONF INFO...\n"));
- conffile = stralloc2(config_dir, CONFFILE_NAME);
- if(read_conffile(conffile)) {
- error("errors processing config file \"%s\"", conffile);
+ if(origq.head == NULL) {
+ error(_("empty disklist \"%s\""), conf_diskfile);
+ /*NOTREACHED*/
}
- amfree(conffile);
- conf_diskfile = getconf_str(CNF_DISKFILE);
- if (*conf_diskfile == '/') {
- conf_diskfile = stralloc(conf_diskfile);
- } else {
- conf_diskfile = stralloc2(config_dir, conf_diskfile);
+
+ errstr = match_disklist(&origq, argc-diskarg_offset,
+ argv+diskarg_offset);
+ if (errstr) {
+ g_fprintf(stderr,"%s",errstr);
+ amfree(errstr);
+ exit_status = EXIT_FAILURE;
}
- if((origqp = read_diskfile(conf_diskfile)) == NULL) {
- error("could not load disklist \"%s\"", conf_diskfile);
+ nb_disk = 0;
+ for(dp = origq.head; dp != NULL; dp = dp->next) {
+ if(dp->todo) {
+ qname = quote_string(dp->name);
+ log_add(L_DISK, "%s %s", dp->host->hostname, qname);
+ amfree(qname);
+ nb_disk++;
+ }
}
- match_disklist(origqp, argc-2, argv+2);
- for(dp = origqp->head; dp != NULL; dp = dp->next) {
- if(dp->todo)
- log_add(L_DISK, "%s %s", dp->host->hostname, dp->name);
+
+ if(nb_disk == 0) {
+ error(_("no DLE to backup"));
+ /*NOTREACHED*/
}
amfree(conf_diskfile);
- conf_tapelist = getconf_str(CNF_TAPELIST);
- if (*conf_tapelist == '/') {
- conf_tapelist = stralloc(conf_tapelist);
- } else {
- conf_tapelist = stralloc2(config_dir, conf_tapelist);
- }
+
+ conf_tapelist = config_dir_relative(getconf_str(CNF_TAPELIST));
if(read_tapelist(conf_tapelist)) {
- error("could not load tapelist \"%s\"", conf_tapelist);
+ error(_("could not load tapelist \"%s\""), conf_tapelist);
+ /*NOTREACHED*/
}
amfree(conf_tapelist);
- conf_infofile = getconf_str(CNF_INFOFILE);
- if (*conf_infofile == '/') {
- conf_infofile = stralloc(conf_infofile);
- } else {
- conf_infofile = stralloc2(config_dir, conf_infofile);
- }
+
+ conf_infofile = config_dir_relative(getconf_str(CNF_INFOFILE));
if(open_infofile(conf_infofile)) {
- error("could not open info db \"%s\"", conf_infofile);
+ error(_("could not open info db \"%s\""), conf_infofile);
+ /*NOTREACHED*/
+ }
+ if (check_infofile(conf_infofile, &origq, &errstr) == -1) {
+ log_add(L_WARNING, "problem copying infofile: %s", errstr);
+ amfree(errstr);
}
amfree(conf_infofile);
conf_tapetype = getconf_str(CNF_TAPETYPE);
- conf_maxdumpsize = getconf_int(CNF_MAXDUMPSIZE);
+ conf_maxdumpsize = getconf_int64(CNF_MAXDUMPSIZE);
conf_runtapes = getconf_int(CNF_RUNTAPES);
conf_dumpcycle = getconf_int(CNF_DUMPCYCLE);
conf_runspercycle = getconf_int(CNF_RUNSPERCYCLE);
conf_tapecycle = getconf_int(CNF_TAPECYCLE);
- conf_etimeout = getconf_int(CNF_ETIMEOUT);
+ conf_etimeout = (time_t)getconf_int(CNF_ETIMEOUT);
conf_reserve = getconf_int(CNF_RESERVE);
- conf_autoflush = getconf_int(CNF_AUTOFLUSH);
+ conf_autoflush = getconf_boolean(CNF_AUTOFLUSH);
+ conf_usetimestamps = getconf_boolean(CNF_USETIMESTAMPS);
- amfree(datestamp);
today = time(0);
- datestamp = construct_datestamp(NULL);
- log_add(L_START, "date %s", datestamp);
+ if (planner_timestamp) {
+ if (conf_usetimestamps == 0) {
+ planner_timestamp[8] = '\0';
+ }
+ } else if(conf_usetimestamps == 0) {
+ planner_timestamp = get_datestamp_from_time(0);
+ }
+ else {
+ planner_timestamp = get_timestamp_from_time(0);
+ }
+ log_add(L_START, _("date %s"), planner_timestamp);
+ g_printf("DATE %s\n", planner_timestamp);
+ fflush(stdout);
+ g_fprintf(stderr, _("%s: timestamp %s\n"),
+ get_pname(), planner_timestamp);
/* some initializations */
* do some basic sanity checking
*/
if(conf_tapecycle <= runs_per_cycle) {
- log_add(L_WARNING, "tapecycle (%d) <= runspercycle (%d)",
+ log_add(L_WARNING, _("tapecycle (%d) <= runspercycle (%d)"),
conf_tapecycle, runs_per_cycle);
}
tape = lookup_tapetype(conf_tapetype);
- if(conf_maxdumpsize > 0) {
+ if(conf_maxdumpsize > (gint64)0) {
tape_length = conf_maxdumpsize;
}
else {
- tape_length = tape->length * conf_runtapes;
+ tape_length = tapetype_get_length(tape) * (gint64)conf_runtapes;
}
- tape_mark = tape->filemark;
- tt_blocksize_kb = tape->blocksize;
+ tape_mark = (size_t)tapetype_get_filemark(tape);
+ tt_blocksize_kb = (size_t)tapetype_get_blocksize(tape);
tt_blocksize = tt_blocksize_kb * 1024;
- proto_init(msg->socket, today, 1000); /* XXX handles should eq nhosts */
-
-#ifdef KRB4_SECURITY
- kerberos_service_init();
-#endif
-
- fprintf(stderr, "%s: time %s: startup took %s secs\n",
+ g_fprintf(stderr, _("%s: time %s: startup took %s secs\n"),
get_pname(),
walltime_str(curclock()),
walltime_str(timessub(curclock(), section_start)));
* dump schedule.
*/
- fprintf(stderr,"\nSENDING FLUSHES...\n");
+ g_fprintf(stderr,_("\nSENDING FLUSHES...\n"));
+
if(conf_autoflush) {
- dumpfile_t file;
- sl_t *holding_list;
- sle_t *holding_file;
- holding_list = get_flush(NULL, NULL, 0, 0);
- for(holding_file=holding_list->first; holding_file != NULL;
+ dumpfile_t file;
+ GSList *holding_list, *holding_file;
+ char *qdisk, *qhname;
+
+ /* get *all* flushable files in holding */
+ holding_list = holding_get_files_for_flush(NULL);
+ for(holding_file=holding_list; holding_file != NULL;
holding_file = holding_file->next) {
- get_dumpfile(holding_file->name, &file);
-
- log_add(L_DISK, "%s %s", file.name, file.disk);
- fprintf(stderr,
+ holding_file_get_dumpfile((char *)holding_file->data, &file);
+
+ if (holding_file_size((char *)holding_file->data, 1) <= 0) {
+ log_add(L_INFO, "%s: removing file with no data.",
+ (char *)holding_file->data);
+ holding_file_unlink((char *)holding_file->data);
+ dumpfile_free_data(&file);
+ continue;
+ }
+
+ qdisk = quote_string(file.disk);
+ qhname = quote_string((char *)holding_file->data);
+ log_add(L_DISK, "%s %s", file.name, qdisk);
+ g_fprintf(stderr,
"FLUSH %s %s %s %d %s\n",
file.name,
- file.disk,
+ qdisk,
file.datestamp,
file.dumplevel,
- holding_file->name);
- fprintf(stdout,
+ qhname);
+ g_fprintf(stdout,
"FLUSH %s %s %s %d %s\n",
file.name,
- file.disk,
+ qdisk,
file.datestamp,
file.dumplevel,
- holding_file->name);
+ qhname);
+ amfree(qdisk);
+ amfree(qhname);
+ dumpfile_free_data(&file);
}
- free_sl(holding_list);
+ g_slist_free_full(holding_list);
holding_list = NULL;
}
- fprintf(stderr, "ENDFLUSH\n");
- fprintf(stdout, "ENDFLUSH\n");
+ g_fprintf(stderr, _("ENDFLUSH\n"));
+ g_fprintf(stdout, _("ENDFLUSH\n"));
fflush(stdout);
/*
* based on the curinfo database.
*/
- fprintf(stderr,"\nSETTING UP FOR ESTIMATES...\n");
+ g_fprintf(stderr,_("\nSETTING UP FOR ESTIMATES...\n"));
section_start = curclock();
startq.head = startq.tail = NULL;
- while(!empty(*origqp)) {
- disk_t *dp = dequeue_disk(origqp);
+ while(!empty(origq)) {
+ disk_t *dp = dequeue_disk(&origq);
if(dp->todo == 1) {
setup_estimate(dp);
}
}
- fprintf(stderr, "%s: time %s: setting up estimates took %s secs\n",
+ g_fprintf(stderr, _("%s: time %s: setting up estimates took %s secs\n"),
get_pname(),
walltime_str(curclock()),
walltime_str(timessub(curclock(), section_start)));
/* go out and get the dump estimates */
- fprintf(stderr,"\nGETTING ESTIMATES...\n");
+ g_fprintf(stderr,_("\nGETTING ESTIMATES...\n"));
section_start = curclock();
estq.head = estq.tail = NULL;
get_estimates();
- fprintf(stderr, "%s: time %s: getting estimates took %s secs\n",
+ g_fprintf(stderr, _("%s: time %s: getting estimates took %s secs\n"),
get_pname(),
walltime_str(curclock()),
walltime_str(timessub(curclock(), section_start)));
dump_queue("FAILED", failq, 15, stderr);
dump_queue("DONE", estq, 15, stderr);
+ if (!empty(failq)) {
+ exit_status = EXIT_FAILURE;
+ }
/*
* 6. Analyze Dump Estimates
* total expected size is accumulated as well.
*/
- fprintf(stderr,"\nANALYZING ESTIMATES...\n");
+ g_fprintf(stderr,_("\nANALYZING ESTIMATES...\n"));
section_start = curclock();
/* an empty tape still has a label and an endmark */
- total_size = (tt_blocksize_kb + tape_mark) * 2;
+ total_size = ((gint64)tt_blocksize_kb + (gint64)tape_mark) * (gint64)2;
total_lev0 = 0.0;
balanced_size = 0.0;
{
disk_t *dp;
- fprintf(stderr, "INITIAL SCHEDULE (size %ld):\n", total_size);
+ g_fprintf(stderr, _("INITIAL SCHEDULE (size %lld):\n"),
+ (long long)total_size);
for(dp = schedq.head; dp != NULL; dp = dp->next) {
- fprintf(stderr, " %s %s pri %d lev %d size %ld\n",
- dp->host->hostname, dp->name, est(dp)->dump_priority,
- est(dp)->dump_level, est(dp)->dump_size);
+ qname = quote_string(dp->name);
+ g_fprintf(stderr, _(" %s %s pri %d lev %d nsize %lld csize %lld\n"),
+ dp->host->hostname, qname, est(dp)->dump_priority,
+ est(dp)->dump_level,
+ (long long)est(dp)->dump_nsize,
+ (long long)est(dp)->dump_csize);
+ amfree(qname);
}
}
* until the dumps fit on the tape.
*/
- fprintf(stderr,
- "\nDELAYING DUMPS IF NEEDED, total_size %ld, tape length %lu mark %lu\n",
- total_size, tape_length, tape_mark);
+ g_fprintf(stderr, _("\nDELAYING DUMPS IF NEEDED, total_size %lld, tape length %lld mark %zu\n"),
+ (long long)total_size,
+ (long long)tape_length,
+ tape_mark);
initial_size = total_size;
delay_dumps();
/* XXX - why bother checking this? */
- if(empty(schedq) && total_size < initial_size)
- error("cannot fit anything on tape, bailing out");
+ if(empty(schedq) && total_size < initial_size) {
+ error(_("cannot fit anything on tape, bailing out"));
+ /*NOTREACHED*/
+ }
/*
* a big bump.
*/
- fprintf(stderr,
- "\nPROMOTING DUMPS IF NEEDED, total_lev0 %1.0f, balanced_size %1.0f...\n",
+ g_fprintf(stderr,
+ _("\nPROMOTING DUMPS IF NEEDED, total_lev0 %1.0lf, balanced_size %1.0lf...\n"),
total_lev0, balanced_size);
balance_threshold = balanced_size * PROMOTE_THRESHOLD;
moved_one = promote_hills();
- fprintf(stderr, "%s: time %s: analysis took %s secs\n",
+ g_fprintf(stderr, _("%s: time %s: analysis took %s secs\n"),
get_pname(),
walltime_str(curclock()),
walltime_str(timessub(curclock(), section_start)));
* on stderr for the debug file.
*/
- fprintf(stderr,"\nGENERATING SCHEDULE:\n--------\n");
-
- while(!empty(schedq)) output_scheduleline(dequeue_disk(&schedq));
- fprintf(stderr, "--------\n");
+ g_fprintf(stderr,_("\nGENERATING SCHEDULE:\n--------\n"));
+ if (empty(schedq)) {
+ exit_status = EXIT_FAILURE;
+ g_fprintf(stderr, _("--> Generated empty schedule! <--\n"));
+ } else {
+ while(!empty(schedq)) output_scheduleline(dequeue_disk(&schedq));
+ }
+ g_fprintf(stderr, _("--------\n"));
close_infofile();
- log_add(L_FINISH, "date %s time %s", datestamp, walltime_str(curclock()));
+ log_add(L_FINISH, _("date %s time %s"), planner_timestamp, walltime_str(curclock()));
+ log_add(L_INFO, "pid-done %ld", (long)getpid());
- amfree(msg);
- amfree(datestamp);
- amfree(config_dir);
- amfree(config_name);
+ clear_tapelist();
+ amfree(planner_timestamp);
amfree(our_feature_string);
am_release_feature_set(our_features);
our_features = NULL;
- malloc_size_2 = malloc_inuse(&malloc_hist_2);
+ dbclose();
- if(malloc_size_1 != malloc_size_2) {
- malloc_list(fileno(stderr), malloc_hist_1, malloc_hist_2);
- }
-
- return 0;
+ return exit_status;
}
*
*/
-static int last_level P((info_t *info)); /* subroutines */
-static long est_size P((disk_t *dp, int level));
-static long est_tape_size P((disk_t *dp, int level));
-static int next_level0 P((disk_t *dp, info_t *info));
-static int runs_at P((info_t *info, int lev));
-static long bump_thresh P((int level, long size_level_0, int bumppercent, int bumpsize, double bumpmult));
-static int when_overwrite P((char *label));
-
-static void askfor(ep, seq, lev, info)
-est_t *ep; /* esimate data block */
-int seq; /* sequence number of request */
-int lev; /* dump level being requested */
-info_t *info; /* info block for disk */
+static void askfor(est_t *, int, int, info_t *);
+static int last_level(info_t *info); /* subroutines */
+static gint64 est_size(disk_t *dp, int level);
+static gint64 est_tape_size(disk_t *dp, int level);
+static int next_level0(disk_t *dp, info_t *info);
+static int runs_at(info_t *info, int lev);
+static gint64 bump_thresh(int level, gint64 size_level_0, int bumppercent, gint64 bumpsize, double bumpmult);
+static int when_overwrite(char *label);
+
+static void askfor(
+ est_t *ep, /* esimate data block */
+ int seq, /* sequence number of request */
+ int lev, /* dump level being requested */
+ info_t *info) /* info block for disk */
{
if(seq < 0 || seq >= MAX_LEVELS) {
- error("error [planner askfor: seq out of range 0..%d: %d]",
+ error(_("error [planner askfor: seq out of range 0..%d: %d]"),
MAX_LEVELS, seq);
+ /*NOTREACHED*/
}
if(lev < -1 || lev >= DUMP_LEVELS) {
- error("error [planner askfor: lev out of range -1..%d: %d]",
+ error(_("error [planner askfor: lev out of range -1..%d: %d]"),
DUMP_LEVELS, lev);
+ /*NOTREACHED*/
}
if (lev == -1) {
ep->level[seq] = -1;
ep->dumpdate[seq] = (char *)0;
- ep->est_size[seq] = -2;
+ ep->est_size[seq] = (gint64)-2;
return;
}
ep->level[seq] = lev;
ep->dumpdate[seq] = stralloc(get_dumpdate(info,lev));
- malloc_mark(ep->dumpdate[seq]);
- ep->est_size[seq] = -2;
+ ep->est_size[seq] = (gint64)-2;
return;
}
static void
-setup_estimate(dp)
- disk_t *dp;
+setup_estimate(
+ disk_t *dp)
{
est_t *ep;
info_t info;
int i;
+ char *qname;
+ int overwrite_runs;
assert(dp && dp->host);
- fprintf(stderr, "%s: time %s: setting up estimates for %s:%s\n",
+
+ qname = quote_string(dp->name);
+ g_fprintf(stderr, _("%s: time %s: setting up estimates for %s:%s\n"),
get_pname(), walltime_str(curclock()),
- dp->host->hostname, dp->name);
+ dp->host->hostname, qname);
/* get current information about disk */
if(get_info(dp->host->hostname, dp->name, &info)) {
/* no record for this disk, make a note of it */
- log_add(L_INFO, "Adding new disk %s:%s.", dp->host->hostname, dp->name);
+ log_add(L_INFO, _("Adding new disk %s:%s."), dp->host->hostname, qname);
}
/* setup working data struct for disk */
- ep = alloc(sizeof(est_t));
- malloc_mark(ep);
+ ep = alloc(SIZEOF(est_t));
dp->up = (void *) ep;
ep->state = DISK_READY;
- ep->dump_size = -1;
+ ep->dump_nsize = (gint64)-1;
+ ep->dump_csize = (gint64)-1;
ep->dump_priority = dp->priority;
ep->errstr = 0;
ep->promote = 0;
+ ep->post_dle = 0;
+ ep->degr_mesg = NULL;
/* calculated fields */
- if(info.command & FORCE_FULL) {
+ if (ISSET(info.command, FORCE_FULL)) {
/* force a level 0, kind of like a new disk */
if(dp->strategy == DS_NOFULL) {
/*
* now.
*/
log_add(L_ERROR,
- "Cannot force full dump of %s:%s with no-full option.",
- dp->host->hostname, dp->name);
+ _("Cannot force full dump of %s:%s with no-full option."),
+ dp->host->hostname, qname);
/* clear force command */
- if(info.command & FORCE_FULL)
- info.command ^= FORCE_FULL;
- if(put_info(dp->host->hostname, dp->name, &info))
- error("could not put info record for %s:%s: %s",
- dp->host->hostname, dp->name, strerror(errno));
+ CLR(info.command, FORCE_FULL);
+ if(put_info(dp->host->hostname, dp->name, &info)) {
+ error(_("could not put info record for %s:%s: %s"),
+ dp->host->hostname, qname, strerror(errno));
+ /*NOTREACHED*/
+ }
ep->last_level = last_level(&info);
ep->next_level0 = next_level0(dp, &info);
}
else {
+ ep->degr_mesg = _("Can't switch to degraded mode when using a force-full disk");
ep->last_level = -1;
ep->next_level0 = -conf_dumpcycle;
- log_add(L_INFO, "Forcing full dump of %s:%s as directed.",
- dp->host->hostname, dp->name);
+ log_add(L_INFO, _("Forcing full dump of %s:%s as directed."),
+ dp->host->hostname, qname);
}
}
else if(dp->strategy == DS_NOFULL) {
/* adjust priority levels */
+ /* warn if dump will be overwritten */
+ if (ep->last_level > -1 && strlen(info.inf[0].label) > 0) {
+ overwrite_runs = when_overwrite(info.inf[0].label);
+ if(overwrite_runs == 0) {
+ log_add(L_WARNING, _("Last full dump of %s:%s "
+ "on tape %s overwritten on this run."),
+ dp->host->hostname, qname, info.inf[0].label);
+ } else if(overwrite_runs <= RUNS_REDZONE) {
+ log_add(L_WARNING,
+ plural(_("Last full dump of %s:%s on tape %s overwritten in %d run."),
+ _("Last full dump of %s:%s on tape %s overwritten in %d runs."), overwrite_runs),
+ dp->host->hostname, qname, info.inf[0].label,
+ overwrite_runs);
+ }
+ }
+
+ /* warn if last level 1 will be overwritten */
+ if (ep->last_level > 1 && strlen(info.inf[1].label) > 0) {
+ overwrite_runs = when_overwrite(info.inf[1].label);
+ if(overwrite_runs == 0) {
+ log_add(L_WARNING, _("Last level 1 dump of %s:%s "
+ "on tape %s overwritten on this run, resetting to level 1"),
+ dp->host->hostname, qname, info.inf[1].label);
+ ep->last_level = 0;
+ } else if(overwrite_runs <= RUNS_REDZONE) {
+ log_add(L_WARNING,
+ plural(_("Last level 1 dump of %s:%s on tape %s overwritten in %d run."),
+ _("Last level 1 dump of %s:%s on tape %s overwritten in %d runs."), overwrite_runs),
+ dp->host->hostname, qname, info.inf[1].label,
+ overwrite_runs);
+ }
+ }
+
if(ep->next_level0 < 0) {
- fprintf(stderr,"%s:%s overdue %d day%s for level 0\n",
- dp->host->hostname, dp->name,
- - ep->next_level0, ((- ep->next_level0) == 1) ? "" : "s");
+ g_fprintf(stderr,plural(_("%s:%s overdue %d day for level 0\n"),
+ _("%s:%s overdue %d days for level 0\n"),
+ (-ep->next_level0)),
+ dp->host->hostname, qname, (-ep->next_level0));
ep->dump_priority -= ep->next_level0;
- /* warn if dump will be overwritten */
- if(ep->last_level > -1) {
- int overwrite_runs = when_overwrite(info.inf[0].label);
- if(overwrite_runs == 0) {
- log_add(L_WARNING,
- "Last full dump of %s:%s on tape %s overwritten on this run.",
- dp->host->hostname, dp->name, info.inf[0].label);
- }
- else if(overwrite_runs < RUNS_REDZONE) {
- log_add(L_WARNING,
- "Last full dump of %s:%s on tape %s overwritten in %d run%s.",
- dp->host->hostname, dp->name, info.inf[0].label,
- overwrite_runs, overwrite_runs == 1? "" : "s");
- }
- }
}
- else if(info.command & FORCE_FULL)
+ else if (ISSET(info.command, FORCE_FULL))
ep->dump_priority += 1;
/* else XXX bump up the priority of incrementals that failed last night */
if(ep->next_level0 <= 0) {
/* update the date field */
info.inf[0].date = today;
- if(info.command & FORCE_FULL)
- info.command ^= FORCE_FULL;
+ CLR(info.command, FORCE_FULL);
ep->next_level0 += conf_dumpcycle;
ep->last_level = 0;
- if(put_info(dp->host->hostname, dp->name, &info))
- error("could not put info record for %s:%s: %s",
- dp->host->hostname, dp->name, strerror(errno));
- log_add(L_INFO, "Skipping full dump of %s:%s today.",
- dp->host->hostname, dp->name);
- fprintf(stderr,"%s:%s lev 0 skipped due to skip-full flag\n",
- dp->host->hostname, dp->name);
+ if(put_info(dp->host->hostname, dp->name, &info)) {
+ error(_("could not put info record for %s:%s: %s"),
+ dp->host->hostname, qname, strerror(errno));
+ /*NOTREACHED*/
+ }
+ log_add(L_INFO, _("Skipping full dump of %s:%s today."),
+ dp->host->hostname, qname);
+ g_fprintf(stderr,_("%s:%s lev 0 skipped due to skip-full flag\n"),
+ dp->host->hostname, qname);
/* don't enqueue the disk */
askfor(ep, 0, -1, &info);
askfor(ep, 1, -1, &info);
askfor(ep, 2, -1, &info);
- fprintf(stderr, "%s: SKIPPED %s %s 0 [skip-full]\n",
- get_pname(), dp->host->hostname, dp->name);
- log_add(L_SUCCESS, "%s %s %s 0 [skipped: skip-full]",
- dp->host->hostname, dp->name, datestamp);
+ g_fprintf(stderr, _("%s: SKIPPED %s %s 0 [skip-full]\n"),
+ get_pname(), dp->host->hostname, qname);
+ log_add(L_SUCCESS, _("%s %s %s 0 [skipped: skip-full]"),
+ dp->host->hostname, qname, planner_timestamp);
+ amfree(qname);
return;
}
}
if(ep->next_level0 == 1) {
- log_add(L_WARNING, "Skipping full dump of %s:%s tomorrow.",
- dp->host->hostname, dp->name);
+ log_add(L_WARNING, _("Skipping full dump of %s:%s tomorrow."),
+ dp->host->hostname, qname);
}
}
+ if(dp->strategy == DS_INCRONLY && ep->last_level == -1 && !ISSET(info.command, FORCE_FULL)) {
+ /* don't enqueue the disk */
+ askfor(ep, 0, -1, &info);
+ askfor(ep, 1, -1, &info);
+ askfor(ep, 2, -1, &info);
+ log_add(L_FAIL, _("%s %s 19000101 1 [Skipping incronly because no full dump were done]"),
+ dp->host->hostname, qname);
+ g_fprintf(stderr,_("%s:%s lev 1 skipped due to strategy incronly and no full dump were done\n"),
+ dp->host->hostname, qname);
+ amfree(qname);
+ return;
+ }
+
/* handle "skip-incr" type archives */
if(dp->skip_incr && ep->next_level0 > 0) {
- fprintf(stderr,"%s:%s lev 1 skipped due to skip-incr flag\n",
- dp->host->hostname, dp->name);
+ g_fprintf(stderr,_("%s:%s lev 1 skipped due to skip-incr flag\n"),
+ dp->host->hostname, qname);
/* don't enqueue the disk */
askfor(ep, 0, -1, &info);
askfor(ep, 1, -1, &info);
askfor(ep, 2, -1, &info);
- fprintf(stderr, "%s: SKIPPED %s %s 1 [skip-incr]\n",
- get_pname(), dp->host->hostname, dp->name);
+ g_fprintf(stderr, _("%s: SKIPPED %s %s 1 [skip-incr]\n"),
+ get_pname(), dp->host->hostname, qname);
- log_add(L_SUCCESS, "%s %s %s 1 [skipped: skip-incr]",
- dp->host->hostname, dp->name, datestamp);
+ log_add(L_SUCCESS, _("%s %s %s 1 [skipped: skip-incr]"),
+ dp->host->hostname, qname, planner_timestamp);
+ amfree(qname);
return;
}
if( ep->last_level == -1 && ep->next_level0 > 0 &&
dp->strategy != DS_NOFULL && dp->strategy != DS_INCRONLY &&
conf_reserve == 100) {
- log_add(L_WARNING,
- "%s:%s mismatch: no tapelist record, but curinfo next_level0: %d.",
- dp->host->hostname, dp->name, ep->next_level0);
+ log_add(L_WARNING, _("%s:%s mismatch: no tapelist record, "
+ "but curinfo next_level0: %d."),
+ dp->host->hostname, qname, ep->next_level0);
ep->next_level0 = 0;
}
i = 0;
- if(dp->strategy == DS_NOINC ||
- (!dp->skip_full &&
- (!(info.command & FORCE_BUMP) ||
- dp->skip_incr ||
- ep->last_level == -1))){
-
+ if (dp->strategy == DS_NOINC ||
+ (!dp->skip_full &&
+ (!ISSET(info.command, FORCE_BUMP) ||
+ dp->skip_incr ||
+ ep->last_level == -1))) {
if(info.command & FORCE_BUMP && ep->last_level == -1) {
log_add(L_INFO,
- "Remove force-bump command of %s:%s because it's a new disk.",
- dp->host->hostname, dp->name);
+ _("Remove force-bump command of %s:%s because it's a new disk."),
+ dp->host->hostname, qname);
}
switch (dp->strategy) {
case DS_STANDARD:
case DS_NOINC:
askfor(ep, i++, 0, &info);
if(dp->skip_full) {
- log_add(L_INFO,
- "Ignoring skip_full for %s:%s because the strategy is NOINC.",
- dp->host->hostname, dp->name);
+ log_add(L_INFO, _("Ignoring skip_full for %s:%s "
+ "because the strategy is NOINC."),
+ dp->host->hostname, qname);
}
if(info.command & FORCE_BUMP) {
log_add(L_INFO,
- "Ignoring FORCE_BUMP for %s:%s because the strategy is NOINC.",
- dp->host->hostname, dp->name);
+ _("Ignoring FORCE_BUMP for %s:%s because the strategy is NOINC."),
+ dp->host->hostname, qname);
}
break;
break;
case DS_INCRONLY:
- if (info.command & FORCE_FULL)
- askfor(ep, i++, 0, &info);
+ if (ISSET(info.command, FORCE_FULL))
+ ep->last_level = 0;
break;
}
}
if(!dp->skip_incr && !(dp->strategy == DS_NOINC)) {
if(ep->last_level == -1) { /* a new disk */
+ if (ep->degr_mesg == NULL)
+ ep->degr_mesg = _("Can't switch to degraded mode when using a new disk");
if(dp->strategy == DS_NOFULL || dp->strategy == DS_INCRONLY) {
askfor(ep, i++, 1, &info);
} else {
curr_level = ep->last_level;
- if(info.command & FORCE_NO_BUMP) {
+ if (ISSET(info.command, FORCE_NO_BUMP)) {
if(curr_level > 0) { /* level 0 already asked for */
askfor(ep, i++, curr_level, &info);
}
- log_add(L_INFO,"Preventing bump of %s:%s as directed.",
- dp->host->hostname, dp->name);
- }
- else if((info.command & FORCE_BUMP)
- && curr_level + 1 < DUMP_LEVELS) {
+ log_add(L_INFO,_("Preventing bump of %s:%s as directed."),
+ dp->host->hostname, qname);
+ ep->degr_mesg = _("Can't switch to degraded mode when using a force-no-bump disk");
+ } else if (ISSET(info.command, FORCE_BUMP)
+ && curr_level + 1 < DUMP_LEVELS) {
askfor(ep, i++, curr_level+1, &info);
- log_add(L_INFO,"Bumping of %s:%s at level %d as directed.",
- dp->host->hostname, dp->name, curr_level+1);
- }
- else if(curr_level == 0) {
+ log_add(L_INFO,_("Bumping of %s:%s at level %d as directed."),
+ dp->host->hostname, qname, curr_level+1);
+ ep->degr_mesg = _("Can't switch to degraded mode when using a force-bump disk");
+ } else if (curr_level == 0) {
askfor(ep, i++, 1, &info);
- }
- else {
+ } else {
askfor(ep, i++, curr_level, &info);
/*
* If last time we dumped less than the threshold, then this
* if we haven't been at this level 2 days, or the dump failed
* last night, we can't bump.
*/
- if((info.inf[curr_level].size == 0 || /* no data, try it anyway */
+ if((info.inf[curr_level].size == (gint64)0 || /* no data, try it anyway */
(((info.inf[curr_level].size > bump_thresh(curr_level, info.inf[0].size,dp->bumppercent, dp->bumpsize, dp->bumpmult)))
&& ep->level_days >= dp->bumpdays))
&& curr_level + 1 < DUMP_LEVELS) {
/* debug output */
- fprintf(stderr, "setup_estimate: %s:%s: command %d, options: %s last_level %d next_level0 %d level_days %d getting estimates %d (%ld) %d (%ld) %d (%ld)\n",
- dp->host->hostname, dp->name, info.command,
+ g_fprintf(stderr, _("setup_estimate: %s:%s: command %u, options: %s "
+ "last_level %d next_level0 %d level_days %d getting estimates "
+ "%d (%lld) %d (%lld) %d (%lld)\n"),
+ dp->host->hostname, qname, info.command,
dp->strategy == DS_NOFULL ? "no-full" :
dp->strategy == DS_INCRONLY ? "incr-only" :
dp->skip_full ? "skip-full" :
dp->skip_incr ? "skip-incr" : "none",
ep->last_level, ep->next_level0, ep->level_days,
- ep->level[0], ep->est_size[0],
- ep->level[1], ep->est_size[1],
- ep->level[2], ep->est_size[2]);
+ ep->level[0], (long long)ep->est_size[0],
+ ep->level[1], (long long)ep->est_size[1],
+ ep->level[2], (long long)ep->est_size[2]);
assert(ep->level[0] != -1);
enqueue_disk(&startq, dp);
+ amfree(qname);
}
-static int when_overwrite(label)
-char *label;
+static int when_overwrite(
+ char *label)
{
tape_t *tp;
+ int runtapes;
+
+ runtapes = conf_runtapes;
+ if(runtapes == 0) runtapes = 1;
if((tp = lookup_tapelabel(label)) == NULL)
return 1; /* "shouldn't happen", but trigger warning message */
- else if(!reusable_tape(tp))
+ else if(tp->reuse == 0)
return 1024;
else if(lookup_nb_tape() > conf_tapecycle)
- return (lookup_nb_tape() - tp->position) / conf_runtapes;
+ return (lookup_nb_tape() - tp->position) / runtapes;
else
- return (conf_tapecycle - tp->position) / conf_runtapes;
+ return (conf_tapecycle - tp->position) / runtapes;
}
/* Return the estimated size for a particular dump */
-static long est_size(dp, level)
-disk_t *dp;
-int level;
+static gint64 est_size(
+ disk_t *dp,
+ int level)
{
int i;
if(level == est(dp)->level[i])
return est(dp)->est_size[i];
}
- return -1;
+ return (gint64)-1;
}
/* Return the estimated on-tape size of a particular dump */
-static long est_tape_size(dp, level)
-disk_t *dp;
-int level;
+static gint64 est_tape_size(
+ disk_t *dp,
+ int level)
{
- long size;
+ gint64 size;
double ratio;
size = est_size(dp, level);
- if(size == -1) return size;
+ if(size == (gint64)-1) return size;
if(dp->compress == COMP_NONE)
return size;
if(ratio > 1.1) ratio = 1.1;
- size *= ratio;
+ size = (gint64)((double)size * ratio);
/*
* Ratio can be very small in some error situations, so make sure
* size goes back greater than zero. It may not be right, but
* indicates we did get an estimate.
*/
- if(size <= 0) {
- size = 1;
+ if(size <= (gint64)0) {
+ size = (gint64)1;
}
return size;
/* what was the level of the last successful dump to tape? */
-static int last_level(info)
-info_t *info;
+static int last_level(
+ info_t *info)
{
int min_pos, min_level, i;
time_t lev0_date, last_date;
/* when is next level 0 due? 0 = today, 1 = tomorrow, etc*/
static int
-next_level0(dp, info)
- disk_t *dp;
- info_t *info;
+next_level0(
+ disk_t *dp,
+ info_t *info)
{
if(dp->strategy == DS_NOFULL || dp->strategy == DS_INCRONLY)
return 1; /* fake it */
}
/* how many runs at current level? */
-static int runs_at(info, lev)
-info_t *info;
-int lev;
+static int runs_at(
+ info_t *info,
+ int lev)
{
tape_t *cur_tape, *old_tape;
int last, nb_runs;
old_tape = lookup_tapelabel(info->inf[lev-1].label);
if(cur_tape == NULL || old_tape == NULL) return 0;
- nb_runs = (old_tape->position - cur_tape->position) / conf_runtapes;
+ if(conf_runtapes == 0)
+ nb_runs = (old_tape->position - cur_tape->position) / 1;
+ else
+ nb_runs = (old_tape->position - cur_tape->position) / conf_runtapes;
info->consecutive_runs = nb_runs;
return nb_runs;
}
-static long bump_thresh(level, size_level_0, bumppercent, bumpsize, bumpmult)
-int level;
-long size_level_0;
-int bumppercent;
-int bumpsize;
-double bumpmult;
+static gint64 bump_thresh(
+ int level,
+ gint64 size_level_0,
+ int bumppercent,
+ gint64 bumpsize,
+ double bumpmult)
{
double bump;
- if(bumppercent != 0 && size_level_0 > 1024) {
- bump = (size_level_0 * bumppercent)/100.0;
+ if ((bumppercent != 0) && (size_level_0 > (gint64)1024)) {
+ bump = ((double)size_level_0 * (double)bumppercent) / 100.0;
}
else {
- bump = bumpsize;
+ bump = (double)bumpsize;
}
while(--level) bump = bump * bumpmult;
- return (long)bump;
+ return (gint64)bump;
}
*
*/
-static void getsize P((am_host_t *hostp));
-static disk_t *lookup_hostdisk P((am_host_t *hp, char *str));
-static void handle_result P((proto_t *p, pkt_t *pkt));
+static void getsize(am_host_t *hostp);
+static disk_t *lookup_hostdisk(am_host_t *hp, char *str);
+static void handle_result(void *datap, pkt_t *pkt, security_handle_t *sech);
-static void get_estimates P((void))
+static void get_estimates(void)
{
am_host_t *hostp;
- disk_t *dp;
- struct servent *amandad;
+ disk_t *dp, *dp1;
int something_started;
- if((amandad = getservbyname(AMANDA_SERVICE_NAME, "udp")) == NULL)
- amanda_port = AMANDA_SERVICE_DEFAULT;
- else
- amanda_port = ntohs(amandad->s_port);
-
-#ifdef KRB4_SECURITY
- if((amandad = getservbyname(KAMANDA_SERVICE_NAME, "udp")) == NULL)
- kamanda_port = KAMANDA_SERVICE_DEFAULT;
- else
- kamanda_port = ntohs(amandad->s_port);
-#endif
-
something_started = 1;
while(something_started) {
something_started = 0;
hostp = dp->host;
if(hostp->up == HOST_READY) {
something_started = 1;
+ for(dp1 = hostp->disks; dp1 != NULL; dp1 = dp1->hostnext) {
+ if (dp1->todo)
+ run_server_scripts(EXECUTE_ON_PRE_HOST_ESTIMATE,
+ get_config_name(), dp1,
+ est(dp1)->level[0]);
+ }
+ for(dp1 = hostp->disks; dp1 != NULL; dp1 = dp1->hostnext) {
+ if (dp1->todo)
+ run_server_scripts(EXECUTE_ON_PRE_DLE_ESTIMATE,
+ get_config_name(), dp1,
+ est(dp1)->level[0]);
+ }
getsize(hostp);
- check_protocol();
+ protocol_check();
/*
* dp is no longer on startq, so dp->next is not valid
* and we have to start all over.
}
}
}
- run_protocol();
+ protocol_run();
while(!empty(waitq)) {
disk_t *dp = dequeue_disk(&waitq);
- est(dp)->errstr = "hmm, disk was stranded on waitq";
+ est(dp)->errstr = _("hmm, disk was stranded on waitq");
enqueue_disk(&failq, dp);
}
while(!empty(pestq)) {
disk_t *dp = dequeue_disk(&pestq);
-
- if(est(dp)->level[0] != -1 && est(dp)->est_size[0] < 0) {
- if(est(dp)->est_size[0] == -1) {
- log_add(L_WARNING,
- "disk %s:%s, estimate of level %d failed: %d.",
- dp->host->hostname, dp->name,
- est(dp)->level[0], est(dp)->est_size[0]);
+ char * qname = quote_string(dp->name);
+
+ if(est(dp)->level[0] != -1 && est(dp)->est_size[0] < (gint64)0) {
+ if(est(dp)->est_size[0] == (gint64)-1) {
+ log_add(L_WARNING, _("disk %s:%s, estimate of level %d failed."),
+ dp->host->hostname, qname, est(dp)->level[0]);
}
else {
log_add(L_WARNING,
- "disk %s:%s, estimate of level %d timed out: %d.",
- dp->host->hostname, dp->name,
- est(dp)->level[0], est(dp)->est_size[0]);
+ _("disk %s:%s, estimate of level %d timed out."),
+ dp->host->hostname, qname, est(dp)->level[0]);
}
est(dp)->level[0] = -1;
}
- if(est(dp)->level[1] != -1 && est(dp)->est_size[1] < 0) {
- if(est(dp)->est_size[1] == -1) {
+ if(est(dp)->level[1] != -1 && est(dp)->est_size[1] < (gint64)0) {
+ if(est(dp)->est_size[1] == (gint64)-1) {
log_add(L_WARNING,
- "disk %s:%s, estimate of level %d failed: %d.",
- dp->host->hostname, dp->name,
- est(dp)->level[1], est(dp)->est_size[1]);
+ _("disk %s:%s, estimate of level %d failed."),
+ dp->host->hostname, qname, est(dp)->level[1]);
}
else {
log_add(L_WARNING,
- "disk %s:%s, estimate of level %d timed out: %d.",
- dp->host->hostname, dp->name,
- est(dp)->level[1], est(dp)->est_size[1]);
+ _("disk %s:%s, estimate of level %d timed out."),
+ dp->host->hostname, qname, est(dp)->level[1]);
}
est(dp)->level[1] = -1;
}
- if(est(dp)->level[2] != -1 && est(dp)->est_size[2] < 0) {
- if(est(dp)->est_size[2] == -1) {
+ if(est(dp)->level[2] != -1 && est(dp)->est_size[2] < (gint64)0) {
+ if(est(dp)->est_size[2] == (gint64)-1) {
log_add(L_WARNING,
- "disk %s:%s, estimate of level %d failed: %d.",
- dp->host->hostname, dp->name,
- est(dp)->level[2], est(dp)->est_size[2]);
+ _("disk %s:%s, estimate of level %d failed."),
+ dp->host->hostname, qname, est(dp)->level[2]);
}
else {
log_add(L_WARNING,
- "disk %s:%s, estimate of level %d timed out: %d.",
- dp->host->hostname, dp->name,
- est(dp)->level[2], est(dp)->est_size[2]);
+ _("disk %s:%s, estimate of level %d timed out."),
+ dp->host->hostname, qname, est(dp)->level[2]);
}
est(dp)->level[2] = -1;
}
- if((est(dp)->level[0] != -1 && est(dp)->est_size[0] > 0) ||
- (est(dp)->level[1] != -1 && est(dp)->est_size[1] > 0) ||
- (est(dp)->level[2] != -1 && est(dp)->est_size[2] > 0)) {
+ if((est(dp)->level[0] != -1 && est(dp)->est_size[0] > (gint64)0) ||
+ (est(dp)->level[1] != -1 && est(dp)->est_size[1] > (gint64)0) ||
+ (est(dp)->level[2] != -1 && est(dp)->est_size[2] > (gint64)0)) {
enqueue_disk(&estq, dp);
}
else {
- est(dp)->errstr = vstralloc("disk ", dp->name,
- ", all estimate timed out", NULL);
+ est(dp)->errstr = vstralloc("disk ", qname,
+ _(", all estimate timed out"), NULL);
enqueue_disk(&failq, dp);
}
+ amfree(qname);
}
}
-static void getsize(hostp)
-am_host_t *hostp;
+static void getsize(
+ am_host_t *hostp)
{
- disklist_t *destqp;
- disk_t *dp;
- char *req = NULL, *errstr = NULL;
- int i, estimates, rc, timeout, disk_state, req_len;
- char number[NUM_STR_SIZE];
- char *calcsize;
+ char number[NUM_STR_SIZE], *req;
+ disk_t * dp;
+ int i;
+ time_t estimates, timeout;
+ size_t req_len;
+ const security_driver_t *secdrv;
+ char * calcsize;
+ char * qname, *b64disk = NULL;
+ char * qdevice, *b64device = NULL;
assert(hostp->disks != NULL);
* empty structure. In either case, we do the disks on the second
* (and subsequent) pass(es).
*/
-
if(hostp->features != NULL) { /* sendsize service */
int nb_client = 0;
int nb_server = 0;
fe_req_options_hostname);
int has_maxdumps = am_has_feature(hostp->features,
fe_req_options_maxdumps);
+ int has_config = am_has_feature(hostp->features,
+ fe_req_options_config);
- ap_snprintf(number, sizeof(number), "%d", hostp->maxdumps);
+ g_snprintf(number, SIZEOF(number), "%d", hostp->maxdumps);
req = vstralloc("SERVICE ", "sendsize", "\n",
"OPTIONS ",
has_features ? "features=" : "",
has_hostname ? "hostname=" : "",
has_hostname ? hostp->hostname : "",
has_hostname ? ";" : "",
+ has_config ? "config=" : "",
+ has_config ? get_config_name() : "",
+ has_config ? ";" : "",
"\n",
NULL);
req_len = strlen(req);
- req_len += 128; /* room for SECURITY ... */
+ req_len += 128; /* room for SECURITY ... */
estimates = 0;
for(dp = hostp->disks; dp != NULL; dp = dp->hostnext) {
char *s = NULL;
- int s_len = 0;
-
+ size_t s_len = 0;
+
if(dp->todo == 0) continue;
- if(est(dp)->state != DISK_READY) {
- continue;
- }
+ if(est(dp)->state != DISK_READY) continue;
est(dp)->got_estimate = 0;
if(est(dp)->level[0] == -1) {
est(dp)->state = DISK_DONE;
- continue; /* ignore this disk */
+ continue;
}
-
- if(dp->estimate == ES_CLIENT ||
- dp->estimate == ES_CALCSIZE) {
+
+ qname = quote_string(dp->name);
+ b64disk = amxml_format_tag("disk", dp->name);
+ qdevice = quote_string(dp->device);
+ if (dp->device)
+ b64device = amxml_format_tag("diskdevice", dp->device);
+ if (dp->estimate == ES_CLIENT ||
+ dp->estimate == ES_CALCSIZE ||
+ (am_has_feature(hostp->features, fe_req_xml) &&
+ am_has_feature(hostp->features, fe_xml_estimate))) {
nb_client++;
-
- for(i = 0; i < MAX_LEVELS; i++) {
- char *l;
- char *exclude1 = "";
- char *exclude2 = "";
- char *excludefree = NULL;
- char spindle[NUM_STR_SIZE];
+ i = 0;
+
+ if (am_has_feature(hostp->features, fe_req_xml)) {
+ char *levelstr = NULL;
+ char *spindlestr = NULL;
char level[NUM_STR_SIZE];
- int lev = est(dp)->level[i];
-
- if(lev == -1) break;
-
- ap_snprintf(level, sizeof(level), "%d", lev);
- ap_snprintf(spindle, sizeof(spindle), "%d", dp->spindle);
- if(am_has_feature(hostp->features,fe_sendsize_req_options)){
- exclude1 = " OPTIONS |";
- exclude2 = optionstr(dp, hostp->features, NULL);
- excludefree = exclude2;
+ char spindle[NUM_STR_SIZE];
+ char *o;
+ char *l;
+
+ for(i = 0; i < MAX_LEVELS; i++) {
+ int lev = est(dp)->level[i];
+ if (lev == -1) break;
+ g_snprintf(level, SIZEOF(level), "%d", lev);
+ vstrextend(&levelstr, " <level>",
+ level,
+ "</level>\n", NULL);
+ }
+ g_snprintf(spindle, SIZEOF(spindle), "%d", dp->spindle);
+ spindlestr = vstralloc(" <spindle>",
+ spindle,
+ "</spindle>\n", NULL);
+ o = xml_optionstr(dp, hostp->features, NULL, 0);
+ if (o == NULL) {
+ error(_("problem with option string, check the dumptype definition.\n"));
}
- else {
- if(dp->exclude_file &&
- dp->exclude_file->nb_element == 1) {
- exclude1 = " exclude-file=";
- exclude2 = dp->exclude_file->first->name;
+
+ if (strcmp(dp->program,"DUMP") == 0 ||
+ strcmp(dp->program,"GNUTAR") == 0) {
+ l = vstralloc("<dle>\n",
+ " <program>",
+ dp->program,
+ "</program>\n", NULL);
+ } else {
+ l = vstralloc("<dle>\n",
+ " <program>APPLICATION</program>\n",
+ NULL);
+ if (dp->application) {
+ char *xml_app = xml_application(dp->application,
+ hostp->features);
+ vstrextend(&l, xml_app, NULL);
+ amfree(xml_app);
}
- else if(dp->exclude_list &&
- dp->exclude_list->nb_element == 1) {
- exclude1 = " exclude-list=";
- exclude2 = dp->exclude_list->first->name;
+ }
+
+ if (am_has_feature(hostp->features, fe_xml_estimate)) {
+ if (dp->estimate == ES_CLIENT) {
+ vstrextend(&l, " <estimate>CLIENT</estimate>\n",
+ NULL);
+ } else if (dp->estimate == ES_SERVER) {
+ vstrextend(&l, " <estimate>SERVER</estimate>\n",
+ NULL);
+ } else if (dp->estimate == ES_CALCSIZE) {
+ vstrextend(&l, " <estimate>CALCSIZE</estimate>\n",
+ NULL);
}
}
- if(dp->estimate == ES_CALCSIZE &&
- !am_has_feature(hostp->features, fe_calcsize_estimate)) {
- log_add(L_WARNING,"%s:%s does not support CALCSIZE for estimate, using CLIENT.\n",
- hostp->hostname, dp->name);
- dp->estimate = ES_CLIENT;
+ if (dp->estimate == ES_CALCSIZE) {
+ if (!am_has_feature(hostp->features,
+ fe_calcsize_estimate)) {
+ log_add(L_WARNING,
+ _("%s:%s does not support CALCSIZE for estimate, using CLIENT.\n"),
+ hostp->hostname, qname);
+ dp->estimate = ES_CLIENT;
+ } else {
+ vstrextend(&l, " <calcsize>YES</calcsize>\n",
+ NULL);
+ }
}
- if(dp->estimate == ES_CLIENT)
- calcsize = "";
- else
- calcsize = "CALCSIZE ";
+ vstrextend(&l, " ", b64disk, "\n", NULL);
+ if (dp->device)
+ vstrextend(&l, " ", b64device, "\n", NULL);
+ vstrextend(&l, levelstr, spindlestr, o, "</dle>\n", NULL);
+ strappend(s, l);
+ s_len += strlen(l);
+ amfree(l);
+ } else if (strcmp(dp->program,"DUMP") != 0 &&
+ strcmp(dp->program,"GNUTAR") != 0) {
+ est(dp)->errstr = newvstrallocf(est(dp)->errstr,
+ _("does not support application-api"));
+ } else {
+ for(i = 0; i < MAX_LEVELS; i++) {
+ char *l;
+ char *exclude1 = "";
+ char *exclude2 = "";
+ char *excludefree = NULL;
+ char *include1 = "";
+ char *include2 = "";
+ char *includefree = NULL;
+ char spindle[NUM_STR_SIZE];
+ char level[NUM_STR_SIZE];
+ int lev = est(dp)->level[i];
+
+ if(lev == -1) break;
+
+ g_snprintf(level, SIZEOF(level), "%d", lev);
+ g_snprintf(spindle, SIZEOF(spindle), "%d", dp->spindle);
+ if (am_has_feature(hostp->features,
+ fe_sendsize_req_options)){
+ exclude1 = " OPTIONS |";
+ exclude2 = optionstr(dp, hostp->features, NULL);
+ if ( exclude2 == NULL ) {
+ error(_("problem with option string, check the dumptype definition.\n"));
+ }
+ excludefree = exclude2;
+ includefree = NULL;
+ } else {
+ if (dp->exclude_file &&
+ dp->exclude_file->nb_element == 1) {
+ exclude1 = " exclude-file=";
+ exclude2 = quote_string(
+ dp->exclude_file->first->name);
+ excludefree = exclude2;
+ }
+ else if (dp->exclude_list &&
+ dp->exclude_list->nb_element == 1) {
+ exclude1 = " exclude-list=";
+ exclude2 = quote_string(
+ dp->exclude_list->first->name);
+ excludefree = exclude2;
+ }
+ if (dp->include_file &&
+ dp->include_file->nb_element == 1) {
+ include1 = " include-file=";
+ include2 = quote_string(
+ dp->include_file->first->name);
+ includefree = include2;
+ }
+ else if (dp->include_list &&
+ dp->include_list->nb_element == 1) {
+ include1 = " include-list=";
+ include2 = quote_string(
+ dp->include_list->first->name);
+ includefree = include2;
+ }
+ }
+
+ if (dp->estimate == ES_CALCSIZE &&
+ !am_has_feature(hostp->features,
+ fe_calcsize_estimate)) {
+ log_add(L_WARNING,
+ _("%s:%s does not support CALCSIZE for estimate, using CLIENT.\n"),
+ hostp->hostname, qname);
+ dp->estimate = ES_CLIENT;
+ }
+ if(dp->estimate == ES_CLIENT)
+ calcsize = "";
+ else
+ calcsize = "CALCSIZE ";
- if(dp->device) {
- l = vstralloc(calcsize,
- dp->program, " ",
- dp->name, " ",
- dp->device, " ",
- level, " ",
- est(dp)->dumpdate[i], " ", spindle,
- exclude1,
- exclude2,
- "\n",
- NULL);
- }
- else {
l = vstralloc(calcsize,
- dp->program, " ",
- dp->name, " ",
- level, " ",
- est(dp)->dumpdate[i], " ", spindle,
- exclude1,
- exclude2,
+ dp->program,
+ " ", qname,
+ " ", dp->device ? qdevice : "",
+ " ", level,
+ " ", est(dp)->dumpdate[i],
+ " ", spindle,
+ " ", exclude1, exclude2,
+ ((includefree != NULL) ? " " : ""),
+ include1, include2,
"\n",
NULL);
+ strappend(s, l);
+ s_len += strlen(l);
+ amfree(l);
+ amfree(includefree);
+ amfree(excludefree);
}
- amfree(excludefree);
- strappend(s, l);
- s_len += strlen(l);
- amfree(l);
}
- /*
- * Allow 2X for err response.
- */
- if(req_len + s_len > MAX_DGRAM / 2) {
+ remove_disk(&startq, dp);
+ if (s != NULL) {
+ estimates += i;
+ strappend(req, s);
+ req_len += s_len;
amfree(s);
- break;
+ est(dp)->state = DISK_ACTIVE;
+ } else {
+ est(dp)->state = DISK_DONE;
+ if (est(dp)->errstr == NULL) {
+ est(dp)->errstr = vstrallocf(
+ _("Can't request estimate"));
+ }
+ enqueue_disk(&failq, dp);
}
- estimates += i;
- strappend(req, s);
- req_len += s_len;
- amfree(s);
- est(dp)->state = DISK_ACTIVE;
- remove_disk(&startq, dp);
}
- else if (dp->estimate == ES_SERVER) {
+ if (dp->estimate == ES_SERVER) {
info_t info;
-
nb_server++;
get_info(dp->host->hostname, dp->name, &info);
for(i = 0; i < MAX_LEVELS; i++) {
if(lev == -1) break;
if(lev == 0) { /* use latest level 0, should do extrapolation */
- long est_size = 0;
+ gint64 est_size = (gint64)0;
int nb_est = 0;
for(j=NB_HISTORY-2;j>=0;j--) {
if(info.history[j].level == 0) {
+ if(info.history[j].size < (gint64)0) continue;
est_size = info.history[j].size;
nb_est++;
}
if(nb_est > 0) {
est(dp)->est_size[i] = est_size;
}
- else if(info.inf[lev].size > 1000) { /* stats */
+ else if(info.inf[lev].size > (gint64)1000) { /* stats */
est(dp)->est_size[i] = info.inf[lev].size;
}
else {
- est(dp)->est_size[i] = 1000000;
+ est(dp)->est_size[i] = (gint64)1000000;
}
}
else if(lev == est(dp)->last_level) {
/* means of all X day at the same level */
#define NB_DAY 30
int nb_day = 0;
- long est_size_day[NB_DAY];
+ gint64 est_size_day[NB_DAY];
int nb_est_day[NB_DAY];
-
for(j=0;j<NB_DAY;j++) {
- est_size_day[j]=0;
+ est_size_day[j]=(gint64)0;
nb_est_day[j]=0;
}
for(j=NB_HISTORY-2;j>=0;j--) {
if(info.history[j].level <= 0) continue;
- if(info.history[j].level == info.history[j+1].level) {
+ if(info.history[j].size < (gint64)0) continue;
+ if(info.history[j].level==info.history[j+1].level) {
if(nb_day <NB_DAY-1) nb_day++;
est_size_day[nb_day] += info.history[j].size;
nb_est_day[nb_day]++;
while(nb_day > 0 && nb_est_day[nb_day] == 0) nb_day--;
if(nb_est_day[nb_day] > 0) {
- est(dp)->est_size[i] =
- est_size_day[nb_day] / nb_est_day[nb_day];
+ est(dp)->est_size[i] = est_size_day[nb_day] /
+ (gint64)nb_est_day[nb_day];
}
- else if(info.inf[lev].size > 1000) { /* stats */
+ else if(info.inf[lev].size > (gint64)1000) { /* stats */
est(dp)->est_size[i] = info.inf[lev].size;
}
else {
- est(dp)->est_size[i] = 10000;
+ est(dp)->est_size[i] = (gint64)10000;
}
}
else if(lev == est(dp)->last_level + 1) {
/* means of all first day at a new level */
- long est_size = 0;
+ gint64 est_size = (gint64)0;
int nb_est = 0;
for(j=NB_HISTORY-2;j>=0;j--) {
if(info.history[j].level <= 0) continue;
+ if(info.history[j].size < (gint64)0) continue;
if(info.history[j].level == info.history[j+1].level + 1 ) {
est_size += info.history[j].size;
nb_est++;
}
}
if(nb_est > 0) {
- est(dp)->est_size[i] = est_size / nb_est;
+ est(dp)->est_size[i] = est_size / (gint64)nb_est;
}
- else if(info.inf[lev].size > 1000) { /* stats */
+ else if(info.inf[lev].size > (gint64)1000) { /* stats */
est(dp)->est_size[i] = info.inf[lev].size;
}
else {
- est(dp)->est_size[i] = 100000;
+ est(dp)->est_size[i] = (gint64)100000;
}
}
}
- fprintf(stderr,"%s time %s: got result for host %s disk %s:",
+ g_fprintf(stderr,_("%s time %s: got result for host %s disk %s:"),
get_pname(), walltime_str(curclock()),
- dp->host->hostname, dp->name);
- fprintf(stderr," %d -> %ldK, %d -> %ldK, %d -> %ldK\n",
- est(dp)->level[0], est(dp)->est_size[0],
- est(dp)->level[1], est(dp)->est_size[1],
- est(dp)->level[2], est(dp)->est_size[2]);
- est(dp)->state = DISK_DONE;
- remove_disk(&startq, dp);
- enqueue_disk(&estq, dp);
+ dp->host->hostname, qname);
+ g_fprintf(stderr,_(" %d -> %lldK, %d -> %lldK, %d -> %lldK\n"),
+ est(dp)->level[0], (long long)est(dp)->est_size[0],
+ est(dp)->level[1], (long long)est(dp)->est_size[1],
+ est(dp)->level[2], (long long)est(dp)->est_size[2]);
+ if (!am_has_feature(hostp->features, fe_xml_estimate)) {
+ est(dp)->state = DISK_DONE;
+ remove_disk(&startq, dp);
+ enqueue_disk(&estq, dp);
+ }
}
+ amfree(qname);
+ amfree(qdevice);
}
+
if(estimates == 0) {
amfree(req);
hostp->up = HOST_DONE;
* We use ctimeout for the "noop" request because it should be
* very fast and etimeout has other side effects.
*/
- timeout = getconf_int(CNF_CTIMEOUT);
+ timeout = (time_t)getconf_int(CNF_CTIMEOUT);
}
-#ifdef KRB4_SECURITY
- if(hostp->disks->auth == AUTH_KRB4)
- rc = make_krb_request(hostp->hostname, kamanda_port, req,
- hostp, timeout, handle_result);
- else
-#endif
- rc = make_request(hostp->hostname, amanda_port, req,
- hostp, timeout, handle_result);
-
- req = NULL; /* do not own this any more */
-
- if(rc) {
- errstr = vstralloc("could not resolve hostname \"",
- hostp->hostname,
- "\"",
- NULL);
- destqp = &failq;
+ secdrv = security_getdriver(hostp->disks->security_driver);
+ if (secdrv == NULL) {
hostp->up = HOST_DONE;
- disk_state = DISK_DONE;
- }
- else {
- errstr = NULL;
- destqp = &waitq;
- hostp->up = HOST_ACTIVE;
- disk_state = DISK_ACTIVE;
+ log_add(L_ERROR,
+ _("Could not find security driver '%s' for host '%s'"),
+ hostp->disks->security_driver, hostp->hostname);
+ amfree(req);
+ return;
}
+ hostp->up = HOST_ACTIVE;
for(dp = hostp->disks; dp != NULL; dp = dp->hostnext) {
- if(dp->todo && est(dp)->state == DISK_ACTIVE) {
- est(dp)->state = disk_state;
- est(dp)->errstr = errstr;
- errstr = NULL;
- enqueue_disk(destqp, dp);
+ if(dp->todo == 0) {
+ continue;
+ }
+ if(est(dp)->state == DISK_ACTIVE) {
+ est(dp)->errstr = NULL;
+ enqueue_disk(&waitq, dp);
}
}
- amfree(errstr);
+
+ protocol_sendreq(hostp->hostname, secdrv, amhost_get_security_conf,
+ req, timeout, handle_result, hostp);
+
+ amfree(req);
}
-static disk_t *lookup_hostdisk(hp, str)
-am_host_t *hp;
-char *str;
+static disk_t *lookup_hostdisk(
+ /*@keep@*/ am_host_t *hp,
+ char *str)
{
disk_t *dp;
}
-static void handle_result(p, pkt)
-proto_t *p;
-pkt_t *pkt;
+static void handle_result(
+ void *datap,
+ pkt_t *pkt,
+ security_handle_t *sech)
{
int level, i;
- long size;
+ gint64 size;
disk_t *dp;
am_host_t *hostp;
- char *msgdisk=NULL, *msgdisk_undo=NULL, msgdisk_undo_ch = '\0';
- char *errbuf = NULL;
- char *line;
- char *fp;
+ char *msg, msg_undo;
+ char *remoterr, *errbuf = NULL;
char *s;
char *t;
+ char *fp;
+ char *line;
int ch;
int tch;
+ char *qname;
+ char *disk;
+ long long size_;
- hostp = (am_host_t *) p->datap;
+ hostp = (am_host_t *)datap;
hostp->up = HOST_READY;
- if(p->state == S_FAILED && pkt == NULL) {
- if(p->prevstate == S_REPWAIT) {
- errbuf = vstralloc("Estimate timeout from ", hostp->hostname,
- NULL);
- }
- else {
- errbuf = vstralloc("Request to ", hostp->hostname, " timed out.",
- NULL);
- }
+ if (pkt == NULL) {
+ errbuf = vstrallocf(_("Request to %s failed: %s"),
+ hostp->hostname, security_geterror(sech));
goto error_return;
}
-
-#if 0
- fprintf(stderr, "got %sresponse from %s:\n----\n%s----\n\n",
- (p->state == S_FAILED) ? "NAK " : "", hostp->hostname, pkt->body);
-#endif
-
-#ifdef KRB4_SECURITY
- if(hostp->disks->auth == AUTH_KRB4 &&
- !check_mutual_authenticator(host2key(hostp->hostname), pkt, p)) {
- errbuf = vstralloc(hostp->hostname,
- "[mutual-authentication failed]",
- NULL);
- goto error_return;
+ if (pkt->type == P_NAK) {
+ s = pkt->body;
+ if(strncmp_const_skip(s, "ERROR ", s, ch) == 0) {
+ ch = *s++;
+ } else {
+ goto NAK_parse_failed;
+ }
+ skip_whitespace(s, ch);
+ if(ch == '\0') goto NAK_parse_failed;
+ remoterr = s - 1;
+ if((s = strchr(remoterr, '\n')) != NULL) {
+ if(s == remoterr) goto NAK_parse_failed;
+ *s = '\0';
+ }
+ if (strcmp(remoterr, "unknown service: noop") != 0
+ && strcmp(remoterr, "noop: invalid service") != 0) {
+ errbuf = vstralloc(hostp->hostname, " NAK: ", remoterr, NULL);
+ if(s) *s = '\n';
+ goto error_return;
+ }
}
-#endif
- msgdisk_undo = NULL;
s = pkt->body;
ch = *s++;
while(ch) {
line = s - 1;
- skip_line(s, ch);
- if (s[-2] == '\n') {
- s[-2] = '\0';
- }
-
-#define sc "OPTIONS "
- if(strncmp(line, sc, sizeof(sc)-1) == 0) {
-#undef sc
-#define sc "features="
- t = strstr(line, sc);
- if(t != NULL && (isspace((int)t[-1]) || t[-1] == ';')) {
- t += sizeof(sc)-1;
-#undef sc
+ if(strncmp_const(line, "OPTIONS ") == 0) {
+ t = strstr(line, "features=");
+ if(t != NULL && (g_ascii_isspace((int)t[-1]) || t[-1] == ';')) {
+ char *u = strchr(t, ';');
+ if (u)
+ *u = '\0';
+ t += SIZEOF("features=")-1;
am_release_feature_set(hostp->features);
if((hostp->features = am_string_to_feature(t)) == NULL) {
- errbuf = vstralloc(hostp->hostname,
- ": bad features value: ",
- line,
- "\n",
- NULL);
+ errbuf = vstrallocf(hostp->hostname,
+ _(": bad features value: %s\n"), line);
goto error_return;
}
+ if (u)
+ *u = ';';
}
-
+ skip_quoted_line(s, ch);
continue;
}
-#define sc "ERROR "
- if(strncmp(line, sc, sizeof(sc)-1) == 0) {
- t = line + sizeof(sc)-1;
- tch = t[-1];
-#undef sc
-
+ t = line;
+ if ((strncmp_const_skip(t, "ERROR ", t, tch) == 0) ||
+ (strncmp_const_skip(t, "WARNING ", t, tch) == 0)) {
fp = t - 1;
skip_whitespace(t, tch);
if (tch == '\n') {
t[-1] = '\0';
}
+
/*
* If the "error" is that the "noop" service is unknown, it
* just means the client is "old" (does not support the servie).
* We can ignore this.
*/
if(hostp->features == NULL
- && p->state == S_FAILED
+ && pkt->type == P_NAK
&& (strcmp(t - 1, "unknown service: noop") == 0
- || strcmp(t - 1, "noop: invalid service") == 0)) {
+ || strcmp(t - 1, "noop: invalid service") == 0)) {
+ skip_quoted_line(s, ch);
continue;
- } else {
- errbuf = vstralloc(hostp->hostname,
- (p->state == S_FAILED) ? "NAK " : "",
- ": ",
- fp,
- NULL);
- goto error_return;
}
- }
-
- msgdisk = t = line;
- tch = *t++;
- skip_non_whitespace(t, tch);
- msgdisk_undo = t - 1;
- msgdisk_undo_ch = *msgdisk_undo;
- *msgdisk_undo = '\0';
+ t = strchr(t,'\n');
+ if (t) /* truncate after the first line */
+ *t = '\0';
+ errbuf = vstralloc(hostp->hostname,
+ (pkt->type == P_NAK) ? "NAK " : "",
+ ": ",
+ fp,
+ NULL);
+ goto error_return;
+ }
+
+ msg = t = line;
+ tch = *(t++);
+ skip_quoted_string(t, tch);
+ t[-1] = '\0';
+ disk = unquote_string(msg);
skip_whitespace(t, tch);
- if (sscanf(t - 1, "%d SIZE %ld", &level, &size) != 2) {
+
+ if (sscanf(t - 1, "%d", &level) != 1) {
goto bad_msg;
}
- dp = lookup_hostdisk(hostp, msgdisk);
-
- *msgdisk_undo = msgdisk_undo_ch; /* for error message */
- msgdisk_undo = NULL;
+ skip_integer(t, tch);
+ skip_whitespace(t, tch);
+ dp = lookup_hostdisk(hostp, disk);
+ dp = lookup_hostdisk(hostp, disk);
if(dp == NULL) {
- log_add(L_ERROR, "%s: invalid reply from sendsize: `%s'\n",
+ log_add(L_ERROR, _("%s: invalid reply from sendsize: `%s'\n"),
hostp->hostname, line);
+ goto bad_msg;
+ }
+
+ size = (gint64)-1;
+ if (strncmp_const(t-1,"SIZE ") == 0) {
+ if (sscanf(t - 1, "SIZE %lld", &size_) != 1) {
+ goto bad_msg;
+ }
+ size = (gint64)size_;
+ } else if ((strncmp_const(t-1,"ERROR ") == 0) ||
+ (strncmp_const(t-1,"WARNING ") == 0)) {
+ skip_non_whitespace(t, tch);
+ skip_whitespace(t, tch);
+ msg = t-1;
+ skip_quoted_string(t,tch);
+ msg_undo = t[-1];
+ t[-1] = '\0';
+ if (pkt->type == P_REP && !est(dp)->errstr) {
+ est(dp)->errstr = unquote_string(msg);
+ }
+ t[-1] = msg_undo;
} else {
+ goto bad_msg;
+ }
+
+ amfree(disk);
+
+ if (dp->estimate == ES_SERVER) {
+ if (size == (gint64)-2) {
+ for(i = 0; i < MAX_LEVELS; i++) {
+ if (est(dp)->level[i] == level) {
+ est(dp)->est_size[i] = -1; /* remove estimate */
+ break;
+ }
+ }
+ if(i == MAX_LEVELS) {
+ goto bad_msg; /* this est wasn't requested */
+ }
+
+ }
+ est(dp)->got_estimate++;
+ } else if (size > (gint64)-1) {
for(i = 0; i < MAX_LEVELS; i++) {
if(est(dp)->level[i] == level) {
est(dp)->est_size[i] = size;
}
est(dp)->got_estimate++;
}
+ s = t;
+ ch = tch;
+ skip_quoted_line(s, ch);
}
if(hostp->up == HOST_READY && hostp->features == NULL) {
* The client does not support the features list, so give it an
* empty one.
*/
- dbprintf(("%s: no feature set from host %s\n",
- debug_prefix_time(NULL), hostp->hostname));
+ dbprintf(_("no feature set from host %s\n"), hostp->hostname);
hostp->features = am_set_default_feature_set();
}
+ security_close_connection(sech, hostp->hostname);
+
/* XXX what about disks that only got some estimates... do we care? */
/* XXX amanda 2.1 treated that case as a bad msg */
if(est(dp)->level[0] == -1) continue; /* ignore this disk */
+ qname = quote_string(dp->name);
if(pkt->type == P_PREP) {
- fprintf(stderr,"%s: time %s: got partial result for host %s disk %s:",
+ g_fprintf(stderr,_("%s: time %s: got partial result for host %s disk %s:"),
get_pname(), walltime_str(curclock()),
- dp->host->hostname, dp->name);
- fprintf(stderr," %d -> %ldK, %d -> %ldK, %d -> %ldK\n",
- est(dp)->level[0], est(dp)->est_size[0],
- est(dp)->level[1], est(dp)->est_size[1],
- est(dp)->level[2], est(dp)->est_size[2]);
+ dp->host->hostname, qname);
+ g_fprintf(stderr,_(" %d -> %lldK, %d -> %lldK, %d -> %lldK\n"),
+ est(dp)->level[0], (long long)est(dp)->est_size[0],
+ est(dp)->level[1], (long long)est(dp)->est_size[1],
+ est(dp)->level[2], (long long)est(dp)->est_size[2]);
enqueue_disk(&pestq, dp);
}
else if(pkt->type == P_REP) {
- fprintf(stderr,"%s: time %s: got result for host %s disk %s:",
+ g_fprintf(stderr,_("%s: time %s: got result for host %s disk %s:"),
get_pname(), walltime_str(curclock()),
- dp->host->hostname, dp->name);
- fprintf(stderr," %d -> %ldK, %d -> %ldK, %d -> %ldK\n",
- est(dp)->level[0], est(dp)->est_size[0],
- est(dp)->level[1], est(dp)->est_size[1],
- est(dp)->level[2], est(dp)->est_size[2]);
- if((est(dp)->level[0] != -1 && est(dp)->est_size[0] > 0) ||
- (est(dp)->level[1] != -1 && est(dp)->est_size[1] > 0) ||
- (est(dp)->level[2] != -1 && est(dp)->est_size[2] > 0)) {
-
- if(est(dp)->level[2] != -1 && est(dp)->est_size[2] < 0) {
+ dp->host->hostname, qname);
+ g_fprintf(stderr,_(" %d -> %lldK, %d -> %lldK, %d -> %lldK\n"),
+ est(dp)->level[0], (long long)est(dp)->est_size[0],
+ est(dp)->level[1], (long long)est(dp)->est_size[1],
+ est(dp)->level[2], (long long)est(dp)->est_size[2]);
+ if((est(dp)->level[0] != -1 && est(dp)->est_size[0] > (gint64)0) ||
+ (est(dp)->level[1] != -1 && est(dp)->est_size[1] > (gint64)0) ||
+ (est(dp)->level[2] != -1 && est(dp)->est_size[2] > (gint64)0)) {
+
+ if(est(dp)->level[2] != -1 && est(dp)->est_size[2] < (gint64)0) {
log_add(L_WARNING,
- "disk %s:%s, estimate of level %d failed: %d.",
- dp->host->hostname, dp->name,
- est(dp)->level[2], est(dp)->est_size[2]);
+ _("disk %s:%s, estimate of level %d failed."),
+ dp->host->hostname, qname, est(dp)->level[2]);
est(dp)->level[2] = -1;
}
- if(est(dp)->level[1] != -1 && est(dp)->est_size[1] < 0) {
+ if(est(dp)->level[1] != -1 && est(dp)->est_size[1] < (gint64)0) {
log_add(L_WARNING,
- "disk %s:%s, estimate of level %d failed: %d.",
- dp->host->hostname, dp->name,
- est(dp)->level[1], est(dp)->est_size[1]);
+ _("disk %s:%s, estimate of level %d failed."),
+ dp->host->hostname, qname,
+ est(dp)->level[1]);
est(dp)->level[1] = -1;
}
- if(est(dp)->level[0] != -1 && est(dp)->est_size[0] < 0) {
+ if(est(dp)->level[0] != -1 && est(dp)->est_size[0] < (gint64)0) {
log_add(L_WARNING,
- "disk %s:%s, estimate of level %d failed: %d.",
- dp->host->hostname, dp->name,
- est(dp)->level[0], est(dp)->est_size[0]);
+ _("disk %s:%s, estimate of level %d failed."),
+ dp->host->hostname, qname, est(dp)->level[0]);
est(dp)->level[0] = -1;
}
enqueue_disk(&estq, dp);
else {
enqueue_disk(&failq, dp);
if(est(dp)->got_estimate) {
- est(dp)->errstr = vstralloc("disk ", dp->name,
- ", all estimate failed", NULL);
+ est(dp)->errstr = vstrallocf("disk %s, all estimate failed",
+ qname);
}
else {
- fprintf(stderr, "error result for host %s disk %s: missing estimate\n",
- dp->host->hostname, dp->name);
- est(dp)->errstr = vstralloc("missing result for ", dp->name,
- " in ", dp->host->hostname,
- " response",
- NULL);
+ g_fprintf(stderr,
+ _("error result for host %s disk %s: missing estimate\n"),
+ dp->host->hostname, qname);
+ if (est(dp)->errstr == NULL) {
+ est(dp)->errstr = vstrallocf(_("missing result for %s in %s response"),
+ qname, dp->host->hostname);
+ }
}
}
+ hostp->up = HOST_DONE;
+ }
+ if (est(dp)->post_dle == 0 &&
+ (pkt->type == P_REP ||
+ ((est(dp)->level[0] == -1 || est(dp)->est_size[0] > (gint64)0) &&
+ (est(dp)->level[1] == -1 || est(dp)->est_size[1] > (gint64)0) &&
+ (est(dp)->level[2] == -1 || est(dp)->est_size[2] > (gint64)0)))) {
+ run_server_scripts(EXECUTE_ON_POST_DLE_ESTIMATE,
+ get_config_name(), dp, est(dp)->level[0]);
+ est(dp)->post_dle = 1;
+ }
+ amfree(qname);
+ }
+
+ if(hostp->up == HOST_DONE) {
+ for(dp = hostp->disks; dp != NULL; dp = dp->hostnext) {
+ if (dp->todo)
+ if (pkt->type == P_REP) {
+ run_server_scripts(EXECUTE_ON_POST_HOST_ESTIMATE,
+ get_config_name(), dp, est(dp)->level[0]);
+ }
}
}
+
getsize(hostp);
+ /* try to clean up any defunct processes, since Amanda doesn't wait() for
+ them explicitly */
+ while(waitpid(-1, NULL, WNOHANG)> 0);
return;
- bad_msg:
+ NAK_parse_failed:
- if(msgdisk_undo) {
- *msgdisk_undo = msgdisk_undo_ch;
- msgdisk_undo = NULL;
- }
- fprintf(stderr,"got a bad message, stopped at:\n");
- fprintf(stderr,"----\n%s\n----\n\n", line);
- errbuf = stralloc2("badly formatted response from ", hostp->hostname);
- /* fall through to ... */
+ errbuf = vstrallocf(_("%s NAK: [NAK parse failed]"), hostp->hostname);
+ g_fprintf(stderr, _("got strange nak from %s:\n----\n%s----\n\n"),
+ hostp->hostname, pkt->body);
+ goto error_return;
- error_return:
+ bad_msg:
+ g_fprintf(stderr,_("got a bad message, stopped at:\n"));
+ /*@ignore@*/
+ g_fprintf(stderr,_("----\n%s----\n\n"), line);
+ errbuf = stralloc2(_("badly formatted response from "), hostp->hostname);
+ /*@end@*/
- if(msgdisk_undo) {
- *msgdisk_undo = msgdisk_undo_ch;
- msgdisk_undo = NULL;
- }
+ error_return:
i = 0;
for(dp = hostp->disks; dp != NULL; dp = dp->hostnext) {
- if(est(dp)->state == DISK_ACTIVE) {
- est(dp)->state = DISK_DONE;
- remove_disk(&waitq, dp);
- enqueue_disk(&failq, dp);
- i++;
+ if (dp->todo) {
+ if(est(dp)->state == DISK_ACTIVE) {
+ qname = quote_string(dp->name);
+ est(dp)->state = DISK_DONE;
+ remove_disk(&waitq, dp);
+ enqueue_disk(&failq, dp);
+ i++;
- est(dp)->errstr = stralloc(errbuf);
- fprintf(stderr, "%s: time %s: error result for host %s disk %s: %s\n",
- get_pname(), walltime_str(curclock()),
- dp->host->hostname, dp->name, errbuf);
+ est(dp)->errstr = stralloc(errbuf);
+ g_fprintf(stderr, _("error result for host %s disk %s: %s\n"),
+ dp->host->hostname, qname, errbuf);
+ amfree(qname);
+ }
}
}
if(i == 0) {
}
hostp->up = HOST_DONE;
amfree(errbuf);
+ /* try to clean up any defunct processes, since Amanda doesn't wait() for
+ them explicitly */
+ while(waitpid(-1, NULL, WNOHANG)> 0);
}
*
*/
-static int schedule_order P((disk_t *a, disk_t *b)); /* subroutines */
-static int pick_inclevel P((disk_t *dp));
+static int schedule_order(disk_t *a, disk_t *b); /* subroutines */
+static int pick_inclevel(disk_t *dp);
-static void analyze_estimate(dp)
-disk_t *dp;
+static void analyze_estimate(
+ disk_t *dp)
{
est_t *ep;
info_t info;
int have_info = 0;
+ char *qname = quote_string(dp->name);
ep = est(dp);
- fprintf(stderr, "pondering %s:%s... ",
- dp->host->hostname, dp->name);
- fprintf(stderr, "next_level0 %d last_level %d ",
+ g_fprintf(stderr, _("pondering %s:%s... "),
+ dp->host->hostname, qname);
+ g_fprintf(stderr, _("next_level0 %d last_level %d "),
ep->next_level0, ep->last_level);
if(get_info(dp->host->hostname, dp->name, &info) == 0) {
}
ep->degr_level = -1;
- ep->degr_size = -1;
+ ep->degr_nsize = (gint64)-1;
+ ep->degr_csize = (gint64)-1;
- if(ep->next_level0 <= 0
- || (have_info && ep->last_level == 0 && (info.command & FORCE_NO_BUMP))) {
+ if(ep->next_level0 <= 0 || (have_info && ep->last_level == 0
+ && (info.command & FORCE_NO_BUMP))) {
if(ep->next_level0 <= 0) {
- fprintf(stderr,"(due for level 0) ");
+ g_fprintf(stderr,_("(due for level 0) "));
}
ep->dump_level = 0;
- ep->dump_size = est_tape_size(dp, 0);
- if(ep->dump_size <= 0) {
- fprintf(stderr,
- "(no estimate for level 0, picking an incr level)\n");
+ ep->dump_nsize = est_size(dp, 0);
+ ep->dump_csize = est_tape_size(dp, 0);
+ if(ep->dump_csize <= (gint64)0) {
+ g_fprintf(stderr,
+ _("(no estimate for level 0, picking an incr level)\n"));
ep->dump_level = pick_inclevel(dp);
- ep->dump_size = est_tape_size(dp, ep->dump_level);
+ ep->dump_nsize = est_size(dp, ep->dump_level);
+ ep->dump_csize = est_tape_size(dp, ep->dump_level);
- if(ep->dump_size == -1) {
+ if(ep->dump_nsize == (gint64)-1) {
ep->dump_level = ep->dump_level + 1;
- ep->dump_size = est_tape_size(dp, ep->dump_level);
+ ep->dump_nsize = est_size(dp, ep->dump_level);
+ ep->dump_csize = est_tape_size(dp, ep->dump_level);
}
}
else {
- total_lev0 += (double) ep->dump_size;
+ total_lev0 += (double) ep->dump_csize;
if(ep->last_level == -1 || dp->skip_incr) {
- fprintf(stderr,"(%s disk, can't switch to degraded mode)\n",
- dp->skip_incr? "skip-incr":"new");
+ g_fprintf(stderr,_("(%s disk, can't switch to degraded mode)\n"),
+ dp->skip_incr? "skip-incr":_("new"));
+ if (dp->skip_incr && ep->degr_mesg == NULL) {
+ ep->degr_mesg = _("Can't switch to degraded mode when using a skip-incr disk");
+ }
ep->degr_level = -1;
- ep->degr_size = -1;
+ ep->degr_nsize = (gint64)-1;
+ ep->degr_csize = (gint64)-1;
}
else {
/* fill in degraded mode info */
- fprintf(stderr,"(picking inclevel for degraded mode)");
+ g_fprintf(stderr,_("(picking inclevel for degraded mode)"));
ep->degr_level = pick_inclevel(dp);
- ep->degr_size = est_tape_size(dp, ep->degr_level);
- if(ep->degr_size == -1) {
+ ep->degr_nsize = est_size(dp, ep->degr_level);
+ ep->degr_csize = est_tape_size(dp, ep->degr_level);
+ if(ep->degr_csize == (gint64)-1) {
ep->degr_level = ep->degr_level + 1;
- ep->degr_size = est_tape_size(dp, ep->degr_level);
+ ep->degr_nsize = est_size(dp, ep->degr_level);
+ ep->degr_csize = est_tape_size(dp, ep->degr_level);
}
- if(ep->degr_size == -1) {
- fprintf(stderr,"(no inc estimate)");
+ if(ep->degr_csize == (gint64)-1) {
+ g_fprintf(stderr,_("(no inc estimate)"));
+ if (ep->degr_mesg == NULL)
+ ep->degr_mesg = _("Can't switch to degraded mode because an incremental estimate could not be performed");
ep->degr_level = -1;
}
- fprintf(stderr,"\n");
+ g_fprintf(stderr,"\n");
}
}
}
else {
- fprintf(stderr,"(not due for a full dump, picking an incr level)\n");
+ g_fprintf(stderr,_("(not due for a full dump, picking an incr level)\n"));
/* XXX - if this returns -1 may be we should force a total? */
ep->dump_level = pick_inclevel(dp);
- ep->dump_size = est_tape_size(dp, ep->dump_level);
+ ep->dump_nsize = est_size(dp, ep->dump_level);
+ ep->dump_csize = est_tape_size(dp, ep->dump_level);
- if(ep->dump_size == -1) {
+ if(ep->dump_csize == (gint64)-1) {
ep->dump_level = ep->last_level;
- ep->dump_size = est_tape_size(dp, ep->dump_level);
+ ep->dump_nsize = est_size(dp, ep->dump_level);
+ ep->dump_csize = est_tape_size(dp, ep->dump_level);
}
- if(ep->dump_size == -1) {
+ if(ep->dump_csize == (gint64)-1) {
ep->dump_level = ep->last_level + 1;
- ep->dump_size = est_tape_size(dp, ep->dump_level);
+ ep->dump_nsize = est_size(dp, ep->dump_level);
+ ep->dump_csize = est_tape_size(dp, ep->dump_level);
}
- if(ep->dump_size == -1) {
+ if(ep->dump_csize == (gint64)-1) {
ep->dump_level = 0;
- ep->dump_size = est_tape_size(dp, ep->dump_level);
+ ep->dump_nsize = est_size(dp, ep->dump_level);
+ ep->dump_csize = est_tape_size(dp, ep->dump_level);
+ }
+ if (ep->degr_mesg == NULL) {
+ ep->degr_mesg = _("Can't switch to degraded mode because a full is not planned");
}
}
- fprintf(stderr," curr level %d size %ld ", ep->dump_level, ep->dump_size);
+ g_fprintf(stderr,_(" curr level %d nsize %lld csize %lld "),
+ ep->dump_level, (long long)ep->dump_nsize,
+ (long long)ep->dump_csize);
insert_disk(&schedq, dp, schedule_order);
- total_size += tt_blocksize_kb + ep->dump_size + tape_mark;
+ total_size += (gint64)tt_blocksize_kb + ep->dump_csize + tape_mark;
/* update the balanced size */
if(!(dp->skip_full || dp->strategy == DS_NOFULL ||
dp->strategy == DS_INCRONLY)) {
- long lev0size;
+ gint64 lev0size;
lev0size = est_tape_size(dp, 0);
- if(lev0size == -1) lev0size = ep->last_lev0size;
+ if(lev0size == (gint64)-1) lev0size = ep->last_lev0size;
- balanced_size += lev0size / runs_per_cycle;
+ balanced_size += (double)(lev0size / (gint64)runs_per_cycle);
}
- fprintf(stderr,"total size %ld total_lev0 %1.0f balanced-lev0size %1.0f\n",
- total_size, total_lev0, balanced_size);
-}
+ g_fprintf(stderr,_("total size %lld total_lev0 %1.0lf balanced-lev0size %1.0lf\n"),
+ (long long)total_size, total_lev0, balanced_size);
-static void handle_failed(dp)
-disk_t *dp;
-{
- char *errstr;
+ /* Log errstr even if the estimate succeeded */
+ /* It can be an error from a script */
+ if (est(dp)->errstr) {
+ char *qerrstr = quote_string(est(dp)->errstr);
+ log_add(L_FAIL, _("%s %s %s 0 %s"), dp->host->hostname, qname,
+ planner_timestamp, qerrstr);
+ amfree(qerrstr);
+ }
-/*
- * From George Scott <George.Scott@cc.monash.edu.au>:
- * --------
- * If a machine is down when the planner is run it guesses from historical
- * data what the size of tonights dump is likely to be and schedules a
- * dump anyway. The dumper then usually discovers that that machine is
- * still down and ends up with a half full tape. Unfortunately the
- * planner had to delay another dump because it thought that the tape was
- * full. The fix here is for the planner to ignore unavailable machines
- * rather than ignore the fact that they are unavailable.
- * --------
- */
+ amfree(qname);
+}
-#ifdef old_behavior
- if(est(dp)->last_level != -1) {
- log_add(L_WARNING,
- "Could not get estimate for %s:%s, using historical data.",
- dp->host->hostname, dp->name);
- analyze_estimate(dp);
- return;
- }
-#endif
+static void handle_failed(
+ disk_t *dp)
+{
+ char *errstr, *errstr1, *qerrstr;
+ char *qname = quote_string(dp->name);
- errstr = est(dp)->errstr? est(dp)->errstr : "hmm, no error indicator!";
+ errstr = est(dp)->errstr? est(dp)->errstr : _("hmm, no error indicator!");
+ errstr1 = vstralloc("[",errstr,"]", NULL);
+ qerrstr = quote_string(errstr1);
+ amfree(errstr1);
- fprintf(stderr, "%s: FAILED %s %s %s 0 [%s]\n",
- get_pname(), dp->host->hostname, dp->name, datestamp, errstr);
+ g_fprintf(stderr, _("%s: FAILED %s %s %s 0 %s\n"),
+ get_pname(), dp->host->hostname, qname, planner_timestamp, qerrstr);
- log_add(L_FAIL, "%s %s %s 0 [%s]", dp->host->hostname, dp->name, datestamp, errstr);
+ log_add(L_FAIL, _("%s %s %s 0 %s"), dp->host->hostname, qname,
+ planner_timestamp, qerrstr);
+ amfree(qerrstr);
+ amfree(qname);
/* XXX - memory leak with *dp */
}
-static int schedule_order(a, b)
-disk_t *a, *b;
/*
* insert-sort by decreasing priority, then
* by decreasing size within priority levels.
*/
+
+static int schedule_order(
+ disk_t *a,
+ disk_t *b)
{
int diff;
- long ldiff;
+ gint64 ldiff;
diff = est(b)->dump_priority - est(a)->dump_priority;
if(diff != 0) return diff;
- ldiff = est(b)->dump_size - est(a)->dump_size;
- if(ldiff < 0) return -1; /* XXX - there has to be a better way to dothis */
- if(ldiff > 0) return 1;
+ ldiff = est(b)->dump_csize - est(a)->dump_csize;
+ if(ldiff < (gint64)0) return -1; /* XXX - there has to be a better way to dothis */
+ if(ldiff > (gint64)0) return 1;
return 0;
}
-static int pick_inclevel(dp)
-disk_t *dp;
+static int pick_inclevel(
+ disk_t *dp)
{
int base_level, bump_level;
- long base_size, bump_size;
- long thresh;
+ gint64 base_size, bump_size;
+ gint64 thresh;
+ char *qname;
base_level = est(dp)->last_level;
/* if last night was level 0, do level 1 tonight, no ifs or buts */
if(base_level == 0) {
- fprintf(stderr," picklev: last night 0, so tonight level 1\n");
+ g_fprintf(stderr,_(" picklev: last night 0, so tonight level 1\n"));
return 1;
}
/* if no-full option set, always do level 1 */
if(dp->strategy == DS_NOFULL) {
- fprintf(stderr," picklev: no-full set, so always level 1\n");
+ g_fprintf(stderr,_(" picklev: no-full set, so always level 1\n"));
return 1;
}
base_size = est_size(dp, base_level);
/* if we didn't get an estimate, we can't do an inc */
- if(base_size == -1) {
+ if(base_size == (gint64)-1) {
base_size = est_size(dp, base_level+1);
- if(base_size > 0) /* FORCE_BUMP */
+ if(base_size > (gint64)0) /* FORCE_BUMP */
return base_level+1;
- fprintf(stderr," picklev: no estimate for level %d, so no incs\n", base_level);
+ g_fprintf(stderr,_(" picklev: no estimate for level %d, so no incs\n"), base_level);
return base_level;
}
thresh = bump_thresh(base_level, est_size(dp, 0), dp->bumppercent, dp->bumpsize, dp->bumpmult);
- fprintf(stderr,
- " pick: size %ld level %d days %d (thresh %ldK, %d days)\n",
- base_size, base_level, est(dp)->level_days,
- thresh, dp->bumpdays);
+ g_fprintf(stderr,
+ _(" pick: size %lld level %d days %d (thresh %lldK, %d days)\n"),
+ (long long)base_size, base_level, est(dp)->level_days,
+ (long long)thresh, dp->bumpdays);
if(base_level == 9
|| est(dp)->level_days < dp->bumpdays
bump_level = base_level + 1;
bump_size = est_size(dp, bump_level);
- if(bump_size == -1) return base_level;
+ if(bump_size == (gint64)-1) return base_level;
- fprintf(stderr, " pick: next size %ld... ", bump_size);
+ g_fprintf(stderr, _(" pick: next size %lld... "),
+ (long long)bump_size);
if(base_size - bump_size < thresh) {
- fprintf(stderr, "not bumped\n");
+ g_fprintf(stderr, _("not bumped\n"));
return base_level;
}
- fprintf(stderr, "BUMPED\n");
- log_add(L_INFO, "Incremental of %s:%s bumped to level %d.",
- dp->host->hostname, dp->name, bump_level);
+ qname = quote_string(dp->name);
+ g_fprintf(stderr, _("BUMPED\n"));
+ log_add(L_INFO, _("Incremental of %s:%s bumped to level %d."),
+ dp->host->hostname, qname, bump_level);
+ amfree(qname);
return bump_level;
}
** more balanced cycle.
*/
-static void delay_one_dump P((disk_t *dp, int delete, ...));
+static void delay_one_dump(disk_t *dp, int delete, ...);
+static int promote_highest_priority_incremental(void);
+static int promote_hills(void);
-static void delay_dumps P((void))
/* delay any dumps that will not fit */
+static void delay_dumps(void)
{
- disk_t *dp, *ndp, *preserve;
- bi_t *bi, *nbi;
- long new_total; /* New total_size */
- char est_kb[20]; /* Text formatted dump size */
- int nb_forced_level_0;
- info_t info;
- int delete;
- char *message;
+ disk_t * dp;
+ disk_t * ndp;
+ disk_t * preserve;
+ bi_t * bi;
+ bi_t * nbi;
+ gint64 new_total; /* New total_size */
+ char est_kb[20]; /* Text formatted dump size */
+ int nb_forced_level_0;
+ info_t info;
+ int delete;
+ char * message;
+ gint64 full_size;
biq.head = biq.tail = NULL;
*/
for(dp = schedq.head; dp != NULL; dp = ndp) {
+ int avail_tapes = 1;
+ if (dp->tape_splitsize > (gint64)0)
+ avail_tapes = conf_runtapes;
+
ndp = dp->next; /* remove_disk zaps this */
- if (est(dp)->dump_size <= tape->length) {
+ full_size = est_tape_size(dp, 0);
+ if (full_size > tapetype_get_length(tape) * (gint64)avail_tapes) {
+ char *qname = quote_string(dp->name);
+ if (conf_runtapes > 1 && dp->tape_splitsize == (gint64)0) {
+ log_add(L_WARNING, _("disk %s:%s, full dump (%lldKB) will be larger than available tape space"
+ ", you could define a splitsize"),
+ dp->host->hostname, qname,
+ (long long)full_size);
+ } else {
+ log_add(L_WARNING, _("disk %s:%s, full dump (%lldKB) will be larger than available tape space"),
+ dp->host->hostname, qname,
+ (long long)full_size);
+ }
+ amfree(qname);
+ }
+
+ if (est(dp)->dump_csize == (gint64)-1 ||
+ est(dp)->dump_csize <= tapetype_get_length(tape) * (gint64)avail_tapes) {
continue;
}
- /* Format dumpsize for messages */
- ap_snprintf(est_kb, 20, "%ld KB,", est(dp)->dump_size);
+ /* Format dumpsize for messages */
+ g_snprintf(est_kb, 20, "%lld KB,",
+ (long long)est(dp)->dump_csize);
if(est(dp)->dump_level == 0) {
if(dp->skip_incr) {
delete = 1;
- message = "but cannot incremental dump skip-incr disk";
+ message = _("but cannot incremental dump skip-incr disk");
}
else if(est(dp)->last_level < 0) {
delete = 1;
- message = "but cannot incremental dump new disk";
+ message = _("but cannot incremental dump new disk");
}
else if(est(dp)->degr_level < 0) {
delete = 1;
- message = "but no incremental estimate";
+ message = _("but no incremental estimate");
+ }
+ else if (est(dp)->degr_csize > tapetype_get_length(tape)) {
+ delete = 1;
+ message = _("incremental dump also larger than tape");
}
else {
delete = 0;
- message = "full dump delayed";
+ message = _("full dump delayed");
}
}
else {
delete = 1;
- message = "skipping incremental";
+ message = _("skipping incremental");
}
- delay_one_dump(dp, delete, "dump larger than tape,", est_kb,
- message, NULL);
+ delay_one_dump(dp, delete, _("dump larger than available tape space,"),
+ est_kb, message, NULL);
}
/*
if(dp != preserve) {
- /* Format dumpsize for messages */
- ap_snprintf(est_kb, 20, "%ld KB,", est(dp)->dump_size);
+ /* Format dumpsize for messages */
+ g_snprintf(est_kb, 20, "%lld KB,",
+ (long long)est(dp)->dump_csize);
if(dp->skip_incr) {
delete = 1;
- message = "but cannot incremental dump skip-incr disk";
+ message = _("but cannot incremental dump skip-incr disk");
}
else if(est(dp)->last_level < 0) {
delete = 1;
- message = "but cannot incremental dump new disk";
+ message = _("but cannot incremental dump new disk");
}
else if(est(dp)->degr_level < 0) {
delete = 1;
- message = "but no incremental estimate";
+ message = _("but no incremental estimate");
}
else {
delete = 0;
- message = "full dump delayed";
+ message = _("full dump delayed");
}
- delay_one_dump(dp, delete, "dumps too big,", est_kb,
+ delay_one_dump(dp, delete, _("dumps too big,"), est_kb,
message, NULL);
}
}
if(est(dp)->dump_level == 0 && dp != preserve) {
/* Format dumpsize for messages */
- ap_snprintf(est_kb, 20, "%ld KB,", est(dp)->dump_size);
+ g_snprintf(est_kb, 20, "%lld KB,",
+ (long long)est(dp)->dump_csize);
if(dp->skip_incr) {
delete = 1;
- message = "but cannot incremental dump skip-incr disk";
+ message = _("but cannot incremental dump skip-incr disk");
}
else if(est(dp)->last_level < 0) {
delete = 1;
- message = "but cannot incremental dump new disk";
+ message = _("but cannot incremental dump new disk");
}
else if(est(dp)->degr_level < 0) {
delete = 1;
- message = "but no incremental estimate";
+ message = _("but no incremental estimate");
}
else {
delete = 0;
- message = "full dump delayed";
+ message = _("full dump delayed");
}
- delay_one_dump(dp, delete, "dumps too big,", est_kb,
+ delay_one_dump(dp, delete, _("dumps too big,"), est_kb,
message, NULL);
}
}
if(est(dp)->dump_level != 0) {
- /* Format dumpsize for messages */
- ap_snprintf(est_kb, 20, "%ld KB,", est(dp)->dump_size);
+ /* Format dumpsize for messages */
+ g_snprintf(est_kb, 20, "%lld KB,",
+ (long long)est(dp)->dump_csize);
delay_one_dump(dp, 1,
- "dumps way too big,",
+ _("dumps way too big,"),
est_kb,
- "must skip incremental dumps",
+ _("must skip incremental dumps"),
NULL);
}
}
** in but why complicate the code?
*/
- for(bi = biq.tail; bi != NULL; bi = nbi) {
+/*@i@*/ for(bi = biq.tail; bi != NULL; bi = nbi) {
+ int avail_tapes = 1;
nbi = bi->prev;
dp = bi->dp;
+ if(dp->tape_splitsize > (gint64)0)
+ avail_tapes = conf_runtapes;
- if(bi->deleted)
- new_total = total_size + tt_blocksize_kb + bi->size + tape_mark;
- else
- new_total = total_size - est(dp)->dump_size + bi->size;
-
- if(new_total <= tape_length && bi->size < tape->length) {
+ if(bi->deleted) {
+ new_total = total_size + (gint64)tt_blocksize_kb +
+ bi->csize + (gint64)tape_mark;
+ } else {
+ new_total = total_size - est(dp)->dump_csize + bi->csize;
+ }
+ if((new_total <= tape_length) &&
+ (bi->csize < (tapetype_get_length(tape) * (gint64)avail_tapes))) {
/* reinstate it */
total_size = new_total;
if(bi->deleted) {
if(bi->level == 0) {
- total_lev0 += (double) bi->size;
+ total_lev0 += (double) bi->csize;
}
insert_disk(&schedq, dp, schedule_order);
}
else {
est(dp)->dump_level = bi->level;
- est(dp)->dump_size = bi->size;
+ est(dp)->dump_nsize = bi->nsize;
+ est(dp)->dump_csize = bi->csize;
}
/* Keep it clean */
biq.head = bi->next;
else
(bi->prev)->next = bi->next;
+
amfree(bi->errstr);
amfree(bi);
}
** now.
*/
- for(bi = biq.head; bi != NULL; bi = nbi) {
+/*@i@*/ for(bi = biq.head; bi != NULL; bi = nbi) {
nbi = bi->next;
-
if(bi->deleted) {
- fprintf(stderr, "%s: FAILED %s\n", get_pname(), bi->errstr);
+ g_fprintf(stderr, "%s: FAILED %s\n", get_pname(), bi->errstr);
log_add(L_FAIL, "%s", bi->errstr);
}
else {
dp = bi->dp;
- fprintf(stderr, " delay: %s now at level %d\n",
+ g_fprintf(stderr, _(" delay: %s now at level %d\n"),
bi->errstr, est(dp)->dump_level);
log_add(L_INFO, "%s", bi->errstr);
}
-
- /* Clean up - dont be too fancy! */
+ /*@ignore@*/
amfree(bi->errstr);
amfree(bi);
+ /*@end@*/
}
- fprintf(stderr, " delay: Total size now %ld.\n", total_size);
+ g_fprintf(stderr, _(" delay: Total size now %lld.\n"),
+ (long long)total_size);
return;
}
* Remove a dump or modify it from full to incremental.
* Keep track of it on the bi q in case we can add it back later.
*/
-arglist_function1(static void delay_one_dump,
- disk_t *, dp,
- int, delete)
+arglist_function1(
+ static void delay_one_dump,
+ disk_t *, dp,
+ int, delete)
{
bi_t *bi;
va_list argp;
char level_str[NUM_STR_SIZE];
char *sep;
char *next;
+ char *qname = quote_string(dp->name);
+ char *errstr, *qerrstr;
arglist_start(argp, delete);
- total_size -= tt_blocksize_kb + est(dp)->dump_size + tape_mark;
+ total_size -= (gint64)tt_blocksize_kb + est(dp)->dump_csize + (gint64)tape_mark;
if(est(dp)->dump_level == 0) {
- total_lev0 -= (double) est(dp)->dump_size;
+ total_lev0 -= (double) est(dp)->dump_csize;
}
- bi = alloc(sizeof(bi_t));
+ bi = alloc(SIZEOF(bi_t));
bi->next = NULL;
bi->prev = biq.tail;
if(biq.tail == NULL)
bi->deleted = delete;
bi->dp = dp;
bi->level = est(dp)->dump_level;
- bi->size = est(dp)->dump_size;
+ bi->nsize = est(dp)->dump_nsize;
+ bi->csize = est(dp)->dump_csize;
- ap_snprintf(level_str, sizeof(level_str), "%d", est(dp)->dump_level);
+ g_snprintf(level_str, SIZEOF(level_str), "%d", est(dp)->dump_level);
bi->errstr = vstralloc(dp->host->hostname,
- " ", dp->name,
- " ", datestamp ? datestamp : "?",
+ " ", qname,
+ " ", planner_timestamp ? planner_timestamp : "?",
" ", level_str,
NULL);
- sep = " [";
+ errstr = NULL;
+ sep = "[";
while ((next = arglist_val(argp, char *)) != NULL) {
- bi->errstr = newvstralloc(bi->errstr, bi->errstr, sep, next, NULL);
+ vstrextend(&errstr, sep, next, NULL);
sep = " ";
}
- strappend(bi->errstr, "]");
+ strappend(errstr, "]");
+ qerrstr = quote_string(errstr);
+ vstrextend(&bi->errstr, " ", qerrstr, NULL);
+ amfree(errstr);
+ amfree(qerrstr);
arglist_end(argp);
if (delete) {
remove_disk(&schedq, dp);
} else {
est(dp)->dump_level = est(dp)->degr_level;
- est(dp)->dump_size = est(dp)->degr_size;
- total_size += tt_blocksize_kb + est(dp)->dump_size + tape_mark;
+ est(dp)->dump_nsize = est(dp)->degr_nsize;
+ est(dp)->dump_csize = est(dp)->degr_csize;
+ total_size += (gint64)tt_blocksize_kb + est(dp)->dump_csize + (gint64)tape_mark;
}
-
+ amfree(qname);
return;
}
-static int promote_highest_priority_incremental P((void))
+static int promote_highest_priority_incremental(void)
{
disk_t *dp, *dp1, *dp_promote;
- long new_size, new_total, new_lev0;
+ gint64 new_size, new_total, new_lev0;
int check_days;
int nb_today, nb_same_day, nb_today2;
int nb_disk_today, nb_disk_same_day;
+ char *qname;
/*
* return 1 if did so; must update total_size correctly; must not
est(dp)->promote = -1000;
- if(est_size(dp,0) <= 0)
+ if(est_size(dp,0) <= (gint64)0)
continue;
if(est(dp)->next_level0 <= 0)
continue;
new_size = est_tape_size(dp, 0);
- new_total = total_size - est(dp)->dump_size + new_size;
- new_lev0 = total_lev0 + new_size;
+ new_total = total_size - est(dp)->dump_csize + new_size;
+ new_lev0 = (gint64)total_lev0 + new_size;
nb_today = 0;
nb_same_day = 0;
nb_disk_today = 0;
nb_disk_same_day = 0;
- for(dp1 = schedq.head; dp1 != NULL; dp1 = dp1->next) {
+ for(dp1 = schedq.head; dp1 != NULL; dp1 = dp1->next) {
if(est(dp1)->dump_level == 0)
nb_disk_today++;
else if(est(dp1)->next_level0 == est(dp)->next_level0)
}
/* do not promote if overflow tape */
- if(new_total > tape_length) continue;
+ if(new_total > tape_length)
+ continue;
/* do not promote if overflow balanced size and something today */
/* promote if nothing today */
- if(new_lev0 > balanced_size+balance_threshold && nb_disk_today > 0)
+ if((new_lev0 > (gint64)(balanced_size + balance_threshold)) &&
+ (nb_disk_today > 0))
continue;
/* do not promote if only one disk due that day and nothing today */
- if(nb_disk_same_day == 1 && nb_disk_today == 0) continue;
+ if(nb_disk_same_day == 1 && nb_disk_today == 0)
+ continue;
nb_today2 = nb_today*nb_today;
- if(nb_today == 0 && nb_same_day > 1) nb_same_day++;
+ if(nb_today == 0 && nb_same_day > 1)
+ nb_same_day++;
if(nb_same_day >= nb_today2) {
est(dp)->promote = ((nb_same_day - nb_today2)*(nb_same_day - nb_today2)) +
conf_dumpcycle - est(dp)->next_level0;
}
- if(!dp_promote || est(dp_promote)->promote < est(dp)->promote) {
+ qname = quote_string(dp->name);
+ if(!dp_promote || est(dp_promote)->promote < est(dp)->promote) {
dp_promote = dp;
- fprintf(stderr," try %s:%s %d %d %d = %d\n",
- dp->host->hostname, dp->name, nb_same_day, nb_today, est(dp)->next_level0, est(dp)->promote);
+ g_fprintf(stderr," try %s:%s %d %d %d = %d\n",
+ dp->host->hostname, qname, nb_same_day, nb_today, est(dp)->next_level0, est(dp)->promote);
}
- else {
- fprintf(stderr,"no try %s:%s %d %d %d = %d\n",
- dp->host->hostname, dp->name, nb_same_day, nb_today, est(dp)->next_level0, est(dp)->promote);
+ else {
+ g_fprintf(stderr,"no try %s:%s %d %d %d = %d\n",
+ dp->host->hostname, qname, nb_same_day, nb_today, est(dp)->next_level0, est(dp)->promote);
}
+ amfree(qname);
}
if(dp_promote) {
dp = dp_promote;
+ qname = quote_string(dp->name);
new_size = est_tape_size(dp, 0);
- new_total = total_size - est(dp)->dump_size + new_size;
- new_lev0 = total_lev0 + new_size;
+ new_total = total_size - est(dp)->dump_csize + new_size;
+ new_lev0 = (gint64)total_lev0 + new_size;
total_size = new_total;
- total_lev0 = new_lev0;
+ total_lev0 = (double)new_lev0;
check_days = est(dp)->next_level0;
est(dp)->degr_level = est(dp)->dump_level;
- est(dp)->degr_size = est(dp)->dump_size;
+ est(dp)->degr_nsize = est(dp)->dump_nsize;
+ est(dp)->degr_csize = est(dp)->dump_csize;
est(dp)->dump_level = 0;
- est(dp)->dump_size = new_size;
+ est(dp)->dump_nsize = est_size(dp, 0);
+ est(dp)->dump_csize = new_size;
est(dp)->next_level0 = 0;
- fprintf(stderr,
- " promote: moving %s:%s up, total_lev0 %1.0f, total_size %ld\n",
- dp->host->hostname, dp->name,
- total_lev0, total_size);
+ g_fprintf(stderr,
+ _(" promote: moving %s:%s up, total_lev0 %1.0lf, total_size %lld\n"),
+ dp->host->hostname, qname,
+ total_lev0, (long long)total_size);
log_add(L_INFO,
- "Full dump of %s:%s promoted from %d day%s ahead.",
- dp->host->hostname, dp->name,
- check_days, (check_days == 1) ? "" : "s");
+ plural(_("Full dump of %s:%s promoted from %d day ahead."),
+ _("Full dump of %s:%s promoted from %d days ahead."),
+ check_days),
+ dp->host->hostname, qname, check_days);
+ amfree(qname);
return 1;
}
return 0;
}
-static int promote_hills P((void))
+static int promote_hills(void)
{
disk_t *dp;
struct balance_stats {
int disks;
- long size;
+ gint64 size;
} *sp = NULL;
int days;
int hill_days = 0;
- long hill_size;
- long new_size;
- long new_total;
+ gint64 hill_size;
+ gint64 new_size;
+ gint64 new_total;
int my_dumpcycle;
+ char *qname;
/* If we are already doing a level 0 don't bother */
if(total_lev0 > 0)
if(my_dumpcycle > 10000) my_dumpcycle = 10000;
sp = (struct balance_stats *)
- alloc(sizeof(struct balance_stats) * my_dumpcycle);
+ alloc(SIZEOF(struct balance_stats) * my_dumpcycle);
- for(days = 0; days < my_dumpcycle; days++)
- sp[days].disks = sp[days].size = 0;
+ for(days = 0; days < my_dumpcycle; days++) {
+ sp[days].disks = 0;
+ sp[days].size = (gint64)0;
+ }
for(dp = schedq.head; dp != NULL; dp = dp->next) {
days = est(dp)->next_level0; /* This is > 0 by definition */
/* Search for a suitable big hill and cut it down */
while(1) {
/* Find the tallest hill */
- hill_size = 0;
+ hill_size = (gint64)0;
for(days = 0; days < my_dumpcycle; days++) {
if(sp[days].disks > 1 && sp[days].size > hill_size) {
hill_size = sp[days].size;
}
}
- if(hill_size <= 0) break; /* no suitable hills */
+ if(hill_size <= (gint64)0) break; /* no suitable hills */
/* Find all the dumps in that hill and try and remove one */
for(dp = schedq.head; dp != NULL; dp = dp->next) {
dp->strategy == DS_INCRONLY)
continue;
new_size = est_tape_size(dp, 0);
- new_total = total_size - est(dp)->dump_size + new_size;
+ new_total = total_size - est(dp)->dump_csize + new_size;
if(new_total > tape_length)
continue;
/* We found a disk we can promote */
+ qname = quote_string(dp->name);
total_size = new_total;
- total_lev0 += new_size;
+ total_lev0 += (double)new_size;
est(dp)->degr_level = est(dp)->dump_level;
- est(dp)->degr_size = est(dp)->dump_size;
+ est(dp)->degr_nsize = est(dp)->dump_nsize;
+ est(dp)->degr_csize = est(dp)->dump_csize;
est(dp)->dump_level = 0;
est(dp)->next_level0 = 0;
- est(dp)->dump_size = new_size;
+ est(dp)->dump_nsize = est_size(dp, 0);
+ est(dp)->dump_csize = new_size;
- fprintf(stderr,
- " promote: moving %s:%s up, total_lev0 %1.0f, total_size %ld\n",
- dp->host->hostname, dp->name,
- total_lev0, total_size);
+ g_fprintf(stderr,
+ _(" promote: moving %s:%s up, total_lev0 %1.0lf, total_size %lld\n"),
+ dp->host->hostname, qname,
+ total_lev0, (long long)total_size);
log_add(L_INFO,
- "Full dump of %s:%s specially promoted from %d day%s ahead.",
- dp->host->hostname, dp->name,
- hill_days, (hill_days == 1) ? "" : "s");
+ plural(_("Full dump of %s:%s specially promoted from %d day ahead."),
+ _("Full dump of %s:%s specially promoted from %d days ahead."),
+ hill_days),
+ dp->host->hostname, qname, hill_days);
+ amfree(qname);
amfree(sp);
return 1;
}
*
* XXX - memory leak - we shouldn't just throw away *dp
*/
-static void output_scheduleline(dp)
- disk_t *dp;
+static void output_scheduleline(
+ disk_t *dp)
{
est_t *ep;
- long dump_time = 0, degr_time = 0;
+ time_t dump_time = 0, degr_time = 0;
+ double dump_kps = 0, degr_kps = 0;
char *schedline = NULL, *degr_str = NULL;
char dump_priority_str[NUM_STR_SIZE];
char dump_level_str[NUM_STR_SIZE];
- char dump_size_str[NUM_STR_SIZE];
+ char dump_nsize_str[NUM_STR_SIZE];
+ char dump_csize_str[NUM_STR_SIZE];
char dump_time_str[NUM_STR_SIZE];
+ char dump_kps_str[NUM_STR_SIZE];
char degr_level_str[NUM_STR_SIZE];
- char degr_size_str[NUM_STR_SIZE];
+ char degr_nsize_str[NUM_STR_SIZE];
+ char degr_csize_str[NUM_STR_SIZE];
char degr_time_str[NUM_STR_SIZE];
+ char degr_kps_str[NUM_STR_SIZE];
char *dump_date, *degr_date;
char *features;
int i;
+ char *qname = quote_string(dp->name);
ep = est(dp);
- if(ep->dump_size == -1) {
+ if(ep->dump_csize == (gint64)-1) {
/* no estimate, fail the disk */
- fprintf(stderr,
- "%s: FAILED %s %s %s %d [no estimate]\n",
+ g_fprintf(stderr,
+ _("%s: FAILED %s %s %s %d \"[no estimate]\"\n"),
get_pname(),
- dp->host->hostname, dp->name, datestamp, ep->dump_level);
- log_add(L_FAIL, "%s %s %s %d [no estimate]",
- dp->host->hostname, dp->name, datestamp, ep->dump_level);
+ dp->host->hostname, qname, planner_timestamp, ep->dump_level);
+ log_add(L_FAIL, _("%s %s %s %d [no estimate]"),
+ dp->host->hostname, qname, planner_timestamp, ep->dump_level);
+ amfree(qname);
return;
}
#define fix_rate(rate) (rate < 1.0 ? DEFAULT_DUMPRATE : rate)
if(ep->dump_level == 0) {
- dump_time = ep->dump_size / fix_rate(ep->fullrate);
+ dump_kps = fix_rate(ep->fullrate);
+ dump_time = (time_t)((double)ep->dump_csize / dump_kps);
- if(ep->degr_size != -1) {
- degr_time = ep->degr_size / fix_rate(ep->incrrate);
+ if(ep->degr_csize != (gint64)-1) {
+ degr_kps = fix_rate(ep->incrrate);
+ degr_time = (time_t)((double)ep->degr_csize / degr_kps);
}
}
else {
- dump_time = ep->dump_size / fix_rate(ep->incrrate);
+ dump_kps = fix_rate(ep->incrrate);
+ dump_time = (time_t)((double)ep->dump_csize / dump_kps);
}
- if(ep->dump_level == 0 && ep->degr_size != -1) {
- ap_snprintf(degr_level_str, sizeof(degr_level_str),
+ if(ep->dump_level == 0 && ep->degr_csize != (gint64)-1) {
+ g_snprintf(degr_level_str, sizeof(degr_level_str),
"%d", ep->degr_level);
- ap_snprintf(degr_size_str, sizeof(degr_size_str),
- "%ld", ep->degr_size);
- ap_snprintf(degr_time_str, sizeof(degr_time_str),
- "%ld", degr_time);
+ g_snprintf(degr_nsize_str, sizeof(degr_nsize_str),
+ "%lld", (long long)ep->degr_nsize);
+ g_snprintf(degr_csize_str, sizeof(degr_csize_str),
+ "%lld", (long long)ep->degr_csize);
+ g_snprintf(degr_time_str, sizeof(degr_time_str),
+ "%lld", (long long)degr_time);
+ g_snprintf(degr_kps_str, sizeof(degr_kps_str),
+ "%.0lf", degr_kps);
degr_str = vstralloc(" ", degr_level_str,
" ", degr_date,
- " ", degr_size_str,
+ " ", degr_nsize_str,
+ " ", degr_csize_str,
" ", degr_time_str,
+ " ", degr_kps_str,
NULL);
+ } else {
+ char *degr_mesg;
+ if (ep->degr_mesg) {
+ degr_mesg = quote_string(ep->degr_mesg);
+ } else {
+ degr_mesg = quote_string(_("Can't switch to degraded mode for unknown reason"));
+ }
+ degr_str = vstralloc(" ", degr_mesg, NULL);
+ amfree(degr_mesg);
}
- ap_snprintf(dump_priority_str, sizeof(dump_priority_str),
+ g_snprintf(dump_priority_str, SIZEOF(dump_priority_str),
"%d", ep->dump_priority);
- ap_snprintf(dump_level_str, sizeof(dump_level_str),
+ g_snprintf(dump_level_str, SIZEOF(dump_level_str),
"%d", ep->dump_level);
- ap_snprintf(dump_size_str, sizeof(dump_size_str),
- "%ld", ep->dump_size);
- ap_snprintf(dump_time_str, sizeof(dump_time_str),
- "%ld", dump_time);
+ g_snprintf(dump_nsize_str, sizeof(dump_nsize_str),
+ "%lld", (long long)ep->dump_nsize);
+ g_snprintf(dump_csize_str, sizeof(dump_csize_str),
+ "%lld", (long long)ep->dump_csize);
+ g_snprintf(dump_time_str, sizeof(dump_time_str),
+ "%lld", (long long)dump_time);
+ g_snprintf(dump_kps_str, sizeof(dump_kps_str),
+ "%.0lf", dump_kps);
features = am_feature_to_string(dp->host->features);
schedline = vstralloc("DUMP ",dp->host->hostname,
" ", features,
- " ", dp->name,
- " ", datestamp,
+ " ", qname,
+ " ", planner_timestamp,
" ", dump_priority_str,
" ", dump_level_str,
" ", dump_date,
- " ", dump_size_str,
+ " ", dump_nsize_str,
+ " ", dump_csize_str,
" ", dump_time_str,
+ " ", dump_kps_str,
degr_str ? degr_str : "",
"\n", NULL);
amfree(features);
amfree(schedline);
amfree(degr_str);
+ amfree(qname);
}