* Authors: the Amanda Development Team. Its members are listed in a
* file named AUTHORS, in the root directory of this distribution.
*/
-/* $Id: dumper.c,v 1.170 2006/03/22 15:10:52 martinea Exp $
+/* $Id: dumper.c,v 1.190 2006/08/30 19:53:57 martinea Exp $
*
* requests remote amandad processes to dump filesystems
*/
#include "protocol.h"
#include "security.h"
#include "stream.h"
-#include "token.h"
-#include "version.h"
#include "fileheader.h"
#include "amfeatures.h"
#include "server_util.h"
#include "util.h"
+#include "timestamp.h"
+#include "amxml.h"
+
+#define dumper_debug(i,x) do { \
+ if ((i) <= debug_dumper) { \
+ dbprintf(x); \
+ } \
+} while (0)
#ifndef SEEK_SET
#define SEEK_SET 0
pid_t encryptpid; /* valid if fd is pipe to encrypt */
};
+typedef struct filter_s {
+ int fd;
+ char *name;
+ char *buffer;
+ gint64 first; /* first byte used */
+ gint64 size; /* number of byte use in the buffer */
+ gint64 allocated_size ; /* allocated size of the buffer */
+ event_handle_t *event;
+} filter_t;
+
static char *handle = NULL;
static char *errstr = NULL;
-static long dumpbytes;
-static long dumpsize, headersize, origsize;
+static off_t dumpbytes;
+static off_t dumpsize, headersize, origsize;
static comp_t srvcompress = COMP_NONE;
char *srvcompprog = NULL;
char *clnt_encrypt = NULL;
char *srv_decrypt_opt = NULL;
char *clnt_decrypt_opt = NULL;
+static kencrypt_type dumper_kencrypt;
static FILE *errf = NULL;
static char *hostname = NULL;
am_feature_t *their_features = NULL;
static char *diskname = NULL;
-static char *device = NULL;
+static char *qdiskname = NULL, *b64disk;
+static char *device = NULL, *b64device;
static char *options = NULL;
static char *progname = NULL;
+static char *amandad_path=NULL;
+static char *client_username=NULL;
+static char *client_port=NULL;
+static char *ssh_keys=NULL;
+static char *auth=NULL;
+static data_path_t data_path=DATA_PATH_AMANDA;
+static char *dataport_list = NULL;
static int level;
static char *dumpdate = NULL;
-static char *datestamp;
-static int conf_dtimeout;
+static char *dumper_timestamp = NULL;
+static time_t conf_dtimeout;
static int indexfderror;
+static int set_datafd;
+static char *dle_str = NULL;
+static char *errfname = NULL;
+static int errf_lines = 0;
static dumpfile_t file;
#define INDEXFD 2
{ "INDEX", NULL },
};
-#define NSTREAMS (sizeof(streams) / sizeof(streams[0]))
+#define NSTREAMS (int)(sizeof(streams) / sizeof(streams[0]))
static am_feature_t *our_features = NULL;
static char *our_feature_string = NULL;
+/* buffer to keep partial line from the MESG stream */
+static struct {
+ char *buf; /* buffer holding msg data */
+ size_t size; /* size of alloced buffer */
+} msg = { NULL, 0 };
+
+
/* local functions */
-int main P((int, char **));
-static int do_dump P((struct databuf *));
-static void check_options P((char *));
-static void finish_tapeheader P((dumpfile_t *));
-static int write_tapeheader P((int, dumpfile_t *));
-static void databuf_init P((struct databuf *, int));
-static int databuf_write P((struct databuf *, const void *, int));
-static int databuf_flush P((struct databuf *));
-static void process_dumpeof P((void));
-static void process_dumpline P((const char *));
-static void add_msg_data P((const char *, size_t));
-static void parse_info_line P((char *));
-static void log_msgout P((logtype_t));
-
-static int runcompress P((int, pid_t *, comp_t));
-static int runencrypt P((int, pid_t *, encrypt_t));
-
-static void sendbackup_response P((void *, pkt_t *, security_handle_t *));
-static int startup_dump P((const char *, const char *, const char *, int,
- const char *, const char *, const char *));
-static void stop_dump P((void));
-
-static void read_indexfd P((void *, void *, ssize_t));
-static void read_datafd P((void *, void *, ssize_t));
-static void read_mesgfd P((void *, void *, ssize_t));
-static void timeout P((int));
-static void timeout_callback P((void *));
+int main(int, char **);
+static int do_dump(struct databuf *);
+static void check_options(char *);
+static void xml_check_options(char *optionstr);
+static void finish_tapeheader(dumpfile_t *);
+static ssize_t write_tapeheader(int, dumpfile_t *);
+static void databuf_init(struct databuf *, int);
+static int databuf_write(struct databuf *, const void *, size_t);
+static int databuf_flush(struct databuf *);
+static void process_dumpeof(void);
+static void process_dumpline(const char *);
+static void add_msg_data(const char *, size_t);
+static void parse_info_line(char *);
+static int log_msgout(logtype_t);
+static char * dumper_get_security_conf (char *, void *);
+
+static int runcompress(int, pid_t *, comp_t, char *);
+static int runencrypt(int, pid_t *, encrypt_t);
+
+static void sendbackup_response(void *, pkt_t *, security_handle_t *);
+static int startup_dump(const char *, const char *, const char *, int,
+ const char *, const char *, const char *,
+ const char *, const char *, const char *,
+ const char *, const char *);
+static void stop_dump(void);
+
+static void read_indexfd(void *, void *, ssize_t);
+static void read_datafd(void *, void *, ssize_t);
+static void read_mesgfd(void *, void *, ssize_t);
+static void timeout(time_t);
+static void timeout_callback(void *);
static void
-check_options(options)
- char *options;
-{
+check_options(
+ char *options)
+{
char *compmode = NULL;
char *compend = NULL;
char *encryptmode = NULL;
char *decryptend = NULL;
/* parse the compression option */
- if (strstr(options, "srvcomp-best;") != NULL)
+ if (strstr(options, "srvcomp-best;") != NULL)
srvcompress = COMP_BEST;
else if (strstr(options, "srvcomp-fast;") != NULL)
srvcompress = COMP_FAST;
else if ((compmode = strstr(options, "srvcomp-cust=")) != NULL) {
compend = strchr(compmode, ';');
if (compend ) {
- srvcompress = COMP_SERV_CUST;
+ srvcompress = COMP_SERVER_CUST;
*compend = '\0';
srvcompprog = stralloc(compmode + strlen("srvcomp-cust="));
*compend = ';';
*decryptend = ';';
}
}
+
+ if (strstr(options, "kencrypt;") != NULL) {
+ dumper_kencrypt = KENCRYPT_WILL_DO;
+ } else {
+ dumper_kencrypt = KENCRYPT_NONE;
+ }
+}
+
+
+static void
+xml_check_options(
+ char *optionstr)
+{
+ char *o, *oo;
+ char *errmsg = NULL;
+ dle_t *dle;
+
+ o = oo = vstralloc("<dle>", strchr(optionstr,'<'), "</dle>", NULL);
+
+ dle = amxml_parse_node_CHAR(o, &errmsg);
+ if (dle == NULL) {
+ error("amxml_parse_node_CHAR failed: %s\n", errmsg);
+ }
+
+ if (dle->compress == COMP_SERVER_FAST) {
+ srvcompress = COMP_FAST;
+ } else if (dle->compress == COMP_SERVER_BEST) {
+ srvcompress = COMP_BEST;
+ } else if (dle->compress == COMP_SERVER_CUST) {
+ srvcompress = COMP_SERVER_CUST;
+ srvcompprog = g_strdup(dle->compprog);
+ } else if (dle->compress == COMP_CUST) {
+ srvcompress = COMP_CUST;
+ clntcompprog = g_strdup(dle->compprog);
+ } else {
+ srvcompress = COMP_NONE;
+ }
+
+ if (dle->encrypt == ENCRYPT_CUST) {
+ srvencrypt = ENCRYPT_CUST;
+ clnt_encrypt = g_strdup(dle->clnt_encrypt);
+ clnt_decrypt_opt = g_strdup(dle->clnt_decrypt_opt);
+ } else if (dle->encrypt == ENCRYPT_SERV_CUST) {
+ srvencrypt = ENCRYPT_SERV_CUST;
+ srv_encrypt = g_strdup(dle->srv_encrypt);
+ srv_decrypt_opt = g_strdup(dle->srv_decrypt_opt);
+ } else {
+ srvencrypt = ENCRYPT_NONE;
+ }
+ free_dle(dle);
+ amfree(o);
}
int
-main(main_argc, main_argv)
- int main_argc;
- char **main_argv;
+main(
+ int argc,
+ char ** argv)
{
static struct databuf db;
- struct cmdargs cmdargs;
- cmd_t cmd;
+ struct cmdargs *cmdargs = NULL;
int outfd = -1;
- int taper_port, rc;
- unsigned long malloc_hist_1, malloc_size_1;
- unsigned long malloc_hist_2, malloc_size_2;
- char *conffile;
+ int rc;
+ in_port_t header_port;
char *q = NULL;
int a;
+ int res;
+ config_overrides_t *cfg_ovr = NULL;
+ char *cfg_opt = NULL;
+ int dumper_setuid;
+
+ /*
+ * 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");
+
+ /* drop root privileges */
+ dumper_setuid = set_root_privs(0);
safe_fd(-1, 0);
set_pname("dumper");
+ dbopen(DBG_SUBDIR_SERVER);
+
/* Don't die when child closes pipe */
signal(SIGPIPE, SIG_IGN);
- malloc_size_1 = malloc_inuse(&malloc_hist_1);
+ add_amanda_log_handler(amanda_log_stderr);
+ add_amanda_log_handler(amanda_log_trace_log);
- erroutput_type = (ERR_AMANDALOG|ERR_INTERACTIVE);
- set_logerror(logerror);
+ cfg_ovr = extract_commandline_config_overrides(&argc, &argv);
+ if (argc > 1)
+ cfg_opt = argv[1];
+ set_config_overrides(cfg_ovr);
+ config_init(CONFIG_INIT_EXPLICIT_NAME | CONFIG_INIT_USE_CWD, cfg_opt);
- if (main_argc > 1) {
- config_name = stralloc(main_argv[1]);
- config_dir = vstralloc(CONFIG_DIR, "/", config_name, "/", NULL);
- } else {
- char my_cwd[STR_SIZE];
+ if (!dumper_setuid) {
+ error(_("dumper must be run setuid root"));
+ }
- 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);
- }
+ if (config_errors(NULL) >= CFGERR_ERRORS) {
+ g_critical(_("errors processing config file"));
}
- safe_cd();
+ safe_cd(); /* do this *after* config_init() */
- our_features = am_init_feature_set();
- our_feature_string = am_feature_to_string(our_features);
+ check_running_as(RUNNING_AS_ROOT | RUNNING_AS_UID_ONLY);
- conffile = stralloc2(config_dir, CONFFILE_NAME);
- if(read_conffile(conffile)) {
- error("errors processing config file \"%s\"", conffile);
- }
- amfree(conffile);
+ dbrename(get_config_name(), DBG_SUBDIR_SERVER);
- /*
- * Make our effective uid nonprivlidged, but keep our real uid as root
- * in case we need to get back (to bind privlidged ports, etc).
- */
- if(geteuid() == 0) {
- uid_t ruid = getuid();
- setuid(0);
- seteuid(ruid);
- setgid(getgid());
- }
-#if defined BSD_SECURITY && !defined SSH_SECURITY
- else error("must be run setuid root to communicate correctly");
-#endif
+ 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(),
- main_argv[0], version());
+ argv[0], VERSION);
fflush(stderr);
/* now, make sure we are a valid user */
- if (getpwuid(getuid()) == NULL)
- error("can't get login name for my uid %ld", (long)getuid());
-
signal(SIGPIPE, SIG_IGN);
- datestamp = construct_datestamp(NULL);
- conf_dtimeout = getconf_int(CNF_DTIMEOUT);
+ conf_dtimeout = (time_t)getconf_int(CNF_DTIMEOUT);
protocol_init();
do {
- cmd = getcmd(&cmdargs);
+ if (cmdargs)
+ free_cmdargs(cmdargs);
+ cmdargs = getcmd();
+
+ amfree(errstr);
+ switch(cmdargs->cmd) {
+ case START:
+ if(cmdargs->argc < 2)
+ error(_("error [dumper START: not enough args: timestamp]"));
+ dumper_timestamp = newstralloc(dumper_timestamp, cmdargs->argv[1]);
+ break;
+
+ case ABORT:
+ break;
- switch(cmd) {
case QUIT:
break;
* level
* dumpdate
* progname
+ * amandad_path
+ * client_username
+ * client_port
+ * ssh_keys
+ * security_driver
+ * data_path
+ * dataport_list
* options
*/
- cmdargs.argc++; /* true count of args */
- a = 2;
+ a = 1; /* skip "PORT-DUMP" */
- if(a >= cmdargs.argc) {
- error("error [dumper PORT-DUMP: not enough args: handle]");
+ if(a >= cmdargs->argc) {
+ error(_("error [dumper PORT-DUMP: not enough args: handle]"));
+ /*NOTREACHED*/
}
- handle = newstralloc(handle, cmdargs.argv[a++]);
+ handle = newstralloc(handle, cmdargs->argv[a++]);
- if(a >= cmdargs.argc) {
- error("error [dumper PORT-DUMP: not enough args: handle]");
+ if(a >= cmdargs->argc) {
+ error(_("error [dumper PORT-DUMP: not enough args: port]"));
+ /*NOTREACHED*/
}
- taper_port = atoi(cmdargs.argv[a++]);
+ header_port = (in_port_t)atoi(cmdargs->argv[a++]);
- if(a >= cmdargs.argc) {
- error("error [dumper PORT-DUMP: not enough args: handle]");
+ if(a >= cmdargs->argc) {
+ error(_("error [dumper PORT-DUMP: not enough args: hostname]"));
+ /*NOTREACHED*/
}
- hostname = newstralloc(hostname, cmdargs.argv[a++]);
+ hostname = newstralloc(hostname, cmdargs->argv[a++]);
- if(a >= cmdargs.argc) {
- error("error [dumper PORT-DUMP: not enough args: features]");
+ if(a >= cmdargs->argc) {
+ error(_("error [dumper PORT-DUMP: not enough args: features]"));
+ /*NOTREACHED*/
}
am_release_feature_set(their_features);
- their_features = am_string_to_feature(cmdargs.argv[a++]);
+ their_features = am_string_to_feature(cmdargs->argv[a++]);
+
+ if(a >= cmdargs->argc) {
+ error(_("error [dumper PORT-DUMP: not enough args: diskname]"));
+ /*NOTREACHED*/
+ }
+ diskname = newstralloc(diskname, cmdargs->argv[a++]);
+ if (qdiskname != NULL)
+ amfree(qdiskname);
+ qdiskname = quote_string(diskname);
+ b64disk = amxml_format_tag("disk", diskname);
+
+ if(a >= cmdargs->argc) {
+ error(_("error [dumper PORT-DUMP: not enough args: device]"));
+ /*NOTREACHED*/
+ }
+ device = newstralloc(device, cmdargs->argv[a++]);
+ b64device = amxml_format_tag("diskdevice", device);
+ if(strcmp(device,"NODEVICE") == 0)
+ amfree(device);
+
+ if(a >= cmdargs->argc) {
+ error(_("error [dumper PORT-DUMP: not enough args: level]"));
+ /*NOTREACHED*/
+ }
+ level = atoi(cmdargs->argv[a++]);
+
+ if(a >= cmdargs->argc) {
+ error(_("error [dumper PORT-DUMP: not enough args: dumpdate]"));
+ /*NOTREACHED*/
+ }
+ dumpdate = newstralloc(dumpdate, cmdargs->argv[a++]);
+
+ if(a >= cmdargs->argc) {
+ error(_("error [dumper PORT-DUMP: not enough args: program]"));
+ /*NOTREACHED*/
+ }
+ progname = newstralloc(progname, cmdargs->argv[a++]);
+
+ if(a >= cmdargs->argc) {
+ error(_("error [dumper PORT-DUMP: not enough args: amandad_path]"));
+ /*NOTREACHED*/
+ }
+ amandad_path = newstralloc(amandad_path, cmdargs->argv[a++]);
+
+ if(a >= cmdargs->argc) {
+ error(_("error [dumper PORT-DUMP: not enough args: client_username]"));
+ }
+ client_username = newstralloc(client_username, cmdargs->argv[a++]);
- if(a >= cmdargs.argc) {
- error("error [dumper PORT-DUMP: not enough args: handle]");
+ if(a >= cmdargs->argc) {
+ error(_("error [dumper PORT-DUMP: not enough args: client_port]"));
}
- diskname = newstralloc(diskname, cmdargs.argv[a++]);
+ client_port = newstralloc(client_port, cmdargs->argv[a++]);
- if(a >= cmdargs.argc) {
- error("error [dumper PORT-DUMP: not enough args: handle]");
+ if(a >= cmdargs->argc) {
+ error(_("error [dumper PORT-DUMP: not enough args: ssh_keys]"));
}
- device = newstralloc(device, cmdargs.argv[a++]);
- if(strcmp(device,"NODEVICE") == 0) amfree(device);
+ ssh_keys = newstralloc(ssh_keys, cmdargs->argv[a++]);
- if(a >= cmdargs.argc) {
- error("error [dumper PORT-DUMP: not enough args: handle]");
+ if(a >= cmdargs->argc) {
+ error(_("error [dumper PORT-DUMP: not enough args: auth]"));
}
- level = atoi(cmdargs.argv[a++]);
+ auth = newstralloc(auth, cmdargs->argv[a++]);
- if(a >= cmdargs.argc) {
- error("error [dumper PORT-DUMP: not enough args: handle]");
+ if(a >= cmdargs->argc) {
+ error(_("error [dumper PORT-DUMP: not enough args: data_path]"));
}
- dumpdate = newstralloc(dumpdate, cmdargs.argv[a++]);
+ data_path = data_path_from_string(cmdargs->argv[a++]);
- if(a >= cmdargs.argc) {
- error("error [dumper PORT-DUMP: not enough args: handle]");
+ if(a >= cmdargs->argc) {
+ error(_("error [dumper PORT-DUMP: not enough args: dataport_list]"));
}
- progname = newstralloc(progname, cmdargs.argv[a++]);
+ dataport_list = newstralloc(dataport_list, cmdargs->argv[a++]);
- if(a >= cmdargs.argc) {
- error("error [dumper PORT-DUMP: not enough args: handle]");
+ if(a >= cmdargs->argc) {
+ error(_("error [dumper PORT-DUMP: not enough args: options]"));
}
- options = newstralloc(options, cmdargs.argv[a++]);
+ options = newstralloc(options, cmdargs->argv[a++]);
- if(a != cmdargs.argc) {
- error("error [dumper PORT-DUMP: too many args: %d != %d]",
- cmdargs.argc, a);
+ if(a != cmdargs->argc) {
+ error(_("error [dumper PORT-DUMP: too many args: %d != %d]"),
+ cmdargs->argc, a);
+ /*NOTREACHED*/
}
- /* connect outf to taper port */
+ /* Double-check that 'localhost' resolves properly */
+ if ((res = resolve_hostname("localhost", 0, NULL, NULL) != 0)) {
+ errstr = newvstrallocf(errstr,
+ _("could not resolve localhost: %s"),
+ gai_strerror(res));
+ q = quote_string(errstr);
+ putresult(FAILED, "%s %s\n", handle, q);
+ log_add(L_FAIL, "%s %s %s %d [%s]", hostname, qdiskname,
+ dumper_timestamp, level, errstr);
+ amfree(q);
+ break;
+ }
+
+ /* connect outf to chunker/taper port */
- outfd = stream_client("localhost", taper_port,
- STREAM_BUFSIZE, -1, NULL, 0);
+ g_debug(_("Sending header to localhost:%d\n"), header_port);
+ outfd = stream_client("localhost", header_port,
+ STREAM_BUFSIZE, 0, NULL, 0);
if (outfd == -1) {
- q = squotef("[taper port open: %s]", strerror(errno));
+
+ errstr = newvstrallocf(errstr, _("port open: %s"),
+ strerror(errno));
+ q = quote_string(errstr);
putresult(FAILED, "%s %s\n", handle, q);
+ log_add(L_FAIL, "%s %s %s %d [%s]", hostname, qdiskname,
+ dumper_timestamp, level, errstr);
amfree(q);
break;
}
databuf_init(&db, outfd);
- check_options(options);
+ if (am_has_feature(their_features, fe_req_xml))
+ xml_check_options(options); /* note: modifies globals */
+ else
+ check_options(options); /* note: modifies globals */
rc = startup_dump(hostname,
diskname,
level,
dumpdate,
progname,
+ amandad_path,
+ client_username,
+ client_port,
+ ssh_keys,
+ auth,
options);
if (rc != 0) {
- q = squote(errstr);
+ q = quote_string(errstr);
putresult(rc == 2? FAILED : TRYAGAIN, "%s %s\n",
handle, q);
if (rc == 2)
- log_add(L_FAIL, "%s %s %s %d [%s]", hostname, diskname,
- datestamp, level, errstr);
+ log_add(L_FAIL, "%s %s %s %d [%s]", hostname, qdiskname,
+ dumper_timestamp, level, errstr);
amfree(q);
} else {
- if (do_dump(&db)) {
- }
+ do_dump(&db);
+ /* try to clean up any defunct processes, since Amanda doesn't
+ wait() for them explicitly */
+ while(waitpid(-1, NULL, WNOHANG)> 0);
}
+
+ amfree(amandad_path);
+ amfree(client_username);
+ amfree(client_port);
+ amfree(device);
+ amfree(b64device);
+ amfree(qdiskname);
+ amfree(b64disk);
+
break;
default:
- if(cmdargs.argc >= 1) {
- q = squote(cmdargs.argv[1]);
- } else if(cmdargs.argc >= 0) {
- q = squote(cmdargs.argv[0]);
+ if(cmdargs->argc >= 1) {
+ q = quote_string(cmdargs->argv[0]);
} else {
- q = stralloc("(no input?)");
+ q = stralloc(_("(no input?)"));
}
putresult(BAD_COMMAND, "%s\n", q);
amfree(q);
if (outfd != -1)
aclose(outfd);
- } while(cmd != QUIT);
+ } while(cmdargs->cmd != QUIT);
+ free_cmdargs(cmdargs);
+ log_add(L_INFO, "pid-done %ld", (long)getpid());
+
+ am_release_feature_set(our_features);
+ amfree(our_feature_string);
amfree(errstr);
- amfree(datestamp);
+ amfree(dumper_timestamp);
amfree(handle);
amfree(hostname);
+ amfree(qdiskname);
amfree(diskname);
amfree(device);
amfree(dumpdate);
amfree(srv_decrypt_opt);
amfree(clnt_decrypt_opt);
amfree(options);
- amfree(config_dir);
- amfree(config_name);
-
- malloc_size_2 = malloc_inuse(&malloc_hist_2);
- if (malloc_size_1 != malloc_size_2)
- malloc_list(fileno(stderr), malloc_hist_1, malloc_hist_2);
-
- exit(0);
+ dbclose();
+ return (0); /* exit */
}
* Initialize a databuf. Takes a writeable file descriptor.
*/
static void
-databuf_init(db, fd)
- struct databuf *db;
- int fd;
+databuf_init(
+ struct databuf * db,
+ int fd)
{
db->fd = fd;
* any boundaries.
*/
static int
-databuf_write(db, buf, size)
- struct databuf *db;
- const void *buf;
- int size;
+databuf_write(
+ struct databuf * db,
+ const void * buf,
+ size_t size)
{
db->buf = (char *)buf;
db->datain = db->datalimit = db->buf + size;
* Write out the buffer to chunker.
*/
static int
-databuf_flush(db)
- struct databuf *db;
+databuf_flush(
+ struct databuf * db)
{
- int written;
+ size_t written;
+ char *m;
/*
* If there's no data, do nothing.
/*
* Write out the buffer
*/
- written = fullwrite(db->fd, db->dataout, db->datain - db->dataout);
+ written = full_write(db->fd, db->dataout,
+ (size_t)(db->datain - db->dataout));
if (written > 0) {
db->dataout += written;
- dumpbytes += written;
+ dumpbytes += (off_t)written;
}
- if (dumpbytes >= 1024) {
- dumpsize += (dumpbytes / 1024);
- dumpbytes %= 1024;
+ if (dumpbytes >= (off_t)1024) {
+ dumpsize += (dumpbytes / (off_t)1024);
+ dumpbytes %= (off_t)1024;
}
- if (written < 0) {
- errstr = squotef("data write: %s", strerror(errno));
+ if (written == 0) {
+ int save_errno = errno;
+ m = vstrallocf(_("data write: %s"), strerror(save_errno));
+ amfree(errstr);
+ errstr = quote_string(m);
+ amfree(m);
+ errno = save_errno;
return -1;
}
db->datain = db->dataout = db->buf;
static void
-process_dumpeof()
+process_dumpeof(void)
{
/* process any partial line in msgbuf? !!! */
add_msg_data(NULL, 0);
if(!ISSET(status, GOT_SIZELINE) && dump_result < 2) {
/* make a note if there isn't already a failure */
- fprintf(errf,
- "? %s: strange [missing size line from sendbackup]\n",
+ g_fprintf(errf,
+ _("? %s: strange [missing size line from sendbackup]\n"),
get_pname());
if(errstr == NULL) {
- errstr = stralloc("missing size line from sendbackup");
+ errstr = stralloc(_("missing size line from sendbackup"));
}
dump_result = max(dump_result, 2);
}
if(!ISSET(status, GOT_ENDLINE) && dump_result < 2) {
- fprintf(errf,
- "? %s: strange [missing end line from sendbackup]\n",
+ g_fprintf(errf,
+ _("? %s: strange [missing end line from sendbackup]\n"),
get_pname());
if(errstr == NULL) {
- errstr = stralloc("missing end line from sendbackup");
+ errstr = stralloc(_("missing end line from sendbackup"));
}
dump_result = max(dump_result, 2);
}
* of any duplicates.
*/
static void
-parse_info_line(str)
- char *str;
+parse_info_line(
+ char *str)
{
static const struct {
const char *name;
char *value;
size_t len;
} fields[] = {
- { "BACKUP", file.program, sizeof(file.program) },
- { "RECOVER_CMD", file.recover_cmd, sizeof(file.recover_cmd) },
- { "COMPRESS_SUFFIX", file.comp_suffix, sizeof(file.comp_suffix) },
- { "SERVER_CUSTOM_COMPRESS", file.srvcompprog, sizeof(file.srvcompprog) },
- { "CLIENT_CUSTOM_COMPRESS", file.clntcompprog, sizeof(file.clntcompprog) },
- { "SERVER_ENCRYPT", file.srv_encrypt, sizeof(file.srv_encrypt) },
- { "CLIENT_ENCRYPT", file.clnt_encrypt, sizeof(file.clnt_encrypt) },
- { "SERVER_DECRYPT_OPTION", file.srv_decrypt_opt, sizeof(file.srv_decrypt_opt) },
- { "CLIENT_DECRYPT_OPTION", file.clnt_decrypt_opt, sizeof(file.clnt_decrypt_opt) }
+ { "BACKUP", file.program, SIZEOF(file.program) },
+ { "APPLICATION", file.application, SIZEOF(file.application) },
+ { "RECOVER_CMD", file.recover_cmd, SIZEOF(file.recover_cmd) },
+ { "COMPRESS_SUFFIX", file.comp_suffix, SIZEOF(file.comp_suffix) },
+ { "SERVER_CUSTOM_COMPRESS", file.srvcompprog, SIZEOF(file.srvcompprog) },
+ { "CLIENT_CUSTOM_COMPRESS", file.clntcompprog, SIZEOF(file.clntcompprog) },
+ { "SERVER_ENCRYPT", file.srv_encrypt, SIZEOF(file.srv_encrypt) },
+ { "CLIENT_ENCRYPT", file.clnt_encrypt, SIZEOF(file.clnt_encrypt) },
+ { "SERVER_DECRYPT_OPTION", file.srv_decrypt_opt, SIZEOF(file.srv_decrypt_opt) },
+ { "CLIENT_DECRYPT_OPTION", file.clnt_decrypt_opt, SIZEOF(file.clnt_decrypt_opt) }
};
char *name, *value;
- int i;
+ size_t i;
if (strcmp(str, "end") == 0) {
SET(status, GOT_INFO_ENDLINE);
if (value == NULL)
return;
- for (i = 0; i < sizeof(fields) / sizeof(fields[0]); i++) {
+ for (i = 0; i < SIZEOF(fields) / SIZEOF(fields[0]); i++) {
if (strcmp(name, fields[i].name) == 0) {
strncpy(fields[i].value, value, fields[i].len - 1);
fields[i].value[fields[i].len - 1] = '\0';
}
static void
-process_dumpline(str)
- const char *str;
+process_dumpline(
+ const char * str)
{
char *buf, *tok;
if (tok == NULL)
goto bad_line;
- if (strcmp(tok, "start") == 0)
+ if (strcmp(tok, "start") == 0) {
break;
+ }
if (strcmp(tok, "size") == 0) {
tok = strtok(NULL, "");
if (tok != NULL) {
- origsize = (long)atof(tok);
+ origsize = OFF_T_ATOI(tok);
SET(status, GOT_SIZELINE);
}
break;
}
+ if (strcmp(tok, "no-op") == 0) {
+ amfree(buf);
+ return;
+ }
+
if (strcmp(tok, "end") == 0) {
SET(status, GOT_ENDLINE);
break;
dump_result = max(dump_result, 2);
tok = strtok(NULL, "");
- if (tok == NULL || *tok != '[') {
- errstr = newvstralloc(errstr, "bad remote error: ", str, NULL);
- } else {
- char *enderr;
-
- tok++; /* skip over '[' */
- if ((enderr = strchr(tok, ']')) != NULL)
- *enderr = '\0';
- errstr = newstralloc(errstr, tok);
+ if (!errstr) { /* report first error line */
+ if (tok == NULL || *tok != '[') {
+ errstr = newvstrallocf(errstr, _("bad remote error: %s"),
+ str);
+ } else {
+ char *enderr;
+
+ tok++; /* skip over '[' */
+ if ((enderr = strchr(tok, ']')) != NULL)
+ *enderr = '\0';
+ errstr = newstralloc(errstr, tok);
+ }
}
break;
}
default:
bad_line:
/* prefix with ?? */
- fprintf(errf, "??");
+ g_fprintf(errf, "??");
dump_result = max(dump_result, 1);
break;
}
- fprintf(errf, "%s\n", str);
+ g_fprintf(errf, "%s\n", str);
+ errf_lines++;
amfree(buf);
}
static void
-add_msg_data(str, len)
- const char *str;
- size_t len;
+add_msg_data(
+ const char * str,
+ size_t len)
{
- static struct {
- char *buf; /* buffer holding msg data */
- size_t size; /* size of alloced buffer */
- } msg = { NULL, 0 };
- char *line, *nl;
+ char *line, *ch;
size_t buflen;
if (msg.buf != NULL)
if (str == NULL) {
if (buflen == 0)
return;
- fprintf(errf,"? %s: error [partial line in msgbuf: %ld bytes]\n",
- get_pname(), (long)buflen);
- fprintf(errf,"? %s: error [partial line in msgbuf: \"%s\"]\n",
+ g_fprintf(errf,_("? %s: error [partial line in msgbuf: %zu bytes]\n"),
+ get_pname(), buflen);
+ g_fprintf(errf,_("? %s: error [partial line in msgbuf: \"%s\"]\n"),
get_pname(), msg.buf);
msg.buf[0] = '\0';
return;
/*
* Expand the buffer if it can't hold the new contents.
*/
- if (buflen + len + 1 > msg.size) {
+ if ((buflen + len + 1) > msg.size) {
char *newbuf;
size_t newsize;
/* round up to next y, where y is a power of 2 */
#define ROUND(x, y) (((x) + (y) - 1) & ~((y) - 1))
- newsize = ROUND(buflen + len + 1, 256);
+ newsize = ROUND(buflen + (ssize_t)len + 1, 256);
newbuf = alloc(newsize);
if (msg.buf != NULL) {
- strcpy(newbuf, msg.buf);
+ strncpy(newbuf, msg.buf, newsize);
amfree(msg.buf);
} else
newbuf[0] = '\0';
/*
* Process all lines in the buffer
+ * scanning line for unqouted newline.
*/
- for (line = msg.buf;;) {
- /*
- * If there's no newline, then we've only got a partial line.
- * We go back for more.
- */
- if ((nl = strchr(line, '\n')) == NULL)
- break;
- *nl = '\0';
- process_dumpline(line);
- line = nl + 1;
+ for (ch = line = msg.buf; *ch != '\0'; ch++) {
+ if (*ch == '\n') {
+ /*
+ * Found a newline. Terminate and process line.
+ */
+ *ch = '\0';
+ process_dumpline(line);
+ line = ch + 1;
+ }
}
/*
*/
if (*line != '\0') {
buflen = strlen(line);
- memmove(msg.buf, line, buflen + 1);
+ memmove(msg.buf, line, (size_t)buflen + 1);
} else {
msg.buf[0] = '\0';
}
}
-static void
-log_msgout(typ)
- logtype_t typ;
+static int
+log_msgout(
+ logtype_t typ)
{
char *line;
+ int count = 0;
fflush(errf);
- (void) fseek(errf, 0L, SEEK_SET);
+ if (fseeko(errf, 0L, SEEK_SET) < 0) {
+ dbprintf(_("log_msgout: warning - seek failed: %s\n"), strerror(errno));
+ }
while ((line = agets(errf)) != NULL) {
- log_add(typ, "%s", line);
+ if (errf_lines >= 100 && count >= 20)
+ break;
+ if (line[0] != '\0') {
+ log_add(typ, "%s", line);
+ }
amfree(line);
+ count++;
}
+ amfree(line);
- afclose(errf);
+ if (errf_lines >= 100) {
+ log_add(typ, "Look in the '%s' file for full error messages", errfname);
+ }
+
+ return errf_lines < 100;
}
/* ------------- */
* Fill in the rest of the tape header
*/
static void
-finish_tapeheader(file)
- dumpfile_t *file;
+finish_tapeheader(
+ dumpfile_t *file)
{
assert(ISSET(status, HEADER_DONE));
file->type = F_DUMPFILE;
- strncpy(file->datestamp, datestamp, sizeof(file->datestamp) - 1);
- strncpy(file->name, hostname, sizeof(file->name) - 1);
- strncpy(file->disk, diskname, sizeof(file->disk) - 1);
+ strncpy(file->datestamp, dumper_timestamp, sizeof(file->datestamp) - 1);
+ strncpy(file->name, hostname, SIZEOF(file->name) - 1);
+ strncpy(file->disk, diskname, SIZEOF(file->disk) - 1);
file->dumplevel = level;
+ file->blocksize = DISK_BLOCK_BYTES;
/*
* If we're doing the compression here, we need to override what
#ifndef UNCOMPRESS_OPT
#define UNCOMPRESS_OPT ""
#endif
- if (srvcompress == COMP_SERV_CUST) {
- snprintf(file->uncompress_cmd, sizeof(file->uncompress_cmd),
+ if (srvcompress == COMP_SERVER_CUST) {
+ g_snprintf(file->uncompress_cmd, SIZEOF(file->uncompress_cmd),
" %s %s |", srvcompprog, "-d");
- strcpy(file->comp_suffix, "cust");
- strncpy(file->srvcompprog, srvcompprog, sizeof(file->srvcompprog));
- file->srvcompprog[sizeof(file->srvcompprog)-1] = '\0';
+ strncpy(file->comp_suffix, "cust", SIZEOF(file->comp_suffix) - 1);
+ file->comp_suffix[SIZEOF(file->comp_suffix) - 1] = '\0';
+ strncpy(file->srvcompprog, srvcompprog, SIZEOF(file->srvcompprog) - 1);
+ file->srvcompprog[SIZEOF(file->srvcompprog) - 1] = '\0';
} else if ( srvcompress == COMP_CUST ) {
- snprintf(file->uncompress_cmd, sizeof(file->uncompress_cmd),
+ g_snprintf(file->uncompress_cmd, SIZEOF(file->uncompress_cmd),
" %s %s |", clntcompprog, "-d");
- strcpy(file->comp_suffix, "cust");
- strncpy(file->clntcompprog, clntcompprog, sizeof(file->clntcompprog));
- file->clntcompprog[sizeof(file->clntcompprog)-1] = '\0';
+ strncpy(file->comp_suffix, "cust", SIZEOF(file->comp_suffix) - 1);
+ file->comp_suffix[SIZEOF(file->comp_suffix) - 1] = '\0';
+ strncpy(file->clntcompprog, clntcompprog, SIZEOF(file->clntcompprog));
+ file->clntcompprog[SIZEOF(file->clntcompprog) - 1] = '\0';
} else {
- snprintf(file->uncompress_cmd, sizeof(file->uncompress_cmd),
+ g_snprintf(file->uncompress_cmd, SIZEOF(file->uncompress_cmd),
" %s %s |", UNCOMPRESS_PATH, UNCOMPRESS_OPT);
- strncpy(file->comp_suffix, COMPRESS_SUFFIX,sizeof(file->comp_suffix)-1);
- file->comp_suffix[sizeof(file->comp_suffix)-1] = '\0';
+ strncpy(file->comp_suffix, COMPRESS_SUFFIX,SIZEOF(file->comp_suffix) - 1);
+ file->comp_suffix[SIZEOF(file->comp_suffix) - 1] = '\0';
}
} else {
if (file->comp_suffix[0] == '\0') {
file->compressed = 0;
- assert(sizeof(file->comp_suffix) >= 2);
- strcpy(file->comp_suffix, "N");
+ assert(SIZEOF(file->comp_suffix) >= 2);
+ strncpy(file->comp_suffix, "N", SIZEOF(file->comp_suffix) - 1);
+ file->comp_suffix[SIZEOF(file->comp_suffix) - 1] = '\0';
} else {
file->compressed = 1;
}
if (srvencrypt != ENCRYPT_NONE) {
file->encrypted= 1;
if (srvencrypt == ENCRYPT_SERV_CUST) {
- snprintf(file->decrypt_cmd, sizeof(file->decrypt_cmd),
- " %s %s |", srv_encrypt, srv_decrypt_opt);
- strcpy(file->encrypt_suffix, "enc");
- strncpy(file->srv_encrypt, srv_encrypt, sizeof(file->srv_encrypt));
- file->srv_encrypt[sizeof(file->srv_encrypt)-1] = '\0';
- strncpy(file->srv_decrypt_opt, srv_decrypt_opt, sizeof(file->srv_decrypt_opt));
- file->srv_decrypt_opt[sizeof(file->srv_decrypt_opt)-1] = '\0';
+ if (srv_decrypt_opt) {
+ g_snprintf(file->decrypt_cmd, SIZEOF(file->decrypt_cmd),
+ " %s %s |", srv_encrypt, srv_decrypt_opt);
+ strncpy(file->srv_decrypt_opt, srv_decrypt_opt, SIZEOF(file->srv_decrypt_opt) - 1);
+ file->srv_decrypt_opt[SIZEOF(file->srv_decrypt_opt) - 1] = '\0';
+ } else {
+ g_snprintf(file->decrypt_cmd, SIZEOF(file->decrypt_cmd),
+ " %s |", srv_encrypt);
+ file->srv_decrypt_opt[0] = '\0';
+ }
+ strncpy(file->encrypt_suffix, "enc", SIZEOF(file->encrypt_suffix) - 1);
+ file->encrypt_suffix[SIZEOF(file->encrypt_suffix) - 1] = '\0';
+ strncpy(file->srv_encrypt, srv_encrypt, SIZEOF(file->srv_encrypt) - 1);
+ file->srv_encrypt[SIZEOF(file->srv_encrypt) - 1] = '\0';
} else if ( srvencrypt == ENCRYPT_CUST ) {
- snprintf(file->decrypt_cmd, sizeof(file->decrypt_cmd),
+ if (clnt_decrypt_opt) {
+ g_snprintf(file->decrypt_cmd, SIZEOF(file->decrypt_cmd),
+ " %s %s |", clnt_encrypt, clnt_decrypt_opt);
+ strncpy(file->clnt_decrypt_opt, clnt_decrypt_opt,
+ SIZEOF(file->clnt_decrypt_opt));
+ file->clnt_decrypt_opt[SIZEOF(file->clnt_decrypt_opt) - 1] = '\0';
+ } else {
+ g_snprintf(file->decrypt_cmd, SIZEOF(file->decrypt_cmd),
+ " %s |", clnt_encrypt);
+ file->clnt_decrypt_opt[0] = '\0';
+ }
+ g_snprintf(file->decrypt_cmd, SIZEOF(file->decrypt_cmd),
" %s %s |", clnt_encrypt, clnt_decrypt_opt);
- strcpy(file->encrypt_suffix, "enc");
- strncpy(file->clnt_encrypt, clnt_encrypt, sizeof(file->clnt_encrypt));
- file->clnt_encrypt[sizeof(file->clnt_encrypt)-1] = '\0';
- strncpy(file->clnt_decrypt_opt, clnt_decrypt_opt, sizeof(file->clnt_decrypt_opt));
- file->clnt_decrypt_opt[sizeof(file->clnt_decrypt_opt)-1] = '\0';
+ strncpy(file->encrypt_suffix, "enc", SIZEOF(file->encrypt_suffix) - 1);
+ file->encrypt_suffix[SIZEOF(file->encrypt_suffix) - 1] = '\0';
+ strncpy(file->clnt_encrypt, clnt_encrypt, SIZEOF(file->clnt_encrypt) - 1);
+ file->clnt_encrypt[SIZEOF(file->clnt_encrypt) - 1] = '\0';
}
} else {
if (file->encrypt_suffix[0] == '\0') {
file->encrypted = 0;
- assert(sizeof(file->encrypt_suffix) >= 2);
- strcpy(file->encrypt_suffix, "N");
+ assert(SIZEOF(file->encrypt_suffix) >= 2);
+ strncpy(file->encrypt_suffix, "N", SIZEOF(file->encrypt_suffix) - 1);
+ file->encrypt_suffix[SIZEOF(file->encrypt_suffix) - 1] = '\0';
} else {
file->encrypted= 1;
}
}
+ if (dle_str)
+ file->dle_str = stralloc(dle_str);
+ else
+ file->dle_str = NULL;
}
/*
* Send an Amanda dump header to the output file.
*/
-static int
-write_tapeheader(outfd, file)
- int outfd;
- dumpfile_t *file;
+static ssize_t
+write_tapeheader(
+ int outfd,
+ dumpfile_t *file)
{
- char buffer[DISK_BLOCK_BYTES];
- int written;
+ char * buffer;
+ size_t written;
- build_header(buffer, file, sizeof(buffer));
+ if (debug_dumper > 1)
+ dump_dumpfile_t(file);
+ buffer = build_header(file, NULL, DISK_BLOCK_BYTES);
+ if (!buffer) /* this shouldn't happen */
+ error(_("header does not fit in %zd bytes"), (size_t)DISK_BLOCK_BYTES);
+
+ written = full_write(outfd, buffer, DISK_BLOCK_BYTES);
+ amfree(buffer);
+ if(written == DISK_BLOCK_BYTES)
+ return 0;
- written = write(outfd, buffer, sizeof(buffer));
- if(written == sizeof(buffer)) return 0;
- if(written < 0) return written;
- errno = ENOSPC;
return -1;
}
+int indexout = -1;
+
static int
-do_dump(db)
- struct databuf *db;
+do_dump(
+ struct databuf *db)
{
char *indexfile_tmp = NULL;
char *indexfile_real = NULL;
char level_str[NUM_STR_SIZE];
+ char *time_str;
char *fn;
char *q;
times_t runtime;
double dumptime; /* Time dump took in secs */
- char *errfname = NULL;
- int indexout;
pid_t indexpid = -1;
+ char *m;
+ int to_unlink = 1;
startclock();
- dumpbytes = dumpsize = headersize = origsize = dump_result = 0;
+ if (msg.buf) msg.buf[0] = '\0'; /* reset msg buffer */
status = 0;
+ dump_result = 0;
+ dumpbytes = dumpsize = headersize = origsize = (off_t)0;
fh_init(&file);
- snprintf(level_str, sizeof(level_str), "%d", level);
+ g_snprintf(level_str, SIZEOF(level_str), "%d", level);
+ time_str = get_timestamp_from_time(0);
fn = sanitise_filename(diskname);
+ errf_lines = 0;
+ errfname = newvstralloc(errfname,
+ AMANDA_DBGDIR,
+ "/log.error", NULL);
+ mkdir(errfname, 0700);
errfname = newvstralloc(errfname,
- AMANDA_TMPDIR,
- "/", hostname,
+ AMANDA_DBGDIR,
+ "/log.error/", hostname,
".", fn,
".", level_str,
+ ".", time_str,
".errout",
NULL);
amfree(fn);
+ amfree(time_str);
if((errf = fopen(errfname, "w+")) == NULL) {
- errstr = newvstralloc(errstr,
- "errfile open \"", errfname, "\": ",
- strerror(errno),
- NULL);
+ errstr = newvstrallocf(errstr, "errfile open \"%s\": %s",
+ errfname, strerror(errno));
amfree(errfname);
goto failed;
}
- unlink(errfname); /* so it goes away on close */
- amfree(errfname);
if (streams[INDEXFD].fd != NULL) {
- indexfile_real = getindexfname(hostname, diskname, datestamp, level);
+ indexfile_real = getindexfname(hostname, diskname, dumper_timestamp, level);
indexfile_tmp = stralloc2(indexfile_real, ".tmp");
- if (mkpdir(indexfile_tmp, 02755, (uid_t)-1, (gid_t)-1) == -1) {
- errstr = newvstralloc(errstr,
- "err create ",
+ if (mkpdir(indexfile_tmp, 0755, (uid_t)-1, (gid_t)-1) == -1) {
+ errstr = newvstrallocf(errstr,
+ _("err create %s: %s"),
indexfile_tmp,
- ": ",
- strerror(errno),
- NULL);
+ strerror(errno));
amfree(indexfile_real);
amfree(indexfile_tmp);
goto failed;
}
indexout = open(indexfile_tmp, O_WRONLY | O_CREAT | O_TRUNC, 0600);
if (indexout == -1) {
- errstr = newvstralloc(errstr, "err open ", indexfile_tmp, ": ",
- strerror(errno), NULL);
+ errstr = newvstrallocf(errstr, _("err open %s: %s"),
+ indexfile_tmp, strerror(errno));
goto failed;
} else {
- if (runcompress(indexout, &indexpid, COMP_BEST) < 0) {
+ if (runcompress(indexout, &indexpid, COMP_BEST, "index compress") < 0) {
aclose(indexout);
goto failed;
}
* the header, we will start processing data too.
*/
security_stream_read(streams[MESGFD].fd, read_mesgfd, db);
+ set_datafd = 0;
/*
* Setup a read timeout
*/
event_loop(0);
+ if (!ISSET(status, HEADER_DONE)) {
+ dump_result = max(dump_result, 2);
+ if (!errstr) errstr = stralloc(_("got no header information"));
+ }
+
+ dumpsize -= headersize; /* don't count the header */
+ if (dumpsize <= (off_t)0 && data_path == DATA_PATH_AMANDA) {
+ dumpsize = (off_t)0;
+ dump_result = max(dump_result, 2);
+ if (!errstr) errstr = stralloc(_("got no data"));
+ }
+
+ if (data_path == DATA_PATH_DIRECTTCP) {
+ dumpsize = origsize;
+ }
+
+ if (!ISSET(status, HEADER_DONE)) {
+ dump_result = max(dump_result, 2);
+ if (!errstr) errstr = stralloc(_("got no header information"));
+ }
+
+ if (dumpsize == 0 && data_path == DATA_PATH_AMANDA) {
+ dump_result = max(dump_result, 2);
+ if (!errstr) errstr = stralloc(_("got no data"));
+ }
+
if (dump_result > 1)
goto failed;
runtime = stopclock();
- dumptime = runtime.r.tv_sec + runtime.r.tv_usec/1000000.0;
-
- dumpsize -= headersize; /* don't count the header */
- if (dumpsize < 0) dumpsize = 0; /* XXX - maybe this should be fatal? */
+ dumptime = g_timeval_to_double(runtime);
amfree(errstr);
errstr = alloc(128);
- snprintf(errstr, 128, "sec %s kb %ld kps %3.1f orig-kb %ld",
- walltime_str(runtime), dumpsize,
- dumptime ? dumpsize / dumptime : 0.0, origsize);
- q = squotef("[%s]", errstr);
- putresult(DONE, "%s %ld %ld %ld %s\n", handle, origsize, dumpsize,
- (long)(dumptime+0.5), q);
+ g_snprintf(errstr, 128, _("sec %s kb %lld kps %3.1lf orig-kb %lld"),
+ walltime_str(runtime),
+ (long long)dumpsize,
+ (isnormal(dumptime) ? ((double)dumpsize / (double)dumptime) : 0.0),
+ (long long)origsize);
+ m = vstrallocf("[%s]", errstr);
+ q = quote_string(m);
+ amfree(m);
+ putresult(DONE, _("%s %lld %lld %lu %s\n"), handle,
+ (long long)origsize,
+ (long long)dumpsize,
+ (unsigned long)((double)dumptime+0.5), q);
amfree(q);
switch(dump_result) {
case 0:
- log_add(L_SUCCESS, "%s %s %s %d [%s]", hostname, diskname, datestamp, level, errstr);
+ log_add(L_SUCCESS, "%s %s %s %d [%s]", hostname, qdiskname, dumper_timestamp, level, errstr);
break;
case 1:
log_start_multiline();
- log_add(L_STRANGE, "%s %s %d [%s]", hostname, diskname, level, errstr);
- log_msgout(L_STRANGE);
+ log_add(L_STRANGE, "%s %s %d [%s]", hostname, qdiskname, level, errstr);
+ to_unlink = log_msgout(L_STRANGE);
log_end_multiline();
break;
}
- if (errf) afclose(errf);
+ if (errf)
+ afclose(errf);
+ if (errfname) {
+ if (to_unlink)
+ unlink(errfname);
+ amfree(errfname);
+ }
+
+ if (data_path == DATA_PATH_AMANDA)
+ aclose(db->fd);
- aclose(db->fd);
if (indexfile_tmp) {
amwait_t index_status;
- aclose(indexout);
+ /*@i@*/ aclose(indexout);
waitpid(indexpid,&index_status,0);
+ log_add(L_INFO, "pid-done %ld", (long)indexpid);
if (rename(indexfile_tmp, indexfile_real) != 0) {
- log_add(L_WARNING, "could not rename \"%s\" to \"%s\": %s",
+ log_add(L_WARNING, _("could not rename \"%s\" to \"%s\": %s"),
indexfile_tmp, indexfile_real, strerror(errno));
}
amfree(indexfile_tmp);
if(db->compresspid != -1) {
waitpid(db->compresspid,NULL,0);
+ log_add(L_INFO, "pid-done %ld", (long)db->compresspid);
}
if(db->encryptpid != -1) {
waitpid(db->encryptpid,NULL,0);
+ log_add(L_INFO, "pid-done %ld", (long)db->encryptpid);
}
amfree(errstr);
+ dumpfile_free_data(&file);
return 1;
failed:
- q = squotef("[%s]", errstr);
+ m = vstrallocf("[%s]", errstr);
+ q = quote_string(m);
putresult(FAILED, "%s %s\n", handle, q);
amfree(q);
+ amfree(m);
aclose(db->fd);
/* kill all child process */
if (db->compresspid != -1) {
- fprintf(stderr,"%s: kill compress command\n",get_pname());
+ g_fprintf(stderr,_("%s: kill compress command\n"),get_pname());
if (kill(db->compresspid, SIGTERM) < 0) {
- if (errno != ESRCH)
- fprintf(stderr,"%s: can't kill compress command: %s\n",
+ if (errno != ESRCH) {
+ g_fprintf(stderr,_("%s: can't kill compress command: %s\n"),
get_pname(), strerror(errno));
+ } else {
+ log_add(L_INFO, "pid-done %ld", (long)db->compresspid);
+ }
}
else {
waitpid(db->compresspid,NULL,0);
+ log_add(L_INFO, "pid-done %ld", (long)db->compresspid);
}
}
if (db->encryptpid != -1) {
- fprintf(stderr,"%s: kill encrypt command\n",get_pname());
+ g_fprintf(stderr,_("%s: kill encrypt command\n"),get_pname());
if (kill(db->encryptpid, SIGTERM) < 0) {
- if (errno != ESRCH)
- fprintf(stderr,"%s: can't kill encrypt command: %s\n",
+ if (errno != ESRCH) {
+ g_fprintf(stderr,_("%s: can't kill encrypt command: %s\n"),
get_pname(), strerror(errno));
+ } else {
+ log_add(L_INFO, "pid-done %ld", (long)db->encryptpid);
+ }
}
else {
waitpid(db->encryptpid,NULL,0);
+ log_add(L_INFO, "pid-done %ld", (long)db->encryptpid);
}
}
if (indexpid != -1) {
- fprintf(stderr,"%s: kill index command\n",get_pname());
+ g_fprintf(stderr,_("%s: kill index command\n"),get_pname());
if (kill(indexpid, SIGTERM) < 0) {
- if (errno != ESRCH)
- fprintf(stderr,"%s: can't kill index command: %s\n",
+ if (errno != ESRCH) {
+ g_fprintf(stderr,_("%s: can't kill index command: %s\n"),
get_pname(),strerror(errno));
+ } else {
+ log_add(L_INFO, "pid-done %ld", (long)indexpid);
+ }
}
else {
waitpid(indexpid,NULL,0);
+ log_add(L_INFO, "pid-done %ld", (long)indexpid);
}
}
log_start_multiline();
- log_add(L_FAIL, "%s %s %s %d [%s]", hostname, diskname, datestamp,
+ log_add(L_FAIL, _("%s %s %s %d [%s]"), hostname, qdiskname, dumper_timestamp,
level, errstr);
if (errf) {
- log_msgout(L_FAIL);
+ to_unlink = log_msgout(L_FAIL);
}
log_end_multiline();
- if (errf) afclose(errf);
+ if (errf)
+ afclose(errf);
+ if (errfname) {
+ if (to_unlink)
+ unlink(errfname);
+ amfree(errfname);
+ }
if (indexfile_tmp) {
unlink(indexfile_tmp);
* Callback for reads on the mesgfd stream
*/
static void
-read_mesgfd(cookie, buf, size)
- void *cookie, *buf;
- ssize_t size;
+read_mesgfd(
+ void * cookie,
+ void * buf,
+ ssize_t size)
{
struct databuf *db = cookie;
switch (size) {
case -1:
- errstr = newstralloc2(errstr, "mesg read: ",
+ errstr = newvstrallocf(errstr, _("mesg read: %s"),
security_stream_geterror(streams[MESGFD].fd));
dump_result = 2;
stop_dump();
return;
+
case 0:
/*
* EOF. Just shut down the mesg stream.
/*
* If the data fd and index fd has also shut down, then we're done.
*/
- if (streams[DATAFD].fd == NULL && streams[INDEXFD].fd == NULL)
+ if ((set_datafd == 0 || streams[DATAFD].fd == NULL) &&
+ streams[INDEXFD].fd == NULL)
stop_dump();
return;
+
default:
assert(buf != NULL);
- add_msg_data(buf, size);
+ add_msg_data(buf, (size_t)size);
security_stream_read(streams[MESGFD].fd, read_mesgfd, cookie);
break;
}
- /*
- * Reset the timeout for future reads
- */
- timeout(conf_dtimeout);
-
if (ISSET(status, GOT_INFO_ENDLINE) && !ISSET(status, HEADER_DONE)) {
+ /* Use the first in the dataport_list */
+ in_port_t data_port;
+ char *data_host = dataport_list;
+ char *s;
+
+ s = strchr(dataport_list, ',');
+ if (s) *s = '\0'; /* use first data_port */
+ s = strrchr(dataport_list, ':');
+ *s = '\0';
+ s++;
+ data_port = atoi(s);
+
SET(status, HEADER_DONE);
/* time to do the header */
finish_tapeheader(&file);
if (write_tapeheader(db->fd, &file)) {
- errstr = newstralloc2(errstr, "write_tapeheader: ",
+ errstr = newvstrallocf(errstr, _("write_tapeheader: %s"),
strerror(errno));
dump_result = 2;
stop_dump();
+ dumpfile_free_data(&file);
return;
}
- dumpsize += DISK_BLOCK_KB;
- headersize += DISK_BLOCK_KB;
+ dumpfile_free_data(&file);
+ aclose(db->fd);
+ if (data_path == DATA_PATH_AMANDA) {
+ g_debug(_("Sending data to %s:%d\n"), data_host, data_port);
+ db->fd = stream_client(data_host, data_port,
+ STREAM_BUFSIZE, 0, NULL, 0);
+ if (db->fd == -1) {
+ errstr = newvstrallocf(errstr,
+ _("Can't open data output stream: %s"),
+ strerror(errno));
+ dump_result = 2;
+ stop_dump();
+ return;
+ }
+ }
+
+ dumpsize += (off_t)DISK_BLOCK_KB;
+ headersize += (off_t)DISK_BLOCK_KB;
if (srvencrypt == ENCRYPT_SERV_CUST) {
if (runencrypt(db->fd, &db->encryptpid, srvencrypt) < 0) {
* reading the datafd.
*/
if ((srvcompress != COMP_NONE) && (srvcompress != COMP_CUST)) {
- if (runcompress(db->fd, &db->compresspid, srvcompress) < 0) {
+ if (runcompress(db->fd, &db->compresspid, srvcompress, "data compress") < 0) {
dump_result = 2;
stop_dump();
return;
}
}
security_stream_read(streams[DATAFD].fd, read_datafd, db);
+ set_datafd = 1;
}
+
+ /*
+ * Reset the timeout for future reads
+ */
+ timeout(conf_dtimeout);
}
/*
* Callback for reads on the datafd stream
*/
static void
-read_datafd(cookie, buf, size)
- void *cookie, *buf;
- ssize_t size;
+read_datafd(
+ void * cookie,
+ void * buf,
+ ssize_t size)
{
struct databuf *db = cookie;
* The read failed. Error out
*/
if (size < 0) {
- errstr = newstralloc2(errstr, "data read: ",
+ errstr = newvstrallocf(errstr, _("data read: %s"),
security_stream_geterror(streams[DATAFD].fd));
dump_result = 2;
+ aclose(db->fd);
stop_dump();
return;
}
- /*
- * Reset the timeout for future reads
- */
- timeout(conf_dtimeout);
-
/* The header had better be written at this point */
assert(ISSET(status, HEADER_DONE));
*/
if (size == 0) {
databuf_flush(db);
- if (dumpbytes) {
- dumpsize++;
+ if (dumpbytes != (off_t)0) {
+ dumpsize += (off_t)1;
}
security_stream_close(streams[DATAFD].fd);
streams[DATAFD].fd = NULL;
+ aclose(db->fd);
/*
* If the mesg fd and index fd has also shut down, then we're done.
*/
* more data.
*/
assert(buf != NULL);
- if (databuf_write(db, buf, size) < 0) {
- errstr = newstralloc2(errstr, "data write: ", strerror(errno));
+ if (databuf_write(db, buf, (size_t)size) < 0) {
+ int save_errno = errno;
+ errstr = newvstrallocf(errstr, _("data write: %s"), strerror(save_errno));
dump_result = 2;
stop_dump();
return;
}
+
+ /*
+ * Reset the timeout for future reads
+ */
+ timeout(conf_dtimeout);
+
security_stream_read(streams[DATAFD].fd, read_datafd, cookie);
}
* Callback for reads on the index stream
*/
static void
-read_indexfd(cookie, buf, size)
- void *cookie, *buf;
- ssize_t size;
+read_indexfd(
+ void * cookie,
+ void * buf,
+ ssize_t size)
{
int fd;
fd = *(int *)cookie;
if (size < 0) {
- errstr = newstralloc2(errstr, "index read: ",
+ errstr = newvstrallocf(errstr, _("index read: %s"),
security_stream_geterror(streams[INDEXFD].fd));
dump_result = 2;
stop_dump();
/*
* If the mesg fd has also shut down, then we're done.
*/
- if (streams[DATAFD].fd == NULL && streams[MESGFD].fd == NULL)
+ if ((set_datafd == 0 || streams[DATAFD].fd == NULL) &&
+ streams[MESGFD].fd == NULL)
stop_dump();
+ aclose(indexout);
return;
}
/*
* We ignore error while writing to the index file.
*/
- if (fullwrite(fd, buf, size) < 0) {
+ if (full_write(fd, buf, (size_t)size) < (size_t)size) {
/* Ignore error, but schedule another read. */
if(indexfderror == 0) {
indexfderror = 1;
- log_add(L_INFO, "Index corrupted for %s:%s", hostname, diskname);
+ log_add(L_INFO, _("Index corrupted for %s:%s"), hostname, qdiskname);
}
}
security_stream_read(streams[INDEXFD].fd, read_indexfd, cookie);
}
+static void
+handle_filter_stderr(
+ void *cookie)
+{
+ filter_t *filter = cookie;
+ ssize_t nread;
+ char *b, *p;
+ gint64 len;
+
+ event_release(filter->event);
+
+ if (filter->buffer == NULL) {
+ /* allocate initial buffer */
+ filter->buffer = g_malloc(2048);
+ filter->first = 0;
+ filter->size = 0;
+ filter->allocated_size = 2048;
+ } else if (filter->first > 0) {
+ if (filter->allocated_size - filter->size - filter->first < 1024) {
+ memmove(filter->buffer, filter->buffer + filter->first,
+ filter->size);
+ filter->first = 0;
+ }
+ } else if (filter->allocated_size - filter->size < 1024) {
+ /* double the size of the buffer */
+ filter->allocated_size *= 2;
+ filter->buffer = g_realloc(filter->buffer, filter->allocated_size);
+ }
+
+ nread = read(filter->fd, filter->buffer + filter->first + filter->size,
+ filter->allocated_size - filter->first - filter->size - 2);
+
+ if (nread != 0) {
+ dump_result = max(dump_result, 2);
+ }
+
+ if (nread <= 0) {
+ aclose(filter->fd);
+ if (filter->size > 0 && filter->buffer[filter->first + filter->size - 1] != '\n') {
+ /* Add a '\n' at end of buffer */
+ filter->buffer[filter->first + filter->size] = '\n';
+ filter->size++;
+ }
+ } else {
+ filter->size += nread;
+ }
+
+ /* process all complete lines */
+ b = filter->buffer + filter->first;
+ filter->buffer[filter->first + filter->size] = '\0';
+ while (b < filter->buffer + filter->first + filter->size &&
+ (p = strchr(b, '\n')) != NULL) {
+ *p = '\0';
+ g_fprintf(errf, _("? %s: %s\n"), filter->name, b);
+ if (errstr == NULL) {
+ errstr = stralloc(b);
+ }
+ len = p - b + 1;
+ filter->first += len;
+ filter->size -= len;
+ b = p + 1;
+ }
+
+ if (nread <= 0) {
+ g_free(filter->buffer);
+ g_free(filter);
+ } else {
+ filter->event = event_register((event_id_t)filter->fd, EV_READFD,
+ handle_filter_stderr, filter);
+ }
+}
+
/*
* Startup a timeout in the event handler. If the arg is 0,
* then remove the timeout.
*/
static void
-timeout(seconds)
- int seconds;
+timeout(
+ time_t seconds)
{
static event_handle_t *ev_timeout = NULL;
* Now, schedule a new one if 'seconds' is greater than 0
*/
if (seconds > 0)
- ev_timeout = event_register(seconds, EV_TIME, timeout_callback, NULL);
+ ev_timeout = event_register((event_id_t)seconds, EV_TIME, timeout_callback, NULL);
}
/*
* have a data timeout.
*/
static void
-timeout_callback(unused)
- void *unused;
+timeout_callback(
+ void * unused)
{
+ (void)unused; /* Quiet unused parameter warning */
+
assert(unused == NULL);
- errstr = newstralloc(errstr, "data timeout");
+ errstr = newstralloc(errstr, _("data timeout"));
dump_result = 2;
stop_dump();
}
* will exit.
*/
static void
-stop_dump()
+stop_dump(void)
{
- int i;
+ int i;
+ struct cmdargs *cmdargs = NULL;
+
+ /* Check if I have a pending ABORT command */
+ cmdargs = get_pending_cmd();
+ if (cmdargs) {
+ if (cmdargs->cmd != ABORT) {
+ error(_("beurk %d"), cmdargs->cmd);
+ }
+ amfree(errstr);
+ errstr = stralloc(cmdargs->argv[1]);
+ free_cmdargs(cmdargs);
+ }
for (i = 0; i < NSTREAMS; i++) {
if (streams[i].fd != NULL) {
streams[i].fd = NULL;
}
}
+ aclose(indexout);
timeout(0);
}
* process.
*/
static int
-runcompress(outfd, pid, comptype)
- int outfd;
- pid_t *pid;
- comp_t comptype;
+runcompress(
+ int outfd,
+ pid_t * pid,
+ comp_t comptype,
+ char *name)
{
int outpipe[2], rval;
+ int errpipe[2];
+ filter_t *filter;
assert(outfd >= 0);
assert(pid != NULL);
/* outpipe[0] is pipe's stdin, outpipe[1] is stdout. */
if (pipe(outpipe) < 0) {
- errstr = newstralloc2(errstr, "pipe: ", strerror(errno));
+ errstr = newvstrallocf(errstr, _("pipe: %s"), strerror(errno));
+ return (-1);
+ }
+
+ /* errpipe[0] is pipe's output, outpipe[1] is input. */
+ if (pipe(errpipe) < 0) {
+ errstr = newvstrallocf(errstr, _("pipe: %s"), strerror(errno));
return (-1);
}
switch (*pid = fork()) {
case -1:
- errstr = newstralloc2(errstr, "couldn't fork: ", strerror(errno));
+ errstr = newvstrallocf(errstr, _("couldn't fork: %s"), strerror(errno));
aclose(outpipe[0]);
aclose(outpipe[1]);
+ aclose(errpipe[0]);
+ aclose(errpipe[1]);
return (-1);
default:
rval = dup2(outpipe[1], outfd);
if (rval < 0)
- errstr = newstralloc2(errstr, "couldn't dup2: ", strerror(errno));
+ errstr = newvstrallocf(errstr, _("couldn't dup2: %s"), strerror(errno));
aclose(outpipe[1]);
aclose(outpipe[0]);
+ aclose(errpipe[1]);
+ filter = g_new0(filter_t, 1);
+ filter->fd = errpipe[0];
+ filter->name = name;
+ filter->buffer = NULL;
+ filter->size = 0;
+ filter->allocated_size = 0;
+ filter->event = event_register((event_id_t)filter->fd, EV_READFD,
+ handle_filter_stderr, filter);
+g_debug("event register %s %d", name, filter->fd);
return (rval);
case 0:
- if (dup2(outpipe[0], 0) < 0)
- error("err dup2 in: %s", strerror(errno));
- if (dup2(outfd, 1) == -1)
- error("err dup2 out: %s", strerror(errno));
- safe_fd(-1, 0);
- if (comptype != COMP_SERV_CUST) {
+ close(outpipe[1]);
+ close(errpipe[0]);
+ if (dup2(outpipe[0], 0) < 0) {
+ error(_("err dup2 in: %s"), strerror(errno));
+ /*NOTREACHED*/
+ }
+ if (dup2(outfd, 1) == -1) {
+ error(_("err dup2 out: %s"), strerror(errno));
+ /*NOTREACHED*/
+ }
+ if (dup2(errpipe[1], 2) == -1) {
+ error(_("err dup2 err: %s"), strerror(errno));
+ /*NOTREACHED*/
+ }
+ if (comptype != COMP_SERVER_CUST) {
+ char *base = stralloc(COMPRESS_PATH);
+ log_add(L_INFO, "%s pid %ld", basename(base), (long)getpid());
+ amfree(base);
+ safe_fd(-1, 0);
+ set_root_privs(-1);
execlp(COMPRESS_PATH, COMPRESS_PATH, ( comptype == COMP_BEST ?
- COMPRESS_BEST_OPT : COMPRESS_FAST_OPT), NULL);
- error("error: couldn't exec %s: %s", COMPRESS_PATH, strerror(errno));
+ COMPRESS_BEST_OPT : COMPRESS_FAST_OPT), (char *)NULL);
+ error(_("error: couldn't exec %s: %s"), COMPRESS_PATH, strerror(errno));
+ /*NOTREACHED*/
} else if (*srvcompprog) {
+ char *base = stralloc(srvcompprog);
+ log_add(L_INFO, "%s pid %ld", basename(base), (long)getpid());
+ amfree(base);
+ safe_fd(-1, 0);
+ set_root_privs(-1);
execlp(srvcompprog, srvcompprog, (char *)0);
- error("error: couldn't exec server custom filter%s.\n", srvcompprog);
+ error(_("error: couldn't exec server custom compression '%s'.\n"), srvcompprog);
+ /*NOTREACHED*/
}
}
- /* NOTREACHED */
+ /*NOTREACHED*/
return (-1);
}
* process.
*/
static int
-runencrypt(outfd, pid, encrypttype)
- int outfd;
- pid_t *pid;
- encrypt_t encrypttype;
+runencrypt(
+ int outfd,
+ pid_t * pid,
+ encrypt_t encrypttype)
{
int outpipe[2], rval;
+ int errpipe[2];
+ filter_t *filter;
assert(outfd >= 0);
assert(pid != NULL);
/* outpipe[0] is pipe's stdin, outpipe[1] is stdout. */
if (pipe(outpipe) < 0) {
- errstr = newstralloc2(errstr, "pipe: ", strerror(errno));
+ errstr = newvstrallocf(errstr, _("pipe: %s"), strerror(errno));
+ return (-1);
+ }
+
+ /* errpipe[0] is pipe's output, outpipe[1] is input. */
+ if (pipe(errpipe) < 0) {
+ errstr = newvstrallocf(errstr, _("pipe: %s"), strerror(errno));
return (-1);
}
switch (*pid = fork()) {
case -1:
- errstr = newstralloc2(errstr, "couldn't fork: ", strerror(errno));
+ errstr = newvstrallocf(errstr, _("couldn't fork: %s"), strerror(errno));
aclose(outpipe[0]);
aclose(outpipe[1]);
+ aclose(errpipe[0]);
+ aclose(errpipe[1]);
return (-1);
default:
rval = dup2(outpipe[1], outfd);
if (rval < 0)
- errstr = newstralloc2(errstr, "couldn't dup2: ", strerror(errno));
+ errstr = newvstrallocf(errstr, _("couldn't dup2: %s"), strerror(errno));
aclose(outpipe[1]);
aclose(outpipe[0]);
+ aclose(errpipe[1]);
+ filter = g_new0(filter_t, 1);
+ filter->fd = errpipe[0];
+ filter->name = "encrypt";
+ filter->buffer = NULL;
+ filter->size = 0;
+ filter->allocated_size = 0;
+ filter->event = event_register((event_id_t)filter->fd, EV_READFD,
+ handle_filter_stderr, filter);
+g_debug("event register %s %d", "encrypt data", filter->fd);
return (rval);
- case 0:
- if (dup2(outpipe[0], 0) < 0)
- error("err dup2 in: %s", strerror(errno));
- if (dup2(outfd, 1) < 0 )
- error("err dup2 out: %s", strerror(errno));
+ case 0: {
+ char *base;
+ if (dup2(outpipe[0], 0) < 0) {
+ error(_("err dup2 in: %s"), strerror(errno));
+ /*NOTREACHED*/
+ }
+ if (dup2(outfd, 1) < 0 ) {
+ error(_("err dup2 out: %s"), strerror(errno));
+ /*NOTREACHED*/
+ }
+ if (dup2(errpipe[1], 2) == -1) {
+ error(_("err dup2 err: %s"), strerror(errno));
+ /*NOTREACHED*/
+ }
+ close(errpipe[0]);
+ base = stralloc(srv_encrypt);
+ log_add(L_INFO, "%s pid %ld", basename(base), (long)getpid());
+ amfree(base);
safe_fd(-1, 0);
if ((encrypttype == ENCRYPT_SERV_CUST) && *srv_encrypt) {
+ set_root_privs(-1);
execlp(srv_encrypt, srv_encrypt, (char *)0);
- error("error: couldn't exec server encryption%s.\n", srv_encrypt);
+ error(_("error: couldn't exec server custom encryption '%s'.\n"), srv_encrypt);
+ /*NOTREACHED*/
+ }
}
}
- /* NOTREACHED */
+ /*NOTREACHED*/
return (-1);
}
/* -------------------- */
static void
-sendbackup_response(datap, pkt, sech)
- void *datap;
- pkt_t *pkt;
- security_handle_t *sech;
+sendbackup_response(
+ void * datap,
+ pkt_t * pkt,
+ security_handle_t * sech)
{
int ports[NSTREAMS], *response_error = datap, i;
char *p;
char *tok;
- char *tok_end;
- char *extra = NULL;
+ char *extra;
assert(response_error != NULL);
assert(sech != NULL);
+ security_close_connection(sech, hostname);
+
if (pkt == NULL) {
- errstr = newvstralloc(errstr, "[request failed: ",
- security_geterror(sech), "]", NULL);
+ errstr = newvstrallocf(errstr, _("[request failed: %s]"),
+ security_geterror(sech));
*response_error = 1;
return;
}
+ extra = NULL;
+ memset(ports, 0, SIZEOF(ports));
if (pkt->type == P_NAK) {
#if defined(PACKET_DEBUG)
- fprintf(stderr, "got nak response:\n----\n%s\n----\n\n", pkt->body);
+ g_fprintf(stderr, _("got nak response:\n----\n%s\n----\n\n"), pkt->body);
#endif
tok = strtok(pkt->body, " ");
tok = strtok(NULL, "\n");
if (tok != NULL) {
- errstr = newvstralloc(errstr, "NAK: ", tok, NULL);
+ errstr = newvstrallocf(errstr, "NAK: %s", tok);
*response_error = 1;
} else {
bad_nak:
- errstr = newstralloc(errstr, "request NAK");
+ errstr = newvstrallocf(errstr, "request NAK");
*response_error = 2;
}
return;
}
if (pkt->type != P_REP) {
- errstr = newvstralloc(errstr, "received strange packet type ",
- pkt_type2str(pkt->type), ": ", pkt->body, NULL);
+ errstr = newvstrallocf(errstr, _("received strange packet type %s: %s"),
+ pkt_type2str(pkt->type), pkt->body);
*response_error = 1;
return;
}
-#if defined(PACKET_DEBUG)
- fprintf(stderr, "got response:\n----\n%s\n----\n\n", pkt->body);
-#endif
+ dbprintf(_("got response:\n----\n%s\n----\n\n"), pkt->body);
for(i = 0; i < NSTREAMS; i++) {
ports[i] = -1;
if (strcmp(tok, "ERROR") == 0) {
tok = strtok(NULL, "\n");
if (tok == NULL)
- tok = "[bogus error packet]";
- errstr = newstralloc(errstr, tok);
+ tok = _("[bogus error packet]");
+ errstr = newvstrallocf(errstr, "%s", tok);
*response_error = 2;
return;
}
for (i = 0; i < NSTREAMS; i++) {
tok = strtok(NULL, " ");
if (tok == NULL || strcmp(tok, streams[i].name) != 0) {
- extra = vstralloc("CONNECT token is \"",
- tok ? tok : "(null)",
- "\": expected \"",
- streams[i].name,
- "\"",
- NULL);
+ extra = vstrallocf(
+ _("CONNECT token is \"%s\": expected \"%s\""),
+ tok ? tok : "(null)",
+ streams[i].name);
goto parse_error;
}
tok = strtok(NULL, " \n");
if (tok == NULL || sscanf(tok, "%d", &ports[i]) != 1) {
- extra = vstralloc("CONNECT ",
- streams[i].name,
- " token is \"",
- tok ? tok : "(null)",
- "\": expected a port number",
- NULL);
+ extra = vstrallocf(
+ _("CONNECT %s token is \"%s\": expected a port number"),
+ streams[i].name, tok ? tok : "(null)");
goto parse_error;
}
}
if (strcmp(tok, "OPTIONS") == 0) {
tok = strtok(NULL, "\n");
if (tok == NULL) {
- extra = stralloc("OPTIONS token is missing");
+ extra = vstrallocf(_("OPTIONS token is missing"));
goto parse_error;
}
- tok_end = tok + strlen(tok);
while((p = strchr(tok, ';')) != NULL) {
+ char ch;
*p++ = '\0';
-#define sc "features="
- if(strncmp(tok, sc, sizeof(sc)-1) == 0) {
- tok += sizeof(sc) - 1;
-#undef sc
+ if(strncmp_const_skip(tok, "features=", tok, ch) == 0) {
+ char *u = strchr(tok, ';');
+ if (u)
+ *u = '\0';
am_release_feature_set(their_features);
if((their_features = am_string_to_feature(tok)) == NULL) {
- errstr = newvstralloc(errstr,
- "OPTIONS: bad features value: ",
- tok,
- NULL);
+ errstr = newvstrallocf(errstr,
+ _("OPTIONS: bad features value: %s"),
+ tok);
goto parse_error;
}
+ if (u)
+ *u = ';';
}
tok = p;
}
continue;
}
- extra = vstralloc("next token is \"",
- tok ? tok : "(null)",
- "\": expected \"CONNECT\", \"ERROR\" or \"OPTIONS\"",
- NULL);
+ extra = vstrallocf(_("next token is \"%s\": expected \"CONNECT\", \"ERROR\" or \"OPTIONS\""),
+ tok ? tok : "(null)");
goto parse_error;
}
+ if (dumper_kencrypt == KENCRYPT_WILL_DO)
+ dumper_kencrypt = KENCRYPT_YES;
+
/*
* Connect the streams to their remote ports
*/
continue;
streams[i].fd = security_stream_client(sech, ports[i]);
if (streams[i].fd == NULL) {
- errstr = newvstralloc(errstr,
- "[could not connect ", streams[i].name, " stream: ",
- security_geterror(sech), "]", NULL);
+ errstr = newvstrallocf(errstr,
+ _("[could not connect %s stream: %s]"),
+ streams[i].name,
+ security_geterror(sech));
goto connect_error;
}
}
for (i = 0; i < NSTREAMS; i++) {
if (streams[i].fd == NULL)
continue;
-#ifdef KRB4_SECURITY
- /*
- * XXX krb4 historically never authenticated the index stream!
- * We need to reproduce this lossage here to preserve compatibility
- * with old clients.
- * It is wrong to delve into sech, but we have no choice here.
- */
- if (strcasecmp(sech->driver->name, "krb4") != 0 && i == INDEXFD)
- continue;
-#endif
if (security_stream_auth(streams[i].fd) < 0) {
- errstr = newvstralloc(errstr,
- "[could not authenticate ", streams[i].name, " stream: ",
- security_stream_geterror(streams[i].fd), "]", NULL);
+ errstr = newvstrallocf(errstr,
+ _("[could not authenticate %s stream: %s]"),
+ streams[i].name,
+ security_stream_geterror(streams[i].fd));
goto connect_error;
}
}
* them, complain.
*/
if (streams[MESGFD].fd == NULL || streams[DATAFD].fd == NULL) {
- errstr = newstralloc(errstr, "[couldn't open MESG or INDEX streams]");
+ errstr = newvstrallocf(errstr, _("[couldn't open MESG or INDEX streams]"));
goto connect_error;
}
return;
parse_error:
- errstr = newvstralloc(errstr,
- "[parse of reply message failed: ",
- extra ? extra : "(no additional information)",
- "]",
- NULL);
+ errstr = newvstrallocf(errstr,
+ _("[parse of reply message failed: %s]"),
+ extra ? extra : _("(no additional information)"));
amfree(extra);
*response_error = 2;
return;
*response_error = 1;
}
+static char *
+dumper_get_security_conf(
+ char * string,
+ void * arg)
+{
+ (void)arg; /* Quiet unused parameter warning */
+
+ if(!string || !*string)
+ return(NULL);
+
+ if(strcmp(string, "krb5principal")==0) {
+ return(getconf_str(CNF_KRB5PRINCIPAL));
+ } else if(strcmp(string, "krb5keytab")==0) {
+ return(getconf_str(CNF_KRB5KEYTAB));
+ } else if(strcmp(string, "amandad_path")==0) {
+ return (amandad_path);
+ } else if(strcmp(string, "client_username")==0) {
+ return (client_username);
+ } else if(strcmp(string, "client_port")==0) {
+ return (client_port);
+ } else if(strcmp(string, "ssh_keys")==0) {
+ return (ssh_keys);
+ } else if(strcmp(string, "kencrypt")==0) {
+ if (dumper_kencrypt == KENCRYPT_YES)
+ return ("yes");
+ else
+ return (NULL);
+ }
+ return(NULL);
+}
+
static int
-startup_dump(hostname, disk, device, level, dumpdate, progname, options)
- const char *hostname, *disk, *device, *dumpdate, *progname, *options;
- int level;
+startup_dump(
+ const char *hostname,
+ const char *disk,
+ const char *device,
+ int level,
+ const char *dumpdate,
+ const char *progname,
+ const char *amandad_path,
+ const char *client_username,
+ const char *client_port,
+ const char *ssh_keys,
+ const char *auth,
+ const char *options)
{
char level_string[NUM_STR_SIZE];
char *req = NULL;
- char *authopt, *endauthopt, authoptbuf[64];
+ char *authopt;
int response_error;
const security_driver_t *secdrv;
- char *dumper_api;
-
- int has_features = am_has_feature(their_features, fe_req_options_features);
- int has_hostname = am_has_feature(their_features, fe_req_options_hostname);
- int has_device = am_has_feature(their_features, fe_sendbackup_req_device);
+ char *application_api;
+ int has_features;
+ int has_hostname;
+ int has_device;
+ int has_config;
+
+ (void)disk; /* Quiet unused parameter warning */
+ (void)amandad_path; /* Quiet unused parameter warning */
+ (void)client_username; /* Quiet unused parameter warning */
+ (void)client_port; /* Quiet unused parameter warning */
+ (void)ssh_keys; /* Quiet unused parameter warning */
+ (void)auth; /* Quiet unused parameter warning */
+
+ has_features = am_has_feature(their_features, fe_req_options_features);
+ has_hostname = am_has_feature(their_features, fe_req_options_hostname);
+ has_config = am_has_feature(their_features, fe_req_options_config);
+ has_device = am_has_feature(their_features, fe_sendbackup_req_device);
/*
* Default to bsd authentication if none specified. This is gross.
* Options really need to be pre-parsed into some sort of structure
* much earlier, and then flattened out again before transmission.
*/
- if ((authopt = strstr(options, "auth=")) == NULL
- || (endauthopt = strchr(authopt, ';')) == NULL
- || (sizeof(authoptbuf) - 1 < endauthopt - authopt)) {
- authopt = "BSD";
- } else {
- authopt += strlen("auth=");
- strncpy(authoptbuf, authopt, endauthopt - authopt);
- authoptbuf[endauthopt - authopt] = '\0';
- authopt = authoptbuf;
- }
- snprintf(level_string, sizeof(level_string), "%d", level);
- if(strncmp(progname, "DUMP", 4) == 0
- || strncmp(progname, "GNUTAR", 6) == 0) {
- dumper_api = "";
+ g_snprintf(level_string, SIZEOF(level_string), "%d", level);
+ if(strcmp(progname, "DUMP") == 0
+ || strcmp(progname, "GNUTAR") == 0) {
+ application_api = "";
} else {
- dumper_api = "DUMPER ";
+ application_api = "BACKUP ";
}
req = vstralloc("SERVICE sendbackup\n",
"OPTIONS ",
has_hostname ? "hostname=" : "",
has_hostname ? hostname : "",
has_hostname ? ";" : "",
- "\n",
- dumper_api, progname,
- " ", disk,
- " ", device && has_device ? device : "",
- " ", level_string,
- " ", dumpdate,
- " OPTIONS ", options,
- /* compat: if auth=krb4, send krb4-auth */
- (strcasecmp(authopt, "krb4") ? "" : "krb4-auth"),
+ has_config ? "config=" : "",
+ has_config ? get_config_name() : "",
+ has_config ? ";" : "",
"\n",
NULL);
- secdrv = security_getdriver(authopt);
+ amfree(dle_str);
+ if (am_has_feature(their_features, fe_req_xml)) {
+ char *p = NULL;
+ char *pclean;
+ vstrextend(&p, "<dle>\n", NULL);
+ if (*application_api != '\0') {
+ vstrextend(&p, " <program>APPLICATION</program>\n", NULL);
+ } else {
+ vstrextend(&p, " <program>", progname, "</program>\n", NULL);
+ }
+ vstrextend(&p, " ", b64disk, "\n", NULL);
+ if (device && has_device) {
+ vstrextend(&p, " ", b64device, "\n",
+ NULL);
+ }
+ vstrextend(&p, " <level>", level_string, "</level>\n", NULL);
+ vstrextend(&p, options+1, "</dle>\n", NULL);
+ pclean = clean_dle_str_for_client(p);
+ vstrextend(&req, pclean, NULL);
+ amfree(pclean);
+ dle_str = p;
+ } else if (*application_api != '\0') {
+ errstr = newvstrallocf(errstr,
+ _("[does not support application-api]"));
+ amfree(req);
+ return 2;
+ } else {
+ authopt = strstr(options, "auth=");
+ if (auth == NULL) {
+ auth = "BSD";
+ }
+ vstrextend(&req,
+ progname,
+ " ", qdiskname,
+ " ", device && has_device ? device : "",
+ " ", level_string,
+ " ", dumpdate,
+ " OPTIONS ", options,
+ "\n",
+ NULL);
+ }
+
+ dbprintf(_("send request:\n----\n%s\n----\n\n"), req);
+ secdrv = security_getdriver(auth);
if (secdrv == NULL) {
- error("no '%s' security driver available for host '%s'",
- authopt, hostname);
+ errstr = newvstrallocf(errstr,
+ _("[could not find security driver '%s']"), auth);
+ amfree(req);
+ return 2;
}
- protocol_sendreq(hostname, secdrv, generic_get_security_conf, req,
+ protocol_sendreq(hostname, secdrv, dumper_get_security_conf, req,
STARTUP_TIMEOUT, sendbackup_response, &response_error);
amfree(req);