NetBSD/usr.sbin/rpc.pcnfsd/pcnfsd_test.c
1995-07-25 22:20:13 +00:00

573 lines
12 KiB
C

/* $NetBSD: pcnfsd_test.c,v 1.2 1995/07/25 22:21:01 gwr Exp $ */
/* RE_SID: @(%)/usr/dosnfs/shades_SCCS/unix/pcnfsd/v2/src/SCCS/s.pcnfsd_test.c 1.2 92/01/27 18:00:39 SMI */
#include <stdio.h>
#include <rpc/rpc.h>
#include <malloc.h>
#include "pcnfsd.h"
CLIENT *cl;
CLIENT *cl2;
char *server;
char spooldirbuff[256];
char filenamebuff[256];
char last_id[32] = "";
void free_pr_list_item();
void free_pr_queue_item();
void good();
void bad();
main(argc, argv)
int argc;
char *argv[];
{
char *host_name;
char *printer;
char *user_name;
char *passwd;
char *transport = "udp";
if((argc < 6) || (argc > 7)) {
fprintf(stderr, "usage: %s server host printer user password [transport]\n",
argv[0]);
exit(1);
}
server = argv[1];
host_name = argv[2];
printer = argv[3];
user_name = argv[4];
passwd = argv[5];
if (argc == 7)
transport = argv[6];
cl = clnt_create(server, PCNFSDPROG, PCNFSDVERS, transport);
if(cl == NULL) {
clnt_pcreateerror(server);
exit(1);
}
cl2 = clnt_create(server, PCNFSDPROG, PCNFSDV2, transport);
if(cl2 == NULL) {
clnt_pcreateerror(server);
exit(1);
}
good();
test_v2_info();
good();
test_v2_auth(host_name, user_name, passwd);
bad("Invalid password");
test_v2_auth(host_name, user_name, "bogus");
good();
test_v2_list();
good();
test_v2_init(host_name, printer);
good();
test_v2_start(host_name, printer, user_name, "foo", "foo");
good();
test_v2_start(host_name, printer, user_name, "bar", "bar");
bad("No such file to print");
test_v2_start(host_name, printer, user_name, "bletch", "gack");
good();
test_v2_queue(printer, user_name, FALSE);
if(strlen(last_id)) {
bad("Cancelling job with bad username");
test_v2_cancel(host_name, printer, "nosuchuser", last_id);
good();
test_v2_cancel(host_name, printer, user_name, last_id);
}
bad("Cancelling unknown job");
test_v2_cancel(host_name, printer, user_name, "99999");
bad("Cancelling job on invalid printer");
test_v2_cancel(host_name, "nosuchprinter", user_name, last_id);
good();
test_v2_queue(printer, user_name, TRUE);
bad("Checking queue on invalid printer");
test_v2_queue("nosuchprinter", user_name, TRUE);
good();
test_v2_stat(printer);
bad("Checking status of invalid printer");
test_v2_stat("nosuchprinter");
good();
test_v2_map();
exit(0);
/*NOTREACHED*/
}
#define zchar 0x5b
void
scramble(s1, s2)
char *s1;
char *s2;
{
while (*s1)
{
*s2++ = (*s1 ^ zchar) & 0x7f;
s1++;
}
*s2 = 0;
}
test_v2_info()
{
v2_info_args a;
v2_info_results *rp;
int *gp;
int i;
a.vers = "Sun Microsystems PCNFSD test subsystem V1";
a.cm = "-";
printf("\ninvoking pr_info_2\n");
rp = pcnfsd2_info_2(&a, cl2);
if(rp == NULL) {
clnt_perror(cl2, server);
return(1);
}
printf("results: vers = '%s', cm = '%s'\n",
rp->vers, rp->cm);
printf("facilities_len = %d\n", rp->facilities.facilities_len);
if (rp->facilities.facilities_len) {
gp = rp->facilities.facilities_val;
for(i = 0; i < rp->facilities.facilities_len; i++)
printf(" procedure %2d: %6d\n", i, *gp++);
printf("\n");
}
/* free up allocated strings */
if(rp->cm)
free(rp->cm);
if(rp->facilities.facilities_val)
free(rp->facilities.facilities_val);
if(rp->vers)
free(rp->vers);
return(0);
}
test_v2_auth(host_name, user_name , pwrd)
char *host_name;
char *user_name;
char *pwrd;
{
v2_auth_args a;
v2_auth_results *rp;
char uname[32];
char pw[64];
u_int *gp;
int i;
scramble(user_name, uname);
scramble(pwrd, pw);
a.system = host_name;
a.id = uname;
a.pw = pw;
a.cm = "-";
printf("\ninvoking pr_auth_2\n");
rp = pcnfsd2_auth_2(&a, cl2);
if(rp == NULL) {
clnt_perror(cl2, server);
return(1);
}
if(rp->stat == AUTH_RES_FAIL)
printf("results: stat = AUTH_RES_FAIL\n");
else {
printf("results: stat = %d, uid = %u, gid = %u,\n homedir= '%s', cm = '%s'\n",
rp->stat, rp->uid, rp->gid, rp->home, rp->cm);
printf("gids_len = %d", rp->gids.gids_len);
if (rp->gids.gids_len) {
gp = rp->gids.gids_val;
for(i = 0; i < rp->gids.gids_len; i++)
printf(" %u", *gp++);
printf("\n");
}
}
/* free up allocated strings */
if(rp->cm)
free(rp->cm);
if(rp->gids.gids_val)
free(rp->gids.gids_val);
if(rp->home)
free(rp->home);
return(0);
}
test_v2_init(host_name, printer)
char *host_name;
char *printer;
{
v2_pr_init_args a;
v2_pr_init_results *rp;
a.system = host_name;
a.pn = printer;
a.cm = "-";
printf("\ninvoking pr_init_2\n");
rp = pcnfsd2_pr_init_2(&a, cl2);
if(rp == NULL) {
clnt_perror(cl2, server);
return(1);
}
printf("results: stat = %d, dir = '%s', cm = '%s'\n",
rp->stat, rp->dir, rp->cm);
strcpy(spooldirbuff, rp->dir);
/* free up allocated strings */
if(rp->cm)
free(rp->cm);
if(rp->dir)
free(rp->dir);
return(0);
}
test_v2_start(host_name, printer, user_name, tag1, tag2)
char *host_name;
char *printer;
char *user_name;
char *tag1;
char *tag2;
{
v2_pr_start_args a;
v2_pr_start_results *rp;
FILE *fp;
printf("\ntesting start print v2\n");
if(strcmp(server, "localhost")) {
printf("sorry - can only test start print on 'localhost'\n");
return(1);
}
sprintf(filenamebuff, "%s/%s", spooldirbuff, tag1);
fp = fopen(filenamebuff, "w");
if(fp == NULL) {
perror("creating test file");
return(1);
}
(void)fputs("foo bar bletch\n", fp);
(void)fclose(fp);
a.system = host_name;
a.pn = printer;
a.user = user_name;
a.file = tag2;
a.opts = "xxxx";
a.copies = 1;
a.cm = "-";
printf("\ninvoking pr_start_2\n");
rp = pcnfsd2_pr_start_2(&a, cl2);
if(rp == NULL) {
clnt_perror(cl2, server);
return(1);
}
printf("results: stat = %d, jobid = '%s', cm = '%s'\n",
rp->stat, rp->id, rp->cm);
if(rp->stat == PS_RES_OK)
strcpy(last_id, rp->id);
/* free up allocated strings */
if(rp->cm)
free(rp->cm);
if(rp->id)
free(rp->id);
return(0);
}
test_v2_cancel(host_name, printer, user_name, id)
char *host_name;
char *printer;
char *user_name;
char *id;
{
v2_pr_cancel_args a;
v2_pr_cancel_results *rp;
printf("\ntesting cancel print v2\n");
a.system = host_name;
a.pn = printer;
a.user = user_name;
a.id = id;
a.cm = "-";
printf("\ninvoking pr_cancel_2 for job %s on printer %s\n",
id, printer);
rp = pcnfsd2_pr_cancel_2(&a, cl2);
if(rp == NULL) {
clnt_perror(cl2, server);
return(1);
}
printf("results: stat = %d, cm = '%s'\n",
rp->stat, rp->cm);
/* free up allocated strings */
if(rp->cm)
free(rp->cm);
return(0);
}
test_v2_list()
{
char a;
v2_pr_list_results *rp;
pr_list curr;
printf("\ninvoking pr_list_2\n");
rp = pcnfsd2_pr_list_2(&a, cl2);
if(rp == NULL) {
clnt_perror(cl2, server);
return(1);
}
printf("results: cm = '%s', printerlist:\n", rp->cm);
curr = rp->printers;
while(curr) {
printf(" name '%s' ", curr->pn);
if(strlen(curr->remhost))
printf("remote: srvr '%s', name '%s'",
curr->remhost,
curr->device);
else
printf("local device = '%s'", curr->device);
printf(", cm = '%s'\n", curr->cm);
curr = curr->pr_next;
}
printf("end of list\n");
/* free up allocated strings */
if(rp->cm)
free(rp->cm);
if(rp->printers) {
printf("freeing results\n");
free_pr_list_item(rp->printers);
}
return(0);
}
void
free_pr_list_item(curr)
pr_list curr;
{
if(curr->pn)
free(curr->pn);
if(curr->remhost)
free(curr->remhost);
if(curr->device)
free(curr->device);
if(curr->cm)
free(curr->cm);
if(curr->pr_next)
free_pr_list_item(curr->pr_next); /* recurse */
free(curr);
}
test_v2_queue(printer, user_name, private)
char *printer;
char *user_name;
int private;
{
struct v2_pr_queue_args a;
v2_pr_queue_results *rp;
pr_queue curr;
a.pn = printer;
a.system = "foo";
a.user = user_name;
a.just_mine = private;
a.cm = "no";
printf("\ninvoking pr_queue_2 (just_mine = %d)\n", private);
rp = pcnfsd2_pr_queue_2(&a, cl2);
if(rp == NULL) {
clnt_perror(cl2, server);
return(1);
}
printf("results: stat = %d, qlen = %d, qshown = %d cm = '%s', queue:\n",
rp->stat, rp->qlen, rp->qshown, rp->cm);
curr = rp->jobs;
while(curr) {
printf("rank = %2d, id = '%s', size = '%s', status = '%s'\n",
curr->position,
curr->id,
curr->size,
curr->status);
printf(" user = '%s', file = '%s', cm = '%s'\n",
curr->user,
curr->file,
curr->cm);
curr = curr->pr_next;
}
printf("end of list\n");
/* free up allocated strings */
if(rp->cm)
free(rp->cm);
if(rp->jobs) {
printf("freeing results\n");
free_pr_queue_item(rp->jobs);
}
return(0);
}
void
free_pr_queue_item(curr)
pr_queue curr;
{
if(curr->id)
free(curr->id);
if(curr->size)
free(curr->size);
if(curr->status)
free(curr->status);
if(curr->system)
free(curr->system);
if(curr->user)
free(curr->user);
if(curr->file)
free(curr->file);
if(curr->cm)
free(curr->cm);
if(curr->pr_next)
free_pr_queue_item(curr->pr_next); /* recurse */
free(curr);
}
test_v2_stat(printer)
char *printer;
{
v2_pr_status_args a;
v2_pr_status_results *rp;
printf("\ntesting status print v2\n");
a.pn = printer;
a.cm = "-";
printf("\ninvoking pr_status_2\n");
rp = pcnfsd2_pr_status_2(&a, cl2);
if(rp == NULL) {
clnt_perror(cl2, server);
return(1);
}
printf("results: stat = %d, cm = '%s'\n",
rp->stat, rp->cm);
if(rp->stat == PI_RES_OK) {
printf("avail = %s, ", (rp->avail ? "YES" : "NO"));
printf("printing = %s, ", (rp->printing ? "YES" : "NO"));
printf("needs_operator = %s, ", (rp->needs_operator ? "YES" : "NO"));
printf("qlen = %d, status = '%s'\n", rp->qlen, rp->status);
}
/* free up allocated strings */
if(rp->cm)
free(rp->cm);
if(rp->status)
free(rp->status);
return(0);
}
struct mapreq_arg_item * make_mapreq_entry(t, i, n, next)
mapreq t;
int i;
char *n;
struct mapreq_arg_item *next;
{
struct mapreq_arg_item *x;
x = (struct mapreq_arg_item *)malloc(sizeof(struct mapreq_arg_item));
if(x == NULL) {
fprintf(stderr, "out of memory\n");
exit(123);
}
x->req = t;
x->id = i;
x->name = (n ? n : "");
x->mapreq_next = next;
return(x);
}
test_v2_map()
{
v2_mapid_args a;
v2_mapid_results *rp;
struct mapreq_res_item *rip;
a.cm = "-";
a.req_list = make_mapreq_entry(MAP_REQ_UID, 906, NULL,
make_mapreq_entry(MAP_REQ_GID, 1, NULL,
make_mapreq_entry(MAP_REQ_UNAME, 0, "root",
make_mapreq_entry(MAP_REQ_GNAME, 0, "wheel",
make_mapreq_entry(MAP_REQ_UNAME, 0, "bogus", NULL)))));
printf("\ninvoking pr_mapid_2\n");
rp = pcnfsd2_mapid_2(&a, cl2);
if(rp == NULL) {
clnt_perror(cl2, server);
return(1);
}
printf("results: cm = '%s', result list %s\n",
rp->cm, rp->res_list ? "follows" : "omitted");
rip = rp->res_list;
while(rip) {
printf("request type = %d, status = %d, id = %d, name = '%s'\n",
rip->req, rip->stat, rip->id,
(rip->name ? rip->name : "(NULL)"));
rip = rip->mapreq_next;
}
/* XXX should free up results */
return(0);
}
void
good()
{
printf("\n");
printf("********************************************************\n");
printf("********************************************************\n");
printf("** The following test is expected to SUCCEED **\n");
printf("********************************************************\n");
printf("********************************************************\n");
}
void
bad(reason)
char *reason;
{
printf("\n");
printf("********************************************************\n");
printf("********************************************************\n");
printf("** The following test is expected to FAIL **\n");
printf("** Reason: **\n");
printf("** %50s **\n", reason);
printf("********************************************************\n");
printf("********************************************************\n");
}