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freebsd/usr.sbin/lpr/common_source/ctlinfo.c
Garance A Drosehn e357c6ec8e Do more extensive checking of the userid field which is read in from the
control-file for each print job.  This is partially because the previous
checks still let through some characters which would cause trouble for
other applications which try to process the resulting userid -- such as
accounting programs.

But the main reason is to handle the case where some remote host sends a
print job where the given userid is an uppercase-version of the real userid.
For that case, lpd will now check for uppercase letters in the userid.  If
there are any, it will check to see if the given userid (with the uppercase
letters) is a valid one.  If it is *not* valid, then lpd will change the
userid to all-lowercase right when the job is received.

MFC after:	2 weeks
2004-12-31 00:18:42 +00:00

915 lines
28 KiB
C

/*
* ------+---------+---------+---------+---------+---------+---------+---------*
* Copyright (c) 2001 - Garance Alistair Drosehn <gad@FreeBSD.org>.
* All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
* 1. Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* 2. Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in the
* documentation and/or other materials provided with the distribution.
*
* THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND
* ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
* IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
* ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE
* FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
* DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
* OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
* HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
* LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
* OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
* SUCH DAMAGE.
*
* The views and conclusions contained in the software and documentation
* are those of the authors and should not be interpreted as representing
* official policies, either expressed or implied, of the FreeBSD Project.
*
* ------+---------+---------+---------+---------+---------+---------+---------*
*/
#include "lp.cdefs.h" /* A cross-platform version of <sys/cdefs.h> */
__FBSDID("$FreeBSD$");
/*
* ctlinfo - This collection of routines will know everything there is to
* know about the information inside a control file ('cf*') which is used
* to describe a print job in lpr & friends. The eventual goal is that it
* will be the ONLY source file to know what's inside these control-files.
*/
/*
* Some define's useful for debuging.
* TRIGGERTEST_FNAME and DEBUGREADCF_FNAME, allow us to do testing on
* a per-spool-directory basis.
*/
/* #define TRIGGERTEST_FNAME "LpdTestRenameTF" */
/* #define DEBUGREADCF_FNAME "LpdDebugReadCF" */
/* #define LEAVE_TMPCF_FILES 1 */
#include <sys/types.h>
#include <sys/stat.h>
#include <ctype.h>
#include <errno.h>
#include <fcntl.h>
#include <limits.h>
#include <netdb.h>
#include <pwd.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <syslog.h>
#include <unistd.h>
#include "ctlinfo.h"
struct cjprivate {
struct cjobinfo pub;
char *cji_buff; /* buffer for getline */
char *cji_eobuff; /* last byte IN the buffer */
FILE *cji_fstream;
int cji_buffsize; /* # bytes in the buffer */
int cji_dumpit;
};
/*
* All the following take a parameter of 'int', but expect values in the
* range of unsigned char. Define wrappers which take values of type 'char',
* whether signed or unsigned, and ensure they end up in the right range.
*/
#define isdigitch(Anychar) isdigit((u_char)(Anychar))
#define islowerch(Anychar) islower((u_char)(Anychar))
#define isupperch(Anychar) isupper((u_char)(Anychar))
#define tolowerch(Anychar) tolower((u_char)(Anychar))
#define OTHER_USERID_CHARS "-_" /* special chars valid in a userid */
#define roundup(x, y) ((((x)+((y)-1))/(y))*(y))
/*
* This has to be large enough to fit the maximum length of a single line
* in a control-file, including the leading 'command id', a trailing '\n'
* and ending '\0'. The max size of an 'U'nlink line, for instance, is
* 1 ('U') + PATH_MAX (filename) + 2 ('\n\0'). The maximum 'H'ost line is
* 1 ('H') + NI_MAXHOST (remote hostname) + 2 ('\n\0'). Other lines can be
* even longer than those. So, pick some nice, large, arbitrary value.
*/
#define CTI_LINEMAX PATH_MAX+NI_MAXHOST+5
extern const char *from_host; /* client's machine name */
extern const char *from_ip; /* client machine's IP address */
__BEGIN_DECLS
void ctl_dumpcji(FILE *_dbg_stream, const char *_heading,
struct cjobinfo *_cjinf);
static char *ctl_getline(struct cjobinfo *_cjinf);
static void ctl_rewindcf(struct cjobinfo *_cjinf);
char *ctl_rmjob(const char *_ptrname, const char *_cfname);
__END_DECLS
/*
* Here are some things which might be needed when compiling this under
* platforms other than FreeBSD.
*/
#ifndef __FreeBSD__
# ifndef NAME_MAX
# define NAME_MAX 255
# endif
# ifndef NI_MAXHOST
# define NI_MAXHOST 1025
# endif
# ifndef PATH_MAX
# define PATH_MAX 1024
# endif
__BEGIN_DECLS
char *strdup(const char *_src);
size_t strlcpy(char *_dst, const char *_src, size_t _siz);
__END_DECLS
#endif
/*
* Control-files (cf*) have the following format.
*
* Each control-file describes a single job. It will list one or more
* "datafiles" (df*) which should be copied to some printer. Usually
* there is only one datafile per job. For the curious, RFC 1179 is an
* informal and out-of-date description of lpr/lpd circa 1990.
*
* Each line in the file gives an attribute of the job as a whole, or one
* of the datafiles in the job, or a "command" indicating something to do
* with one of the datafiles. Each line starts with an 'id' that indicates
* what that line is there for. The 'id' is historically a single byte,
* but may be multiple bytes (obviously it would be best if multi-byte ids
* started with some letter not already used as a single-byte id!).
* After the 'id', the remainder of the line will be the value of the
* indicated attribute, or a name of the datafile to be operated on.
*
* In the following lists of ids, the ids with a '!' in front of them are
* NOT explicitly supported by this version of lpd, or at least "not yet
* supported". They are only listed for reference purposes, so people
* won't be tempted to reuse the same id for a different purpose.
*
* The following are attributes of the job which should not appear more
* than once in a control file. Only the 'H' and 'P' lines are required
* by the RFC, but some implementations of lpr won't even get that right.
*
* ! A - [used by lprNG]
* B - As far as I know, this is never used as a single-byte id.
* Therefore, I intend to use it for multi-byte id codes.
* C - "class name" to display on banner page (this is sometimes
* used to hold options for print filters)
* ! D - [in lprNG, "timestamp" of when the job was submitted]
* ! E - "environment variables" to set [some versions of linux]
* H - "host name" of machine where the original 'lpr' was done
* I - "indent", the amount to indent output
* J - "job name" to display on banner page
* L - "literal" user's name as it should be displayed on the
* banner page (it is the existence of an 'L' line which
* indicates that a job should have a banner page).
* M - "mail", userid to mail to when done printing (with email
* going to 'M'@'H', so to speak).
* P - "person", the user's login name (e.g. for accounting)
* ! Q - [used by lprNG for queue-name]
* R - "resolution" in dpi, for some laser printer queues
* T - "title" for files sent thru 'pr'
* W - "width" to use for printing plain-text files
* Z - In BSD, "locale" to use for datafiles sent thru 'pr'.
* (this BSD usage should move to a different id...)
* [in lprNG - this line holds the "Z options"]
* 1 - "R font file" for files sent thru troff
* 2 - "I font file" for files sent thru troff
* 3 - "B font file" for files sent thru troff
* 4 - "S font file" for files sent thru troff
*
* The following are attributes attached to a datafile, and thus may
* appear multiple times in a control file (once per datafile):
*
* N - "name" of file (for display purposes, used by 'lpq')
* S - "stat() info" used for symbolic link ('lpr -s')
* security checks.
*
* The following indicate actions to take on a given datafile. The same
* datafile may appear on more than one "print this file" command in the
* control file. Note that ALL ids with lowercase letters are expected
* to be actions to "print this file":
*
* c - "file name", cifplot file to print. This action appears
* when the user has requested 'lpr -c'.
* d - "file name", dvi file to print, user requested 'lpr -d'
* f - "file name", a plain-text file to print = "standard"
* g - "file name", plot(1G) file to print, ie 'lpr -g'
* l - "file name", text file with control chars which should
* be printed literally, ie 'lpr -l' (note: some printers
* take this id as a request to print a postscript file,
* and because of *that* some OS's use 'l' to indicate
* that a datafile is a postscript file)
* n - "file name", ditroff(1) file to print, ie 'lpr -n'
* o - "file name", a postscript file to print. This id is
* described in the original RFC, but not much has been
* done with it. This 'lpr' does not generate control
* lines with 'o'-actions, but lpd's printjob processing
* will treat it the same as 'l'.
* p - "file name", text file to print with pr(1), ie 'lpr -p'
* t - "file name", troff(1) file to print, ie 'lpr -t'
* v - "file name", plain raster file to print
*
* U - "file name" of datafile to unlink (ie, remove file
* from spool directory. To be done in a 'Pass 2',
* AFTER having processed all datafiles in the job).
*
*/
void
ctl_freeinf(struct cjobinfo *cjinf)
{
#define FREESTR(xStr) \
if (xStr != NULL) { \
free(xStr); \
xStr = NULL;\
}
struct cjprivate *cpriv;
if (cjinf == NULL)
return;
cpriv = cjinf->cji_priv;
if ((cpriv == NULL) || (cpriv != cpriv->pub.cji_priv)) {
syslog(LOG_ERR, "in ctl_freeinf(%p): invalid cjinf (cpriv %p)",
(void *)cjinf, (void *)cpriv);
return;
}
FREESTR(cpriv->pub.cji_accthost);
FREESTR(cpriv->pub.cji_acctuser);
FREESTR(cpriv->pub.cji_class);
FREESTR(cpriv->pub.cji_curqueue);
/* [cpriv->pub.cji_fname is part of cpriv-malloced area] */
FREESTR(cpriv->pub.cji_jobname);
FREESTR(cpriv->pub.cji_mailto);
FREESTR(cpriv->pub.cji_username);
if (cpriv->cji_fstream != NULL) {
fclose(cpriv->cji_fstream);
cpriv->cji_fstream = NULL;
}
cjinf->cji_priv = NULL;
free(cpriv);
#undef FREESTR
}
#ifdef DEBUGREADCF_FNAME
static FILE *ctl_dbgfile = NULL;
static struct stat ctl_dbgstat;
#endif
static int ctl_dbgline = 0;
struct cjobinfo *
ctl_readcf(const char *ptrname, const char *cfname)
{
int id;
char *lbuff;
void *cstart;
FILE *cfile;
struct cjprivate *cpriv;
struct cjobinfo *cjinf;
size_t msize, sroom, sroom2;
cfile = fopen(cfname, "r");
if (cfile == NULL) {
syslog(LOG_ERR, "%s: ctl_readcf error fopen(%s): %s",
ptrname, cfname, strerror(errno));
return NULL;
}
sroom = roundup(sizeof(struct cjprivate), 8);
sroom2 = sroom + strlen(cfname) + 1;
sroom2 = roundup(sroom2, 8);
msize = sroom2 + CTI_LINEMAX;
msize = roundup(msize, 8);
cstart = malloc(msize);
if (cstart == NULL)
return NULL;
memset(cstart, 0, msize);
cpriv = (struct cjprivate *)cstart;
cpriv->pub.cji_priv = cpriv;
cpriv->pub.cji_fname = (char *)cstart + sroom;
strcpy(cpriv->pub.cji_fname, cfname);
cpriv->cji_buff = (char *)cstart + sroom2;
cpriv->cji_buffsize = (int)(msize - sroom2);
cpriv->cji_eobuff = (char *)cstart + msize - 1;
cpriv->cji_fstream = cfile;
cpriv->pub.cji_curqueue = strdup(ptrname);
ctl_dbgline = 0;
#ifdef DEBUGREADCF_FNAME
ctl_dbgfile = NULL;
id = stat(DEBUGREADCF_FNAME, &ctl_dbgstat);
if (id != -1) {
/* the file exists in this spool directory, write some simple
* debugging info to it */
ctl_dbgfile = fopen(DEBUGREADCF_FNAME, "a");
if (ctl_dbgfile != NULL) {
fprintf(ctl_dbgfile, "%s: s=%p r=%ld e=%p %p->%s\n",
ptrname, (void *)cpriv, (long)sroom,
cpriv->cji_eobuff, cpriv->pub.cji_fname,
cpriv->pub.cji_fname);
}
}
#endif
/*
* Copy job-attribute values from control file to the struct of
* "public" information. In some cases, it is invalid for the
* value to be a null-string, so that is ignored.
*/
cjinf = &(cpriv->pub);
lbuff = ctl_getline(cjinf);
while (lbuff != NULL) {
id = *lbuff++;
switch (id) {
case 'C':
cpriv->pub.cji_class = strdup(lbuff);
break;
case 'H':
if (*lbuff == '\0')
break;
cpriv->pub.cji_accthost = strdup(lbuff);
break;
case 'J':
cpriv->pub.cji_jobname = strdup(lbuff);
break;
case 'L':
cpriv->pub.cji_username = strdup(lbuff);
break;
case 'M':
/*
* No valid mail-to address would start with a minus.
* If this one does, it is probably some trickster who
* is trying to trigger options on sendmail. Ignore.
*/
if (*lbuff == '-')
break;
if (*lbuff == '\0')
break;
cpriv->pub.cji_mailto = strdup(lbuff);
break;
case 'P':
if (*lbuff == '\0')
break;
/* The userid must not start with a minus sign */
if (*lbuff == '-')
*lbuff = '_';
cpriv->pub.cji_acctuser = strdup(lbuff);
break;
default:
if (islower(id)) {
cpriv->pub.cji_dfcount++;
}
break;
}
lbuff = ctl_getline(cjinf);
}
/* the 'H'ost and 'P'erson fields are *always* supposed to be there */
if (cpriv->pub.cji_accthost == NULL)
cpriv->pub.cji_accthost = strdup(".na.");
if (cpriv->pub.cji_acctuser == NULL)
cpriv->pub.cji_acctuser = strdup(".na.");
#ifdef DEBUGREADCF_FNAME
if (ctl_dbgfile != NULL) {
if (cpriv->cji_dumpit)
ctl_dumpcji(ctl_dbgfile, "end readcf", &(cpriv->pub));
fclose(ctl_dbgfile);
ctl_dbgfile = NULL;
}
#endif
return &(cpriv->pub);
}
/*
* This routine renames the temporary control file as received from some
* other (remote) host. That file will almost always with `tfA*', because
* recvjob.c creates the file by changing `c' to `t' in the original name
* for the control file. Now if you read the RFC, you would think that all
* control filenames start with `cfA*'. However, it seems there are some
* implementations which send control filenames which start with `cf'
* followed by *any* letter, so this routine can not assume what the third
* letter will (or will not) be. Sigh.
*
* So this will rewrite the temporary file to `rf*' (correcting any lines
* which need correcting), rename that `rf*' file to `cf*', and then remove
* the original `tf*' temporary file.
*
* The *main* purpose of this routine is to be paranoid about the contents
* of that control file. It is partially meant to protect against people
* TRYING to cause trouble (perhaps after breaking into root of some host
* that this host will accept print jobs from). The fact that we're willing
* to print jobs from some remote host does not mean that we should blindly
* do anything that host tells us to do.
*
* This is also meant to protect us from errors in other implementations of
* lpr, particularly since we may want to use some values from the control
* file as environment variables when it comes time to print, or as parameters
* to commands which will be exec'ed, or values in statistics records.
*
* This may also do some "conversions" between how different versions of
* lpr or lprNG define the contents of various lines in a control file.
*
* If there is an error, it returns a pointer to a descriptive error message.
* Error messages which are RETURNED (as opposed to syslog-ed) do not include
* the printer-queue name. Let the caller add that if it is wanted.
*/
char *
ctl_renametf(const char *ptrname, const char *tfname)
{
int chk3rd, has_uc, newfd, nogood, res;
FILE *newcf;
struct cjobinfo *cjinf;
char *lbuff, *slash, *cp;
char tfname2[NAME_MAX+1], cfname2[NAME_MAX+1];
char errm[CTI_LINEMAX];
#ifdef TRIGGERTEST_FNAME
struct stat tstat;
res = stat(TRIGGERTEST_FNAME, &tstat);
if (res == -1) {
/*
* if the trigger file does NOT exist in this spool directory,
* then do the exact same steps that the pre-ctlinfo code had
* been doing. Ie, very little.
*/
strlcpy(cfname2, tfname, sizeof(cfname2));
cfname2[0] = 'c';
res = link(tfname, cfname2);
if (res < 0) {
snprintf(errm, sizeof(errm),
"ctl_renametf error link(%s,%s): %s", tfname,
cfname2, strerror(errno));
return strdup(errm);
}
unlink(tfname);
return NULL;
}
#endif
cjinf = NULL; /* in case of early jump to error_ret */
newcf = NULL; /* in case of early jump to error_ret */
*errm = '\0'; /* in case of early jump to error_ret */
chk3rd = tfname[2];
if ((tfname[0] != 't') || (tfname[1] != 'f') || (!isalpha(chk3rd))) {
snprintf(errm, sizeof(errm),
"ctl_renametf invalid filename: %s", tfname);
goto error_ret;
}
cjinf = ctl_readcf(ptrname, tfname);
if (cjinf == NULL) {
snprintf(errm, sizeof(errm),
"ctl_renametf error cti_readcf(%s)", tfname);
goto error_ret;
}
/*
* This uses open+fdopen instead of fopen because that combination
* gives us greater control over file-creation issues.
*/
strlcpy(tfname2, tfname, sizeof(tfname2));
tfname2[0] = 'r'; /* rf<letter><job><hostname> */
newfd = open(tfname2, O_WRONLY|O_CREAT|O_TRUNC, 0660);
if (newfd == -1) {
snprintf(errm, sizeof(errm),
"ctl_renametf error open(%s): %s", tfname2,
strerror(errno));
goto error_ret;
}
newcf = fdopen(newfd, "w");
if (newcf == NULL) {
close(newfd);
snprintf(errm, sizeof(errm),
"ctl_renametf error fopen(%s): %s", tfname2,
strerror(errno));
goto error_ret;
}
/*
* Do extra sanity checks on some key job-attribute fields, and
* write them out first (thus making sure they are written in the
* order we generally expect them to be in).
*/
/*
* Some lpr implementations on PC's set a null-string for their
* hostname. A MacOS 10 system which has not correctly setup
* /etc/hostconfig will claim a hostname of 'localhost'. Anything
* with blanks in it would be an invalid value for hostname. For
* any of these invalid hostname values, replace the given value
* with the name of the host that this job is coming from.
*/
nogood = 0;
if (cjinf->cji_accthost == NULL)
nogood = 1;
else if (strcmp(cjinf->cji_accthost, ".na.") == 0)
nogood = 1;
else if (strcmp(cjinf->cji_accthost, "localhost") == 0)
nogood = 1;
else {
for (cp = cjinf->cji_accthost; *cp != '\0'; cp++) {
if (*cp <= ' ') {
nogood = 1;
break;
}
}
}
if (nogood)
fprintf(newcf, "H%s\n", from_host);
else
fprintf(newcf, "H%s\n", cjinf->cji_accthost);
/*
* Now do some sanity checks on the 'P' (original userid) value. Note
* that the 'P'erson line is the second line which is ALWAYS supposed
* to be present in a control file.
*
* There is no particularly good value to use for replacements, but
* at least make sure the value is something reasonable to use in
* environment variables and statistics records. Again, some PC
* implementations send a null-string for a value. Various Mac
* implementations will set whatever string the user has set for
* their 'Owner Name', which usually includes blanks, etc.
*/
nogood = 0;
if (cjinf->cji_acctuser == NULL)
nogood = 1;
else if (strcmp(cjinf->cji_acctuser, ".na.") == 0)
; /* No further checks needed... */
else {
has_uc = 0;
cp = cjinf->cji_acctuser;
if (*cp == '-')
*cp++ = '_';
for (; *cp != '\0'; cp++) {
if (islowerch(*cp) || isdigitch(*cp))
continue; /* Standard valid characters */
if (strchr(OTHER_USERID_CHARS, *cp) != NULL)
continue; /* Some more valid characters */
if (isupperch(*cp)) {
has_uc = 1; /* These may be valid... */
continue;
}
*cp = '_';
}
/*
* Some Windows hosts send print jobs where the correct userid
* has been converted to uppercase, and that can cause trouble
* for sites that expect the correct value (for something like
* accounting). On the other hand, some sites do use uppercase
* in their userids, so we can't blindly convert to lowercase.
*/
if (has_uc && (getpwnam(cjinf->cji_acctuser) == NULL)) {
for (cp = cjinf->cji_acctuser; *cp != '\0'; cp++) {
if (isupperch(*cp))
*cp = tolowerch(*cp);
}
}
}
if (nogood)
fprintf(newcf, "P%s\n", ".na.");
else
fprintf(newcf, "P%s\n", cjinf->cji_acctuser);
/* No need for sanity checks on class, jobname, "literal" user. */
if (cjinf->cji_class != NULL)
fprintf(newcf, "C%s\n", cjinf->cji_class);
if (cjinf->cji_jobname != NULL)
fprintf(newcf, "J%s\n", cjinf->cji_jobname);
if (cjinf->cji_username != NULL)
fprintf(newcf, "L%s\n", cjinf->cji_username);
/*
* This should probably add more sanity checks on mailto value.
* Note that if the mailto value is "wrong", then there's no good
* way to know what the "correct" value would be, and we should not
* semd email to some random address. At least for now, just ignore
* any invalid values.
*/
nogood = 0;
if (cjinf->cji_mailto == NULL)
nogood = 1;
else {
for (cp = cjinf->cji_mailto; *cp != '\0'; cp++) {
if (*cp <= ' ') {
nogood = 1;
break;
}
}
}
if (!nogood)
fprintf(newcf, "M%s\n", cjinf->cji_mailto);
/*
* Now go thru the old control file, copying all information which
* hasn't already been written into the new file.
*/
ctl_rewindcf(cjinf);
lbuff = ctl_getline(cjinf);
while (lbuff != NULL) {
switch (lbuff[0]) {
case 'H':
case 'P':
case 'C':
case 'J':
case 'L':
case 'M':
/* already wrote values for these to the newcf */
break;
case 'N':
/* see comments under 'U'... */
if (cjinf->cji_dfcount == 0) {
/* in this case, 'N's will be done in 'U' */
break;
}
fprintf(newcf, "%s\n", lbuff);
break;
case 'U':
/*
* check for the very common case where the remote
* host had to process 'lpr -s -r', but it did not
* remove the Unlink line from the control file.
* Such Unlink lines will legitimately have a '/' in
* them, but it is the original lpr host which would
* have done the unlink of such files, and not any
* host receiving that job.
*/
slash = strchr(lbuff, '/');
if (slash != NULL) {
break; /* skip this line */
}
/*
* Okay, another kind of broken lpr implementation
* is one which send datafiles, and Unlink's those
* datafiles, but never includes any PRINT request
* for those files. Experimentation shows that one
* copy of those datafiles should be printed with a
* format of 'f'. If this is an example of such a
* screwed-up control file, fix it here.
*/
if (cjinf->cji_dfcount == 0) {
lbuff++;
if (strncmp(lbuff, "df", (size_t)2) == 0) {
fprintf(newcf, "f%s\n", lbuff);
fprintf(newcf, "U%s\n", lbuff);
fprintf(newcf, "N%s\n", lbuff);
}
break;
}
fprintf(newcf, "%s\n", lbuff);
break;
default:
fprintf(newcf, "%s\n", lbuff);
break;
}
lbuff = ctl_getline(cjinf);
}
ctl_freeinf(cjinf);
cjinf = NULL;
res = fclose(newcf);
newcf = NULL;
if (res != 0) {
snprintf(errm, sizeof(errm),
"ctl_renametf error fclose(%s): %s", tfname2,
strerror(errno));
goto error_ret;
}
strlcpy(cfname2, tfname, sizeof(cfname2));
cfname2[0] = 'c'; /* rename new file to 'cfA*' */
res = link(tfname2, cfname2);
if (res != 0) {
snprintf(errm, sizeof(errm),
"ctl_renametf error link(%s,%s): %s", tfname2, cfname2,
strerror(errno));
goto error_ret;
}
/* All the important work is done. Now just remove temp files */
#ifdef LEAVE_TMPCF_FILES
{
struct stat tfstat;
size_t size1;
tfstat.st_size = 1; /* certainly invalid value */
res = stat(tfname, &tfstat);
size1 = tfstat.st_size;
tfstat.st_size = 2; /* certainly invalid value */
res = stat(tfname2, &tfstat);
/*
* If the sizes do not match, or either stat call failed,
* then do not remove the temp files, but just move them
* out of the way. This is so I can see what this routine
* had changed (and the files won't interfere with some
* later job coming in from the same host). In this case,
* we don't care if we clobber some previous file.
*/
if (size1 != tfstat.st_size) {
strlcpy(cfname2, tfname, sizeof(cfname2));
strlcat(cfname2, "._T", sizeof(cfname2));
rename(tfname, cfname2);
strlcpy(cfname2, tfname2, sizeof(cfname2));
strlcat(cfname2, "._T", sizeof(cfname2));
rename(tfname2, cfname2);
return NULL;
}
}
#endif
unlink(tfname);
unlink(tfname2);
return NULL;
error_ret:
if (cjinf != NULL)
ctl_freeinf(cjinf);
if (newcf != NULL)
fclose(newcf);
if (*errm != '\0')
return strdup(errm);
return strdup("ctl_renametf internal (missed) error");
}
void
ctl_rewindcf(struct cjobinfo *cjinf)
{
struct cjprivate *cpriv;
if (cjinf == NULL)
return;
cpriv = cjinf->cji_priv;
if ((cpriv == NULL) || (cpriv != cpriv->pub.cji_priv)) {
syslog(LOG_ERR, "in ctl_rewindcf(%p): invalid cjinf (cpriv %p)",
(void *)cjinf, (void *)cpriv);
return;
}
rewind(cpriv->cji_fstream); /* assume no errors... :-) */
}
char *
ctl_rmjob(const char *ptrname, const char *cfname)
{
struct cjobinfo *cjinf;
char *lbuff;
char errm[CTI_LINEMAX];
cjinf = ctl_readcf(ptrname, cfname);
if (cjinf == NULL) {
snprintf(errm, sizeof(errm),
"ctl_renametf error cti_readcf(%s)", cfname);
return strdup(errm);
}
ctl_rewindcf(cjinf);
lbuff = ctl_getline(cjinf);
while (lbuff != NULL) {
/* obviously we need to fill in the following... */
switch (lbuff[0]) {
case 'S':
break;
case 'U':
break;
default:
break;
}
lbuff = ctl_getline(cjinf);
}
ctl_freeinf(cjinf);
cjinf = NULL;
return NULL;
}
/*
* The following routine was originally written to pin down a bug. It is
* no longer needed for that problem, but may be useful to keep around for
* other debugging.
*/
void
ctl_dumpcji(FILE *dbg_stream, const char *heading, struct cjobinfo *cjinf)
{
#define PRINTSTR(xHdr,xStr) \
astr = xStr; \
ctl_dbgline++; \
fprintf(dbg_stream, "%4d] %12s = ", ctl_dbgline, xHdr); \
if (astr == NULL) \
fprintf(dbg_stream, "NULL\n"); \
else \
fprintf(dbg_stream, "%p -> %s\n", astr, astr)
struct cjprivate *cpriv;
char *astr;
if (cjinf == NULL) {
fprintf(dbg_stream,
"ctl_dumpcji: ptr to cjobinfo for '%s' is NULL\n",
heading);
return;
}
cpriv = cjinf->cji_priv;
fprintf(dbg_stream, "ctl_dumpcji: Dump '%s' of cjobinfo at %p->%p\n",
heading, (void *)cjinf, cpriv->cji_buff);
PRINTSTR("accthost.H", cpriv->pub.cji_accthost);
PRINTSTR("acctuser.P", cpriv->pub.cji_acctuser);
PRINTSTR("class.C", cpriv->pub.cji_class);
PRINTSTR("cf-qname", cpriv->pub.cji_curqueue);
PRINTSTR("cf-fname", cpriv->pub.cji_fname);
PRINTSTR("jobname.J", cpriv->pub.cji_jobname);
PRINTSTR("mailto.M", cpriv->pub.cji_mailto);
PRINTSTR("hdruser.L", cpriv->pub.cji_username);
ctl_dbgline++;
fprintf(dbg_stream, "%4d] %12s = ", ctl_dbgline, "*cjprivate");
if (cpriv->pub.cji_priv == NULL)
fprintf(dbg_stream, "NULL !!\n");
else
fprintf(dbg_stream, "%p\n", (void *)cpriv->pub.cji_priv);
fprintf(dbg_stream, "|- - - - --> Dump '%s' complete\n", heading);
/* flush output for the benefit of anyone doing a 'tail -f' */
fflush(dbg_stream);
#undef PRINTSTR
}
/*
* This routine reads in the next line from the control-file, and removes
* the trailing newline character.
*
* Historical note: Earlier versions of this routine did tab-expansion for
* ALL lines read in, which did not make any sense for most of the lines
* in a control file. For the lines where tab-expansion is useful, it will
* now have to be done by the calling routine.
*/
static char *
ctl_getline(struct cjobinfo *cjinf)
{
char *strp, *nl;
struct cjprivate *cpriv;
if (cjinf == NULL)
return NULL;
cpriv = cjinf->cji_priv;
if ((cpriv == NULL) || (cpriv != cpriv->pub.cji_priv)) {
syslog(LOG_ERR, "in ctl_getline(%p): invalid cjinf (cpriv %p)",
(void *)cjinf, (void *)cpriv);
return NULL;
}
errno = 0;
strp = fgets(cpriv->cji_buff, cpriv->cji_buffsize, cpriv->cji_fstream);
if (strp == NULL) {
if (errno != 0)
syslog(LOG_ERR, "%s: ctl_getline error fgets(%s): %s",
cpriv->pub.cji_curqueue, cpriv->pub.cji_fname,
strerror(errno));
return NULL;
}
nl = strchr(strp, '\n');
if (nl != NULL)
*nl = '\0';
#ifdef DEBUGREADCF_FNAME
/* I'd like to find out if the previous work to expand tabs was ever
* really used, and if so, on what lines and for what reason.
* Yes, all this work probably means I'm obsessed about this 'tab'
* issue, but isn't programming a matter of obsession?
*/
{
int tabcnt;
char *ch;
tabcnt = 0;
ch = strp;
for (ch = strp; *ch != '\0'; ch++) {
if (*ch == '\t')
tabcnt++;
}
if (tabcnt && (ctl_dbgfile != NULL)) {
cpriv->cji_dumpit++;
fprintf(ctl_dbgfile, "%s: tabs=%d '%s'\n",
cpriv->pub.cji_fname, tabcnt, cpriv->cji_buff);
}
}
#endif
return strp;
}