/*
Unix SMB/CIFS implementation.
lpq parsing routines
Copyright (C) Andrew Tridgell 2000
This program is free software; you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation; either version 3 of the License, or
(at your option) any later version.
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with this program. If not, see .
*/
#include "includes.h"
static const char *Months[13] = { "Jan", "Feb", "Mar", "Apr", "May", "Jun",
"Jul", "Aug", "Sep", "Oct", "Nov", "Dec", "Err"};
/*******************************************************************
Process time fields
********************************************************************/
static time_t EntryTime(fstring tok[], int ptr, int count, int minimum)
{
time_t jobtime,jobtime1;
jobtime = time(NULL); /* default case: take current time */
if (count >= minimum) {
struct tm *t;
int i, day, hour, min, sec;
char *c;
for (i=0; i<13; i++) {
if (!strncmp(tok[ptr], Months[i],3)) {
break; /* Find month */
}
}
if (i<12) {
t = localtime(&jobtime);
if (!t) {
return (time_t)-1;
}
day = atoi(tok[ptr+1]);
c=(char *)(tok[ptr+2]);
*(c+2)=0;
hour = atoi(c);
*(c+5)=0;
min = atoi(c+3);
if(*(c+6) != 0) {
sec = atoi(c+6);
} else {
sec=0;
}
if ((t->tm_mon < i)|| ((t->tm_mon == i)&&
((t->tm_mday < day)||
((t->tm_mday == day)&&
(t->tm_hour*60+t->tm_min < hour*60+min))))) {
t->tm_year--; /* last year's print job */
}
t->tm_mon = i;
t->tm_mday = day;
t->tm_hour = hour;
t->tm_min = min;
t->tm_sec = sec;
jobtime1 = mktime(t);
if (jobtime1 != (time_t)-1) {
jobtime = jobtime1;
}
}
}
return jobtime;
}
/****************************************************************************
parse a lpq line
here is an example of lpq output under bsd
Warning: no daemon present
Rank Owner Job Files Total Size
1st tridge 148 README 8096 bytes
here is an example of lpq output under osf/1
Warning: no daemon present
Rank Pri Owner Job Files Total Size
1st 0 tridge 148 README 8096 bytes
June 30, 1998.
Modified to handle file names with spaces, like the parse_lpq_lprng code
further below.
****************************************************************************/
static bool parse_lpq_bsd(char *line,print_queue_struct *buf,bool first)
{
#ifdef OSF1
#define RANKTOK 0
#define PRIOTOK 1
#define USERTOK 2
#define JOBTOK 3
#define FILETOK 4
#define TOTALTOK (count - 2)
#define NTOK 6
#define MAXTOK 128
#else /* OSF1 */
#define RANKTOK 0
#define USERTOK 1
#define JOBTOK 2
#define FILETOK 3
#define TOTALTOK (count - 2)
#define NTOK 5
#define MAXTOK 128
#endif /* OSF1 */
char *tok[MAXTOK];
int count = 0;
pstring line2;
pstrcpy(line2,line);
#ifdef OSF1
{
size_t length;
length = strlen(line2);
if (line2[length-3] == ':') {
return False;
}
}
#endif /* OSF1 */
/* FIXME: Use next_token rather than strtok! */
tok[0] = strtok(line2," \t");
count++;
while ((count < MAXTOK) && ((tok[count] = strtok(NULL," \t")) != NULL)) {
count++;
}
/* we must get at least NTOK tokens */
if (count < NTOK) {
return False;
}
/* the Job and Total columns must be integer */
if (!isdigit((int)*tok[JOBTOK]) || !isdigit((int)*tok[TOTALTOK])) {
return False;
}
buf->job = atoi(tok[JOBTOK]);
buf->size = atoi(tok[TOTALTOK]);
buf->status = strequal(tok[RANKTOK],"active")?LPQ_PRINTING:LPQ_QUEUED;
buf->time = time(NULL);
fstrcpy(buf->fs_user,tok[USERTOK]);
fstrcpy(buf->fs_file,tok[FILETOK]);
if ((FILETOK + 1) != TOTALTOK) {
int i;
for (i = (FILETOK + 1); i < TOTALTOK; i++) {
/* FIXME: Using fstrcat rather than other means is a bit
* inefficient; this might be a problem for enormous queues with
* many fields. */
fstrcat(buf->fs_file, " ");
fstrcat(buf->fs_file, tok[i]);
}
/* Ensure null termination. */
fstrterminate(buf->fs_file);
}
#ifdef PRIOTOK
buf->priority = atoi(tok[PRIOTOK]);
#else
buf->priority = 1;
#endif
return True;
}
/*
LPRng_time modifies the current date by inserting the hour and minute from
the lpq output. The lpq time looks like "23:15:07"
June 30, 1998.
Modified to work with the re-written parse_lpq_lprng routine.
Dec 17,1999
Modified to work with lprng 3.16
With lprng 3.16 The lpq time looks like
"23:15:07"
"23:15:07.100"
"1999-12-16-23:15:07"
"1999-12-16-23:15:07.100"
*/
static time_t LPRng_time(char *time_string)
{
time_t jobtime;
struct tm *t;
jobtime = time(NULL); /* default case: take current time */
t = localtime(&jobtime);
if (!t) {
return (time_t)-1;
}
if ( atoi(time_string) < 24 ){
t->tm_hour = atoi(time_string);
t->tm_min = atoi(time_string+3);
t->tm_sec = atoi(time_string+6);
} else {
t->tm_year = atoi(time_string)-1900;
t->tm_mon = atoi(time_string+5)-1;
t->tm_mday = atoi(time_string+8);
t->tm_hour = atoi(time_string+11);
t->tm_min = atoi(time_string+14);
t->tm_sec = atoi(time_string+17);
}
jobtime = mktime(t);
return jobtime;
}
/****************************************************************************
parse a lprng lpq line
June 30, 1998.
Re-wrote this to handle file names with spaces, multiple file names on one
lpq line, etc;
****************************************************************************/
static bool parse_lpq_lprng(char *line,print_queue_struct *buf,bool first)
{
#define LPRNG_RANKTOK 0
#define LPRNG_USERTOK 1
#define LPRNG_PRIOTOK 2
#define LPRNG_JOBTOK 3
#define LPRNG_FILETOK 4
#define LPRNG_TOTALTOK (num_tok - 2)
#define LPRNG_TIMETOK (num_tok - 1)
#define LPRNG_NTOK 7
#define LPRNG_MAXTOK 128 /* PFMA just to keep us from running away. */
fstring tokarr[LPRNG_MAXTOK];
const char *cptr;
char *ptr;
int num_tok = 0;
cptr = line;
while((num_tok < LPRNG_MAXTOK) && next_token( &cptr, tokarr[num_tok], " \t", sizeof(fstring))) {
num_tok++;
}
/* We must get at least LPRNG_NTOK tokens. */
if (num_tok < LPRNG_NTOK) {
return False;
}
if (!isdigit((int)*tokarr[LPRNG_JOBTOK]) || !isdigit((int)*tokarr[LPRNG_TOTALTOK])) {
return False;
}
buf->job = atoi(tokarr[LPRNG_JOBTOK]);
buf->size = atoi(tokarr[LPRNG_TOTALTOK]);
if (strequal(tokarr[LPRNG_RANKTOK],"active")) {
buf->status = LPQ_PRINTING;
} else if (strequal(tokarr[LPRNG_RANKTOK],"done")) {
buf->status = LPQ_PRINTED;
} else if (isdigit((int)*tokarr[LPRNG_RANKTOK])) {
buf->status = LPQ_QUEUED;
} else {
buf->status = LPQ_PAUSED;
}
buf->priority = *tokarr[LPRNG_PRIOTOK] -'A';
buf->time = LPRng_time(tokarr[LPRNG_TIMETOK]);
fstrcpy(buf->fs_user,tokarr[LPRNG_USERTOK]);
/* The '@hostname' prevents windows from displaying the printing icon
* for the current user on the taskbar. Plop in a null.
*/
if ((ptr = strchr_m(buf->fs_user,'@')) != NULL) {
*ptr = '\0';
}
fstrcpy(buf->fs_file,tokarr[LPRNG_FILETOK]);
if ((LPRNG_FILETOK + 1) != LPRNG_TOTALTOK) {
int i;
for (i = (LPRNG_FILETOK + 1); i < LPRNG_TOTALTOK; i++) {
/* FIXME: Using fstrcat rather than other means is a bit
* inefficient; this might be a problem for enormous queues with
* many fields. */
fstrcat(buf->fs_file, " ");
fstrcat(buf->fs_file, tokarr[i]);
}
/* Ensure null termination. */
fstrterminate(buf->fs_file);
}
return True;
}
/*******************************************************************
parse lpq on an aix system
Queue Dev Status Job Files User PP % Blks Cp Rnk
------- ----- --------- --- ------------------ ---------- ---- -- ----- --- ---
lazer lazer READY
lazer lazer RUNNING 537 6297doc.A kvintus@IE 0 10 2445 1 1
QUEUED 538 C.ps root@IEDVB 124 1 2
QUEUED 539 E.ps root@IEDVB 28 1 3
QUEUED 540 L.ps root@IEDVB 172 1 4
QUEUED 541 P.ps root@IEDVB 22 1 5
********************************************************************/
static bool parse_lpq_aix(char *line,print_queue_struct *buf,bool first)
{
fstring tok[11];
int count=0;
const char *cline = line;
/* handle the case of "(standard input)" as a filename */
string_sub(line,"standard input","STDIN",0);
all_string_sub(line,"(","\"",0);
all_string_sub(line,")","\"",0);
for (count=0; count<10 && next_token(&cline,tok[count],NULL, sizeof(tok[count])); count++) {
;
}
/* we must get 6 tokens */
if (count < 10) {
if ((count == 7) && ((strcmp(tok[0],"QUEUED") == 0) || (strcmp(tok[0],"HELD") == 0))) {
/* the 2nd and 5th columns must be integer */
if (!isdigit((int)*tok[1]) || !isdigit((int)*tok[4])) {
return False;
}
buf->size = atoi(tok[4]) * 1024;
/* if the fname contains a space then use STDIN */
if (strchr_m(tok[2],' ')) {
fstrcpy(tok[2],"STDIN");
}
/* only take the last part of the filename */
{
fstring tmp;
char *p = strrchr_m(tok[2],'/');
if (p) {
fstrcpy(tmp,p+1);
fstrcpy(tok[2],tmp);
}
}
buf->job = atoi(tok[1]);
buf->status = strequal(tok[0],"HELD")?LPQ_PAUSED:LPQ_QUEUED;
buf->priority = 0;
buf->time = time(NULL);
fstrcpy(buf->fs_user,tok[3]);
fstrcpy(buf->fs_file,tok[2]);
} else {
DEBUG(6,("parse_lpq_aix count=%d\n", count));
return False;
}
} else {
/* the 4th and 9th columns must be integer */
if (!isdigit((int)*tok[3]) || !isdigit((int)*tok[8])) {
return False;
}
buf->size = atoi(tok[8]) * 1024;
/* if the fname contains a space then use STDIN */
if (strchr_m(tok[4],' ')) {
fstrcpy(tok[4],"STDIN");
}
/* only take the last part of the filename */
{
fstring tmp;
char *p = strrchr_m(tok[4],'/');
if (p) {
fstrcpy(tmp,p+1);
fstrcpy(tok[4],tmp);
}
}
buf->job = atoi(tok[3]);
buf->status = strequal(tok[2],"RUNNING")?LPQ_PRINTING:LPQ_QUEUED;
buf->priority = 0;
buf->time = time(NULL);
fstrcpy(buf->fs_user,tok[5]);
fstrcpy(buf->fs_file,tok[4]);
}
return True;
}
/****************************************************************************
parse a lpq line
here is an example of lpq output under hpux; note there's no space after -o !
$> lpstat -oljplus
ljplus-2153 user priority 0 Jan 19 08:14 on ljplus
util.c 125697 bytes
server.c 110712 bytes
ljplus-2154 user priority 0 Jan 19 08:14 from client
(standard input) 7551 bytes
****************************************************************************/
static bool parse_lpq_hpux(char *line, print_queue_struct *buf, bool first)
{
/* must read two lines to process, therefore keep some values static */
static bool header_line_ok=False, base_prio_reset=False;
static fstring jobuser;
static int jobid;
static int jobprio;
static time_t jobtime;
static int jobstat=LPQ_QUEUED;
/* to store minimum priority to print, lpstat command should be invoked
with -p option first, to work */
static int base_prio;
int count;
char htab = '\011';
const char *cline = line;
fstring tok[12];
/* If a line begins with a horizontal TAB, it is a subline type */
if (line[0] == htab) { /* subline */
/* check if it contains the base priority */
if (!strncmp(line,"\tfence priority : ",18)) {
base_prio=atoi(&line[18]);
DEBUG(4, ("fence priority set at %d\n", base_prio));
}
if (!header_line_ok) {
return False; /* incorrect header line */
}
/* handle the case of "(standard input)" as a filename */
string_sub(line,"standard input","STDIN",0);
all_string_sub(line,"(","\"",0);
all_string_sub(line,")","\"",0);
for (count=0; count<2 && next_token(&cline,tok[count],NULL,sizeof(tok[count])); count++) {
;
}
/* we must get 2 tokens */
if (count < 2) {
return False;
}
/* the 2nd column must be integer */
if (!isdigit((int)*tok[1])) {
return False;
}
/* if the fname contains a space then use STDIN */
if (strchr_m(tok[0],' ')) {
fstrcpy(tok[0],"STDIN");
}
buf->size = atoi(tok[1]);
fstrcpy(buf->fs_file,tok[0]);
/* fill things from header line */
buf->time = jobtime;
buf->job = jobid;
buf->status = jobstat;
buf->priority = jobprio;
fstrcpy(buf->fs_user,jobuser);
return True;
} else { /* header line */
header_line_ok=False; /* reset it */
if (first) {
if (!base_prio_reset) {
base_prio=0; /* reset it */
base_prio_reset=True;
}
} else if (base_prio) {
base_prio_reset=False;
}
/* handle the dash in the job id */
string_sub(line,"-"," ",0);
for (count=0; count<12 && next_token(&cline,tok[count],NULL,sizeof(tok[count])); count++) {
;
}
/* we must get 8 tokens */
if (count < 8) {
return False;
}
/* first token must be printer name (cannot check ?) */
/* the 2nd, 5th & 7th column must be integer */
if (!isdigit((int)*tok[1]) || !isdigit((int)*tok[4]) || !isdigit((int)*tok[6])) {
return False;
}
jobid = atoi(tok[1]);
fstrcpy(jobuser,tok[2]);
jobprio = atoi(tok[4]);
/* process time */
jobtime=EntryTime(tok, 5, count, 8);
if (jobprio < base_prio) {
jobstat = LPQ_PAUSED;
DEBUG (4, ("job %d is paused: prio %d < %d; jobstat=%d\n",
jobid, jobprio, base_prio, jobstat));
} else {
jobstat = LPQ_QUEUED;
if ((count >8) && (((strequal(tok[8],"on")) ||
((strequal(tok[8],"from")) &&
((count > 10)&&(strequal(tok[10],"on"))))))) {
jobstat = LPQ_PRINTING;
}
}
header_line_ok=True; /* information is correct */
return False; /* need subline info to include into queuelist */
}
}
/****************************************************************************
parse a lpstat line
here is an example of "lpstat -o dcslw" output under sysv
dcslw-896 tridge 4712 Dec 20 10:30:30 on dcslw
dcslw-897 tridge 4712 Dec 20 10:30:30 being held
****************************************************************************/
static bool parse_lpq_sysv(char *line,print_queue_struct *buf,bool first)
{
fstring tok[9];
int count=0;
char *p;
const char *cline = line;
/*
* Handle the dash in the job id, but make sure that we skip over
* the printer name in case we have a dash in that.
* Patch from Dom.Mitchell@palmerharvey.co.uk.
*/
/*
* Move to the first space.
*/
for (p = line ; !isspace(*p) && *p; p++) {
;
}
/*
* Back up until the last '-' character or
* start of line.
*/
for (; (p >= line) && (*p != '-'); p--) {
;
}
if((p >= line) && (*p == '-')) {
*p = ' ';
}
for (count=0; count<9 && next_token(&cline,tok[count],NULL,sizeof(tok[count])); count++) {
;
}
/* we must get 7 tokens */
if (count < 7) {
return False;
}
/* the 2nd and 4th, 6th columns must be integer */
if (!isdigit((int)*tok[1]) || !isdigit((int)*tok[3])) {
return False;
}
if (!isdigit((int)*tok[5])) {
return False;
}
/* if the user contains a ! then trim the first part of it */
if ((p=strchr_m(tok[2],'!'))) {
fstring tmp;
fstrcpy(tmp,p+1);
fstrcpy(tok[2],tmp);
}
buf->job = atoi(tok[1]);
buf->size = atoi(tok[3]);
if (count > 7 && strequal(tok[7],"on")) {
buf->status = LPQ_PRINTING;
} else if (count > 8 && strequal(tok[7],"being") && strequal(tok[8],"held")) {
buf->status = LPQ_PAUSED;
} else {
buf->status = LPQ_QUEUED;
}
buf->priority = 0;
buf->time = EntryTime(tok, 4, count, 7);
fstrcpy(buf->fs_user,tok[2]);
fstrcpy(buf->fs_file,tok[2]);
return True;
}
/****************************************************************************
parse a lpq line
here is an example of lpq output under qnx
Spooler: /qnx/spooler, on node 1
Printer: txt (ready)
0000: root [job #1 ] active 1146 bytes /etc/profile
0001: root [job #2 ] ready 2378 bytes /etc/install
0002: root [job #3 ] ready 1146 bytes -- standard input --
****************************************************************************/
static bool parse_lpq_qnx(char *line,print_queue_struct *buf,bool first)
{
fstring tok[7];
int count=0;
const char *cline = line;
DEBUG(4,("antes [%s]\n", line));
/* handle the case of "-- standard input --" as a filename */
string_sub(line,"standard input","STDIN",0);
DEBUG(4,("despues [%s]\n", line));
all_string_sub(line,"-- ","\"",0);
all_string_sub(line," --","\"",0);
DEBUG(4,("despues 1 [%s]\n", line));
string_sub(line,"[job #","",0);
string_sub(line,"]","",0);
DEBUG(4,("despues 2 [%s]\n", line));
for (count=0; count<7 && next_token(&cline,tok[count],NULL,sizeof(tok[count])); count++) {
;
}
/* we must get 7 tokens */
if (count < 7) {
return False;
}
/* the 3rd and 5th columns must be integer */
if (!isdigit((int)*tok[2]) || !isdigit((int)*tok[4])) {
return False;
}
/* only take the last part of the filename */
{
fstring tmp;
char *p = strrchr_m(tok[6],'/');
if (p) {
fstrcpy(tmp,p+1);
fstrcpy(tok[6],tmp);
}
}
buf->job = atoi(tok[2]);
buf->size = atoi(tok[4]);
buf->status = strequal(tok[3],"active")?LPQ_PRINTING:LPQ_QUEUED;
buf->priority = 0;
buf->time = time(NULL);
fstrcpy(buf->fs_user,tok[1]);
fstrcpy(buf->fs_file,tok[6]);
return True;
}
/****************************************************************************
parse a lpq line for the plp printing system
Bertrand Wallrich
redone by tridge. Here is a sample queue:
Local Printer 'lp2' (fjall):
Printing (started at Jun 15 13:33:58, attempt 1).
Rank Owner Pr Opt Job Host Files Size Date
active tridge X - 6 fjall /etc/hosts 739 Jun 15 13:33
3rd tridge X - 7 fjall /etc/hosts 739 Jun 15 13:33
****************************************************************************/
static bool parse_lpq_plp(char *line,print_queue_struct *buf,bool first)
{
fstring tok[11];
int count=0;
const char *cline = line;
/* handle the case of "(standard input)" as a filename */
string_sub(line,"stdin","STDIN",0);
all_string_sub(line,"(","\"",0);
all_string_sub(line,")","\"",0);
for (count=0; count<11 && next_token(&cline,tok[count],NULL,sizeof(tok[count])); count++) {
;
}
/* we must get 11 tokens */
if (count < 11) {
return False;
}
/* the first must be "active" or begin with an integer */
if (strcmp(tok[0],"active") && !isdigit((int)tok[0][0])) {
return False;
}
/* the 5th and 8th must be integer */
if (!isdigit((int)*tok[4]) || !isdigit((int)*tok[7])) {
return False;
}
/* if the fname contains a space then use STDIN */
if (strchr_m(tok[6],' ')) {
fstrcpy(tok[6],"STDIN");
}
/* only take the last part of the filename */
{
fstring tmp;
char *p = strrchr_m(tok[6],'/');
if (p) {
fstrcpy(tmp,p+1);
fstrcpy(tok[6],tmp);
}
}
buf->job = atoi(tok[4]);
buf->size = atoi(tok[7]);
if (strchr_m(tok[7],'K')) {
buf->size *= 1024;
}
if (strchr_m(tok[7],'M')) {
buf->size *= 1024*1024;
}
buf->status = strequal(tok[0],"active")?LPQ_PRINTING:LPQ_QUEUED;
buf->priority = 0;
buf->time = time(NULL);
fstrcpy(buf->fs_user,tok[1]);
fstrcpy(buf->fs_file,tok[6]);
return True;
}
/*******************************************************************
parse lpq on an NT system
Windows 2000 LPD Server
Printer \\10.0.0.2\NP17PCL (Paused)
Owner Status Jobname Job-Id Size Pages Priority
----------------------------------------------------------------------------
root (9.99. Printing /usr/lib/rhs/rhs-pr 3 625 0 1
root (9.99. Paused /usr/lib/rhs/rhs-pr 4 625 0 1
jmcd Waiting Re: Samba Open Sour 26 32476 1 1
********************************************************************/
static bool parse_lpq_nt(char *line,print_queue_struct *buf,bool first)
{
#define LPRNT_OWNSIZ 11
#define LPRNT_STATSIZ 9
#define LPRNT_JOBSIZ 19
#define LPRNT_IDSIZ 6
#define LPRNT_SIZSIZ 9
typedef struct {
char owner[LPRNT_OWNSIZ];
char space1;
char status[LPRNT_STATSIZ];
char space2;
char jobname[LPRNT_JOBSIZ];
char space3;
char jobid[LPRNT_IDSIZ];
char space4;
char size[LPRNT_SIZSIZ];
char terminator;
} nt_lpq_line;
nt_lpq_line parse_line;
#define LPRNT_PRINTING "Printing"
#define LPRNT_WAITING "Waiting"
#define LPRNT_PAUSED "Paused"
memset(&parse_line, '\0', sizeof(parse_line));
strncpy((char *) &parse_line, line, sizeof(parse_line) -1);
if (strlen((char *) &parse_line) != sizeof(parse_line) - 1) {
return False;
}
/* Just want the first word in the owner field - the username */
if (strchr_m(parse_line.owner, ' ')) {
*(strchr_m(parse_line.owner, ' ')) = '\0';
} else {
parse_line.space1 = '\0';
}
/* Make sure we have an owner */
if (!strlen(parse_line.owner)) {
return False;
}
/* Make sure the status is valid */
parse_line.space2 = '\0';
trim_char(parse_line.status, '\0', ' ');
if (!strequal(parse_line.status, LPRNT_PRINTING) &&
!strequal(parse_line.status, LPRNT_PAUSED) &&
!strequal(parse_line.status, LPRNT_WAITING)) {
return False;
}
parse_line.space3 = '\0';
trim_char(parse_line.jobname, '\0', ' ');
buf->job = atoi(parse_line.jobid);
buf->priority = 0;
buf->size = atoi(parse_line.size);
buf->time = time(NULL);
fstrcpy(buf->fs_user, parse_line.owner);
fstrcpy(buf->fs_file, parse_line.jobname);
if (strequal(parse_line.status, LPRNT_PRINTING)) {
buf->status = LPQ_PRINTING;
} else if (strequal(parse_line.status, LPRNT_PAUSED)) {
buf->status = LPQ_PAUSED;
} else {
buf->status = LPQ_QUEUED;
}
return True;
}
/*******************************************************************
parse lpq on an OS2 system
JobID File Name Rank Size Status Comment
----- --------------- ------ -------- ------------ ------------
3 Control 1 68 Queued root@psflinu
4 /etc/motd 2 11666 Queued root@psflinu
********************************************************************/
static bool parse_lpq_os2(char *line,print_queue_struct *buf,bool first)
{
#define LPROS2_IDSIZ 5
#define LPROS2_JOBSIZ 15
#define LPROS2_SIZSIZ 8
#define LPROS2_STATSIZ 12
#define LPROS2_OWNSIZ 12
typedef struct {
char jobid[LPROS2_IDSIZ];
char space1[2];
char jobname[LPROS2_JOBSIZ];
char space2[14];
char size[LPROS2_SIZSIZ];
char space3[4];
char status[LPROS2_STATSIZ];
char space4[4];
char owner[LPROS2_OWNSIZ];
char terminator;
} os2_lpq_line;
os2_lpq_line parse_line;
#define LPROS2_PRINTING "Printing"
#define LPROS2_WAITING "Queued"
#define LPROS2_PAUSED "Paused"
memset(&parse_line, '\0', sizeof(parse_line));
strncpy((char *) &parse_line, line, sizeof(parse_line) -1);
if (strlen((char *) &parse_line) != sizeof(parse_line) - 1) {
return False;
}
/* Get the jobid */
buf->job = atoi(parse_line.jobid);
/* Get the job name */
parse_line.space2[0] = '\0';
trim_char(parse_line.jobname, '\0', ' ');
fstrcpy(buf->fs_file, parse_line.jobname);
buf->priority = 0;
buf->size = atoi(parse_line.size);
buf->time = time(NULL);
/* Make sure we have an owner */
if (!strlen(parse_line.owner)) {
return False;
}
/* Make sure we have a valid status */
parse_line.space4[0] = '\0';
trim_char(parse_line.status, '\0', ' ');
if (!strequal(parse_line.status, LPROS2_PRINTING) &&
!strequal(parse_line.status, LPROS2_PAUSED) &&
!strequal(parse_line.status, LPROS2_WAITING)) {
return False;
}
fstrcpy(buf->fs_user, parse_line.owner);
if (strequal(parse_line.status, LPROS2_PRINTING)) {
buf->status = LPQ_PRINTING;
} else if (strequal(parse_line.status, LPROS2_PAUSED)) {
buf->status = LPQ_PAUSED;
} else {
buf->status = LPQ_QUEUED;
}
return True;
}
static const char *stat0_strings[] = { "enabled", "online", "idle", "no entries", "free", "ready", NULL };
static const char *stat1_strings[] = { "offline", "disabled", "down", "off", "waiting", "no daemon", NULL };
static const char *stat2_strings[] = { "jam", "paper", "error", "responding", "not accepting", "not running", "turned off", NULL };
#ifdef DEVELOPER
/****************************************************************************
parse a vlp line
****************************************************************************/
static bool parse_lpq_vlp(char *line,print_queue_struct *buf,bool first)
{
int toknum = 0;
fstring tok;
const char *cline = line;
/* First line is printer status */
if (!isdigit(line[0])) return False;
/* Parse a print job entry */
while(next_token(&cline, tok, NULL, sizeof(fstring))) {
switch (toknum) {
case 0:
buf->job = atoi(tok);
break;
case 1:
buf->size = atoi(tok);
break;
case 2:
buf->status = atoi(tok);
break;
case 3:
buf->time = atoi(tok);
break;
case 4:
fstrcpy(buf->fs_user, tok);
break;
case 5:
fstrcpy(buf->fs_file, tok);
break;
}
toknum++;
}
return True;
}
#endif /* DEVELOPER */
/****************************************************************************
parse a lpq line. Choose printing style
****************************************************************************/
bool parse_lpq_entry(enum printing_types printing_type,char *line,
print_queue_struct *buf,
print_status_struct *status,bool first)
{
bool ret;
switch (printing_type) {
case PRINT_SYSV:
ret = parse_lpq_sysv(line,buf,first);
break;
case PRINT_AIX:
ret = parse_lpq_aix(line,buf,first);
break;
case PRINT_HPUX:
ret = parse_lpq_hpux(line,buf,first);
break;
case PRINT_QNX:
ret = parse_lpq_qnx(line,buf,first);
break;
case PRINT_LPRNG:
ret = parse_lpq_lprng(line,buf,first);
break;
case PRINT_PLP:
ret = parse_lpq_plp(line,buf,first);
break;
case PRINT_LPRNT:
ret = parse_lpq_nt(line,buf,first);
break;
case PRINT_LPROS2:
ret = parse_lpq_os2(line,buf,first);
break;
#ifdef DEVELOPER
case PRINT_VLP:
case PRINT_TEST:
ret = parse_lpq_vlp(line,buf,first);
break;
#endif /* DEVELOPER */
default:
ret = parse_lpq_bsd(line,buf,first);
break;
}
/* We don't want the newline in the status message. */
{
char *p = strchr_m(line,'\n');
if (p) {
*p = 0;
}
}
/* in the LPRNG case, we skip lines starting by a space.*/
if (!ret && (printing_type==PRINT_LPRNG) ) {
if (line[0]==' ') {
return ret;
}
}
if (status && !ret) {
/* a few simple checks to see if the line might be a
printer status line:
handle them so that most severe condition is shown */
int i;
strlower_m(line);
switch (status->status) {
case LPSTAT_OK:
for (i=0; stat0_strings[i]; i++) {
if (strstr_m(line,stat0_strings[i])) {
fstrcpy(status->message,line);
status->status=LPSTAT_OK;
return ret;
}
}
/* fallthrough */
case LPSTAT_STOPPED:
for (i=0; stat1_strings[i]; i++) {
if (strstr_m(line,stat1_strings[i])) {
fstrcpy(status->message,line);
status->status=LPSTAT_STOPPED;
return ret;
}
}
/* fallthrough */
case LPSTAT_ERROR:
for (i=0; stat2_strings[i]; i++) {
if (strstr_m(line,stat2_strings[i])) {
fstrcpy(status->message,line);
status->status=LPSTAT_ERROR;
return ret;
}
}
break;
}
}
return ret;
}