This file is indexed.

/usr/lib/ltp/runtest/quickhit is in ltp-kernel-test 20091231+dfsg-1ubuntu2.

This file is owned by root:root, with mode 0o644.

The actual contents of the file can be viewed below.

  1
  2
  3
  4
  5
  6
  7
  8
  9
 10
 11
 12
 13
 14
 15
 16
 17
 18
 19
 20
 21
 22
 23
 24
 25
 26
 27
 28
 29
 30
 31
 32
 33
 34
 35
 36
 37
 38
 39
 40
 41
 42
 43
 44
 45
 46
 47
 48
 49
 50
 51
 52
 53
 54
 55
 56
 57
 58
 59
 60
 61
 62
 63
 64
 65
 66
 67
 68
 69
 70
 71
 72
 73
 74
 75
 76
 77
 78
 79
 80
 81
 82
 83
 84
 85
 86
 87
 88
 89
 90
 91
 92
 93
 94
 95
 96
 97
 98
 99
100
101
102
103
104
105
106
107
108
109
110
111
112
113
114
115
116
117
118
119
120
121
122
123
124
125
126
127
128
129
130
131
132
133
134
135
136
137
138
139
140
141
142
143
144
145
146
147
148
149
150
151
152
153
154
155
156
157
158
159
160
161
162
163
164
165
166
167
168
169
170
171
172
173
174
175
176
177
178
179
180
181
182
183
184
185
186
187
188
189
190
191
192
193
194
195
196
197
198
199
200
201
202
203
204
205
206
207
208
209
210
211
212
213
214
215
216
217
218
219
220
221
222
223
224
225
226
227
228
229
230
231
232
233
234
235
236
237
238
239
240
241
242
243
244
245
246
247
248
249
250
251
252
253
254
255
256
257
258
259
260
261
262
263
264
265
266
267
268
269
270
271
272
273
274
275
276
277
278
279
280
281
282
283
284
285
286
287
288
289
290
291
292
293
294
295
296
297
298
299
300
301
302
303
304
305
306
307
308
309
310
311
312
313
314
315
316
317
318
319
320
321
322
323
324
325
326
327
328
329
330
331
332
333
334
335
336
337
338
339
340
341
342
343
344
345
346
347
348
349
350
351
352
353
354
355
356
357
358
359
360
361
362
363
364
365
366
367
#DESCRIPTION:A small subset of the syscalls
access01 access01
# Basic test for access(2) using F_OK, R_OK, W_OK and X_OK arguments.
access03 access03
# EFAULT error testing for access(2)
alarm01 alarm01
# Basic test for alarm(2)
alarm02 alarm02
# Boundary Value Test for alarm(2)
#    TEST CASES
#      Test Case One - A call to alarm() shall not return an error if 
#       seconds is a -1.
#       Test FAILS if a non-zero value is returned.
#      Test Case Two - A call to alarm() shall not return an error if
#       seconds is the maximum unsigned integer (2**63).
#       Test FAILS if a non-zero value is returned.
#      Test Case Three - A call to alarm() shall not return an error if
#       seconds is the maximum unsigned integer plus 1 ((2**63)+1).
#       Test FAILS if a non-zero value is returned.
alarm03 alarm03
# alarm(2) cleared by a fork
#    TEST CASES
# 	1.) alarm(100), fork, child's alarm(0) shall return 0;
#	2.) alarm(100), fork, parent's alarm(0) shall return non-zero.
asyncio02 asyncio02
# 	Attempt to get some memory to work with.
# 	Call testrun writing (BUFSIZ + 1) bytes
# 	Call testrun writing BUFSIZ bytes
# 	Repeated call to testrun() with decreasing write sizes
# 		less than BUFSIZ
# 	End
# 
# 	Start testrun()
# 	Attempt to open a temporary file.
# 	Write the memory to the file.
# 	Attempt to close the file which also flushes the buffers.
# 	Now check to see if the number of bytes written is the
# 		same as the number of bytes in the file.
# 	Cleanup
brk01 brk01
# Basic test for brk()
#    TEST CASES
# 	1.) brk(2) returns...
chdir02 chdir02
# Basic test for chdir(2)
#    TEST CASES
# 	1.) chdir(2) returns...
chmod02 chmod02
# Basic test for chmod(2)
#    TEST CASES
# 	1.) chmod(2) returns...
chown01 chown01
# Basic test for chown(2)
#    TEST CASES
# 	1.) chown(2) returns...
close08 close08
# Basic test for close(2)
#    TEST CASES
# 	1.) close(2) returns...
creat09 creat09
# Basic test for creat(2) using 0700 argument.
#    TEST CASES
# 	1.) creat(2) returns...
dup01 dup01
# Basic test for dup(2)
#    TEST CASES
# 	1.) dup(2) returns...(See Description)
dup02 dup02
#  Negative test for dup(2) with bad fd
#    TEST CASES
# 	1-?.) dup(2) returns -1 with errno set to EBADF...(See Description)
dup03 dup03
# Negative test for dup(2) (too many fds)
dup04 dup04
# Basic test for dup(2) of a system pipe descriptor
dup05 dup05
# Basic test for dup(2) of a named pipe descriptor
execl01 execl01
# Basic test for execl(2)
execle01 execle01
# Basic test for execle(2)
execlp01 execlp01
# Basic test for execlp(2
execv01 execv01
# Basic test for execv(2)
execve01 execve01
# Basic test for execve(2)
execvp01 execvp01
# Basic test for execvp(2)
f00f f00f
# This is a simple test for handling of the pentium f00f bug.
# It is an example of a catistrophic test case.  If the system
# doesn't correctly handle this test, it will likely lockup.
fchmod01 fchmod01
# Basic test for fchmod(2) using 0700 argument.
fchown01 fchown01
# Basic test for fchown(2)
fcntl02 fcntl02
# Basic test for fcntl(2) using F_DUPFD argument
fcntl03 fcntl03
# Basic test for fcntl(2) using F_GETFD argument
fcntl04 fcntl04
# Basic test for fcntl(2) using F_GETFL argument
fcntl05 fcntl05
# Basic test for fcntl(2) using F_GETLK argument
fcntl07 fcntl07
# Close-On-Exec functional test
#    TEST CASES
# 	1.) test close-on-exec with a regular file
# 	2.) test close-on-exec with a system pipe
fcntl07B fcntl07B
# Close-On-Exec of named pipe functional test
#    TEST CASES
#	1.) test close-on-exec with a named pipe
fcntl08 fcntl08
# Basic test for fcntl(2) using F_SETFL argument
fcntl09 fcntl09
# Basic test for fcntl(2) using F_SETLK argument
fcntl10 fcntl10
# Basic test for fcntl(2) using F_SETLKW argument
fork01 fork01
# Basic test for fork(2)
#    TEST CASES
# 	1.) fork returns without error
# 	2.) fork returns the pid of the child
fork04 fork04
# Child inheritance of Environment Variables after fork()
#    TEST CASES
#       Test these environment variables correctly inherited by child:
#       1. TERM 
#       2. NoTSetzWq
#       3. TESTPROG 
fork05 fork05
# This is a test sent in my Ulrich Drepper to test for a bug in fork() where
# %gs is not handled correctly.  See fork05.c for a copy of Ulrich's email
fpathconf01 fpathconf01
# Basic test for fpathconf(2)
fstat01 fstat01
# Basic test for fstat(2) 
fstatfs01 fstatfs01
# Basic test for fstatfs(2)
fsync01 fsync01
# Basic test for fsync(2)
getegid01 getegid01
# Basic test for getegid(2)
geteuid01 geteuid01
# Basic test for geteuid(2)
getgid01 getgid01
# Basic test for getgid(2) 
getgroups01 getgroups01
# Getgroups system call critical test
#    TEST CASES
# 	1. Check to see if getgroups(-1, gidset) fails and sets errno to EINVAL
# 	2. Check to see if getgroups(0, gidset) does not return -1 and gidset is
# 	not modified.
# 	3. Check to see if getgroups(x, gigset) fails and sets errno to EINVAL,
# 	where x is one less then what is returned by getgroups(0, gidset).
# 	4. Check to see if getgroups() succeeds and gidset contains
# 	group id returned from getgid().
getgroups02 getgroups02
# Basic test for getgroups(2)
gethostid01 gethostid01
# Basic test for gethostid(2)
gethostname01 gethostname01
# Basic test for gethostname(2)
getpgrp01 getpgrp01
# Basic test for getpgrp(2) 
getpid01 getpid01
# Basic test for getpid(2) 
getppid01 getppid01
# Basic test for getppid(2) 
getuid01 getuid01
# Basic test for getuid(2) 
kill02 kill02
# Sending a signal to processes with the same process group ID.
kill09 kill09
# Basic test for kill(2)
link02 link02
# Basic test for link(2)
link03 link03
# multi links tests
link04 link04
# Negative test cases for link(2)
link05 link05
# multi links (EMLINK) negative test
lseek01 lseek01
# Basic test for lseek(2)
lseek02 lseek02
# Negative test for lseek(2)
lseek03 lseek03
# Negative test for lseek(2) whence
lseek04 lseek04
# Negative test for lseek(2) of a fifo
lseek05 lseek05
# Negative test for lseek(2) of a pipe
lstat02 lstat02
# Basic test for lstat(2)
mkdir01 mkdir01
# Basic errno test for mkdir(2)
mkdir08 mkdir08
# Basic test for mkdir(2)
qmm01 mmap001 -m 1
# Basic mmap() test.
nice05 nice05
# Basic test for nice(2)
open03 open03
# Basic test for open(2)
pathconf01 pathconf01
# Basic test for pathconf(2)
pause01 pause01
# Basic test for pause(2)
read01 read01
# Basic test for read(2)
readdir01 readdir01
# write multiple files and try to find them with readdir
#    TEST CASES
# 	1.) Create n files and check that readdir() finds n files
readlink02 readlink02
# Basic test for readlink(2)
rename02 rename02
# Basic test for rename(2)
rmdir04 rmdir04
# Basic test for rmdir(2)
rmdir05 rmdir05
# rmdir(2) test for errno(s) EINVAL, EMLINK, EFAULT
sbrk01 sbrk01
# Basic test for sbrk(2)
select01 select01
# select to a file
#    TEST CASES
#      1.) select(2) to a fd of regular file with no I/O and small timeout
select02 select02
# select of system pipe fds
select03 select03
# select of fd of a named-pipe (FIFO)
setgid01 setgid01
# Basic test for setgid(2)
setpgid01 setpgid01
# Basic test for setpgid(2)
setpgrp01 setpgrp01
# Basic test for setpgrp(2)
setregid01 setregid01
# Basic test for setregid(2)
setreuid01 setreuid01
# Basic test for setreuid(2)
setuid01 setuid01
# Basic test for setuid(2)
sighold02 sighold02
# Holding all signals
signal03 signal03
# Boundary value and other invalid value checking of signal setup 
# and signal sending.
sigrelse01 sigrelse01
# Releasing held signals
stat05 stat05
# Basic test for stat(2)
stat06 stat06
# Negative tests for stat(2)
statfs01 statfs01
# Basic test for statfs(2) mounted filesys
statvfs01 statvfs01
# Basic test for statvfs(2) mounted filesys
sync01 sync01
# Basic test for sync(2) 
time01 time01
# Basic test for time(2)
times01 times01
# Basic test for times(2)
ulimit01 ulimit01
# Basic test for ulimit(2)
umask01 umask01
# Basic test for umask(2)
uname01 uname01
# Basic test for uname(2)
unlink05 unlink05
# Basic test for unlink(2)
unlink06 unlink06
# unlink(2) of a FIFO
unlink07 unlink07
# unlink(2) negative testcases
unlink08 unlink08
# unlink(2) negative testcases
wait02 wait02
# Basic test for wait(2)
write01 write01
# Basic test for write(2)
symlink01 symlink01
# Make a Symbolic Link to a File
#    TEST CASES
# 	1. Create symbolic link with abnormal object name path
# 	2. Create symbolic link with normal object name path
# 	3. Create symbolic link with path to an existing object file
# 	4. Receive EEXIST error when creating an already existing symbolic link file.
# 	5. Receive ENAMETOOLONG error when creating symbolic link which exceeds PATH_MAX in length
symlink02 symlink02
# Basic test for symlink(2)
readlink01A symlink01 -T readlink01
# Reads Value of a Symbolic Link
#    TEST CASES
# 	1. Read a symbolic link file which points at no object file
# 	2. Read a symbolic link file which points at an object file
# 	3. Receive ENAMETOOLONG error when reading symbolic link which exceeds PATH_MAX in length
# 	4. Receive an EINVAL error when reading a file which is not a symbolic
# link file.
stat04 symlink01 -T stat04
# Gets File Status Indirectly From a Symbolic Link File
#    TEST CASES
# 	1. Get object file status through symbolic link file
# 	2. Receive ENOENT error when accessing non-existent object file through symbolic link file
# 	3. Receive ELOOP error when nesting of symbolic links exceed maximum
lstat01A symlink01 -T lstat01
# Get file Status About a Symbolic Link File
#    TEST CASES
# 	1. Get symbolic link file status when pointing at no object file
# 	2. Get symbolic link file status when pointing at an object file
# 	3. Get object file status when argument is not a symbolic link
# file.
mkdir05A symlink01 -T mkdir05
# Fail When Making a Directory File Indirectly From a Symbolic Link File
#    TEST CASES
# 	1. Receive EEXIST error when creating a directory through a symbolic link file
rmdir03A symlink01 -T rmdir03
# Fail When Removing a Directory File Indirectly From a Symbolic Link File
#    TEST CASES
# 	1. Receive ENOTDIR error when removing an existing directory through a symbolic link file
chdir01A symlink01 -T chdir01
# Changes Current Working DIrectory Location Indirectly From a Symbolic Link File
#    TEST CASES
# 	1. Change current working directory through a symbolic link file
# 	2. Receive ENOENT error when accessing non-existent directory through symbolic link file
# 	3. Receive ELOOP error when nesting of symbolic links exceed maximum
link01 symlink01 -T link01
# Creates a Link To a File Indirectly From a Symbolic Link File
#    TEST CASES
# 	1. Link an object file to a new file through symbolic link file
# 	2. Receive ENOENT error when accessing non-existent object file through symbolic link file
# 	3. Receive ELOOP error when nesting of symbolic links exceed maximum
unlink01 symlink01 -T unlink01
# Removes a Link To a File And Not Any Object File Which Maybe Pointed At
#    TEST CASES
# 	1. Delete a symbolic link file and not the object file which it points at
chmod01A symlink01 -T chmod01
# Change Object File Permissions Indirectly From a Symbolic Link File
#    TEST CASES
# 	1. Change file permissions of object file through a symbolic link file
# 	2. Receive ENOENT error when accessing non-existent directory through symbolic link file
# 	3. Receive ELOOP error when nesting of symbolic links exceed maximum
utime01A symlink01 -T utime01
# Set File Access And Modify Object File Times Indirectly From a Symbolic Link File
#    TEST CASES
# 	1. Change inode times of object file through a symbolic link file
# 	2. Receive ENOENT error when accessing non-existent directory through symbolic link file
# 	3. Receive ELOOP error when nesting of symbolic links exceed maximum
rename01A symlink01 -T rename01
# Rename a Symbolic Link File And Not Any Object File
#    TEST CASES
# 	1. Rename a symbolic link file which points at no object file
# 	2. Rename a symbolic link file which points at an object file without any object file alterations.
# 	3. Receive EXDEV when trying to rename a symbolic link file to an address outside of current file system
open01A symlink01 -T open01
# Create/Open a File For Reading Or Writing Indirectly From a Symbolic Link File
#    TEST CASES
#  	1. Create an object file through a symbolic link file
#  	2. Open an object file through a symbolic link file
#  	3. Receive EEXIST error when exclusively creating an object file through a symbolic link file
#  	4. Receive ENOENT error when accessing non-existent object file through symbolic link file
#  	5. Receive ELOOP error when nesting of symbolic links exceed maximum