Valgrind Invalid File Descriptor In Syscall Close

  1. Valgrind Invalid File Descriptor In Syscall Closed
  2. Valgrind Invalid File Descriptor In Syscall Closer
  3. Valgrind Invalid File Descriptor In Syscall Closed
  4. Valgrind Invalid File Descriptor In Syscall Close
  5. Valgrind Invalid File Descriptor In Syscall Close Command

Valgrind spec file. GitHub Gist: instantly share code, notes, and snippets. This shows up as a Valgrind warning 18197 Warning: invalid file descriptor -1 in syscall close 18197 at 0x5F6E5BD:??? (syscall-template.S:84) 18197. MARS maintains file descriptors internally and allocates them starting with 3. File descriptors 0, 1 and 2 are always open for: reading from standard input, writing to standard output, and writing to standard error, respectively (new in release 4.3). .Valgrind is a runtime analysis tool, unlike cppcheckparasoft here you must run the buggy code in order to detect issues.If you are using other libraries, Valgrind will warn you about issues found there, errors you might not able to, or don’t want to fix.

This shows up as a Valgrind warning

18197 Warning: invalid file descriptor -1 in syscall close()
18197 at 0x5F6E5BD: ??? (syscall-template.S:84)
18197 by 0xF95F34: inline_mysql_socket_close (mysql_socket.h:1090)
18197 by 0xF96AF3: vio_shutdown (viosocket.c:490)
18197 by 0x7C6BE0: THD::disconnect() (sql_class.cc:2057)
18197 by 0x637486: close_connection(THD*, unsigned int) (mysqld.cc:2886)
18197 by 0x7D63E3: do_handle_one_connection(THD*) (sql_connect.cc:1547)
18197 by 0x7D5E57: handle_one_connection (sql_connect.cc:1444)
18197 by 0xB98416: pfs_spawn_thread (pfs.cc:1860)
18197 by 0x5F656F9: start_thread (pthread_create.c:333)
18197 by 0x6B22B5C: clone (clone.S:109)

on e.g.

Close

rpl.rpl_semi_sync_shutdown_hang 'mix' [ fail ] Found warnings/errors in server log file!
rpl.rpl_gtid_mts_relay_log_recovery_auto_pos_on_off 'mix' w3 [ fail ] Found warnings/errors in server log file!
rpl.rpl_report_port 'mix' w1 [ fail ] Found warnings/errors in server log file!
rpl.rpl_recovery_replicate_same_server_id 'mix' w4 [ fail ] Found warnings/errors in server log file!
rpl.rpl_change_master_crash_safe 'mix' w2 [ fail ] Found warnings/errors in server log file!
rpl.rpl_change_master 'mix' w1 [ fail ] Found warnings/errors in server log file!
rpl.rpl_alter_repository 'mix' w3 [ fail ] Found warnings/errors in server log file!
rpl.rpl_gtid_deployment_step 'mix' w1 [ fail ] Found warnings/errors in server log file!
rpl.rpl_recovery_replicate_same_server_id 'row' w4 [ fail ] Found warnings/errors in server log file!
main.mysql_client_test w4 [ fail ] Found warnings/errors in server log file!
auth_sec.mysql_native_plugin w3 [ fail ] Found warnings/errors in server log file!

The reason is that THD::disconnect is getting called twice, once from server thread-killing thread:
kill_server_threads -> kill_server -> close_connections -> close_connection -> THD::disconnect;
and the second time from the query thread itself, as in the above stacktrace.

IntroSettingsSyscallsIDEDebuggingCommandToolsHistoryLimitationsException HandlersMacrosAcknowledgementsMARS home

SYSCALL functions available in MARS

Introduction

A number of system services, mainly for input and output, are available for use by your MIPS program. They are described in the table below.

MIPS register contents are not affected by a system call, except for result registers as specified in the table below.

How to use SYSCALL system services

Step 1. Load the service number in register $v0.
Step 2. Load argument values, if any, in $a0, $a1, $a2, or $f12 as specified.
Step 3. Issue the SYSCALL instruction.
Step 4. Retrieve return values, if any, from result registers as specified.
Example: display the value stored in $t0 on the console

Table of Available Services

ServiceCode in $v0ArgumentsResult
print integer1$a0 = integer to print
print float2$f12 = float to print
print double3$f12 = double to print
print string4$a0 = address of null-terminated string to print
read integer5$v0 contains integer read
read float6$f0 contains float read
read double7$f0 contains double read
read string8$a0 = address of input buffer
$a1 = maximum number of characters to read
See note below table
sbrk (allocate heap memory)9$a0 = number of bytes to allocate$v0 contains address of allocated memory
exit (terminate execution)10
print character11$a0 = character to printSee note below table
read character12$v0 contains character read
open file13$a0 = address of null-terminated string containing filename
$a1 = flags
$a2 = mode
$v0 contains file descriptor (negative if error). See note below table
read from file14$a0 = file descriptor
$a1 = address of input buffer
$a2 = maximum number of characters to read
$v0 contains number of characters read (0 if end-of-file, negative if error). See note below table
write to file15$a0 = file descriptor
$a1 = address of output buffer
$a2 = number of characters to write
$v0 contains number of characters written (negative if error). See note below table
close file16$a0 = file descriptor
exit2 (terminate with value)17$a0 = termination resultSee note below table
Services 1 through 17 are compatible with the SPIM simulator, other than Open File (13) as described in the Notes below the table. Services 30 and higher are exclusive to MARS.
time (system time)30$a0 = low order 32 bits of system time
$a1 = high order 32 bits of system time. See note below table
MIDI out31$a0 = pitch (0-127)
$a1 = duration in milliseconds
$a2 = instrument (0-127)
$a3 = volume (0-127)
Generate tone and return immediately. See note below table
sleep32$a0 = the length of time to sleep in milliseconds.Causes the MARS Java thread to sleep for (at least) the specified number of milliseconds. This timing will not be precise, as the Java implementation will add some overhead.
MIDI out synchronous 33$a0 = pitch (0-127)
$a1 = duration in milliseconds
$a2 = instrument (0-127)
$a3 = volume (0-127)
Generate tone and return upon tone completion. See note below table
print integer in hexadecimal34$a0 = integer to printDisplayed value is 8 hexadecimal digits, left-padding with zeroes if necessary.
print integer in binary35$a0 = integer to printDisplayed value is 32 bits, left-padding with zeroes if necessary.
print integer as unsigned36$a0 = integer to printDisplayed as unsigned decimal value.
(not used)37-39
set seed40$a0 = i.d. of pseudorandom number generator (any int).
$a1 = seed for corresponding pseudorandom number generator.
No values are returned. Sets the seed of the corresponding underlying Java pseudorandom number generator (java.util.Random). See note below table
random int41$a0 = i.d. of pseudorandom number generator (any int).$a0 contains the next pseudorandom, uniformly distributed int value from this random number generator's sequence. See note below table
random int range42$a0 = i.d. of pseudorandom number generator (any int).
$a1 = upper bound of range of returned values.
$a0 contains pseudorandom, uniformly distributed int value in the range 0 <= [int] < [upper bound], drawn from this random number generator's sequence. See note below table
random float43$a0 = i.d. of pseudorandom number generator (any int).$f0 contains the next pseudorandom, uniformly distributed float value in the range 0.0 <= f < 1.0 from this random number generator's sequence. See note below table
random double44$a0 = i.d. of pseudorandom number generator (any int).$f0 contains the next pseudorandom, uniformly distributed double value in the range 0.0 <= f < 1.0 from this random number generator's sequence. See note below table
(not used)45-49
ConfirmDialog50$a0 = address of null-terminated string that is the message to user$a0 contains value of user-chosen option
0: Yes
1: No
2: Cancel
InputDialogInt51$a0 = address of null-terminated string that is the message to user$a0 contains int read
$a1 contains status value
0: OK status
-1: input data cannot be correctly parsed
-2: Cancel was chosen
-3: OK was chosen but no data had been input into field
InputDialogFloat52$a0 = address of null-terminated string that is the message to user$f0 contains float read
$a1 contains status value
0: OK status
-1: input data cannot be correctly parsed
-2: Cancel was chosen
-3: OK was chosen but no data had been input into field
InputDialogDouble53$a0 = address of null-terminated string that is the message to user$f0 contains double read
$a1 contains status value
0: OK status
-1: input data cannot be correctly parsed
-2: Cancel was chosen
-3: OK was chosen but no data had been input into field
InputDialogString54$a0 = address of null-terminated string that is the message to user
$a1 = address of input buffer
$a2 = maximum number of characters to read
See Service 8 note below table
$a1 contains status value
0: OK status. Buffer contains the input string.
-2: Cancel was chosen. No change to buffer.
-3: OK was chosen but no data had been input into field. No change to buffer.
-4: length of the input string exceeded the specified maximum. Buffer contains the maximum allowable input string plus a terminating null.
MessageDialog55$a0 = address of null-terminated string that is the message to user
$a1 = the type of message to be displayed:
0: error message, indicated by Error icon
1: information message, indicated by Information icon
2: warning message, indicated by Warning icon
3: question message, indicated by Question icon
other: plain message (no icon displayed)
N/A
MessageDialogInt56$a0 = address of null-terminated string that is an information-type message to user
$a1 = int value to display in string form after the first string
N/A
MessageDialogFloat57$a0 = address of null-terminated string that is an information-type message to user
$f12 = float value to display in string form after the first string
N/A
MessageDialogDouble58$a0 = address of null-terminated string that is an information-type message to user
$f12 = double value to display in string form after the first string
N/A
MessageDialogString59$a0 = address of null-terminated string that is an information-type message to user
$a1 = address of null-terminated string to display after the first string
N/A

NOTES: Services numbered 30 and higher are not provided by SPIMDescriptor
Service 8 - Follows semantics of UNIX 'fgets'. For specified length n, string can be no longer than n-1. If less than that, adds newline to end. In either case, then pads with null byte If n = 1, input is ignored and null byte placed at buffer address. If n < 1, input is ignored and nothing is written to the buffer.
Service 11 - Prints ASCII character corresponding to contents of low-order byte.
Service 13 - MARS implements three flag values: 0 for read-only, 1 for write-only with create, and 9 for write-only with create and append. It ignores mode. The returned file descriptor will be negative if the operation failed. The underlying file I/O implementation uses java.io.FileInputStream.read() to read and java.io.FileOutputStream.write()File to write. MARS maintains file descriptors internally and allocates them starting with 3. File descriptors 0, 1 and 2 are always open for: reading from standard input, writing to standard output, and writing to standard error, respectively (new in release 4.3). Valgrind Invalid File Descriptor In Syscall Close
Services 13,14,15 - In MARS 3.7, the result register was changed to $v0 for SPIM compatability. It was previously $a0 as erroneously printed in Appendix B of Computer Organization and Design,.
Service 17 - If the MIPS program is run under control of the MARS graphical interface (GUI), the exit code in $a0 is ignored.

Valgrind Invalid File Descriptor In Syscall Closed


Service 30 - System time comes from java.util.Date.getTime() as milliseconds since 1 January 1970.
Services 31,33 - Simulate MIDI output through sound card. Details below.
Services 40-44 use underlying Java pseudorandom number generators provided by the java.util.Random class. Each stream (identified by $a0 contents) is modeled by a different Random object. There are no default seed values, so use the Set Seed service (40) if replicated random sequences are desired.

Valgrind Invalid File Descriptor In Syscall Closer

Example of File I/O

The sample MIPS program below will open a new file for writing, write text to it from a memory buffer, then close it. The file will be created in the directory in which MARS was run.

Using SYSCALL system services 31 and 33: MIDI output

These system services are unique to MARS, and provide a means of producing sound. MIDI output is simulated by your system sound card, and the simulation is provided by the javax.sound.midi package.

Valgrind Invalid File Descriptor In Syscall Closed

Service 31 will generate the tone then immediately return. Service 33 will generate the tone then sleep for the tone's duration before returning. Thus it essentially combines services 31 and 32.

This service requires four parameters as follows:

Valgrind Invalid File Descriptor In Syscall Close

pitch ($a0)

  • Accepts a positive byte value (0-127) that denotes a pitch as it would be represented in MIDI
  • Each number is one semitone / half-step in the chromatic scale.
  • 0 represents a very low C and 127 represents a very high G (a standard 88 key piano begins at 9-A and ends at 108-C).
  • If the parameter value is outside this range, it applies a default value 60 which is the same as middle C on a piano.
  • From middle C, all other pitches in the octave are as follows:
  • 61 = C# or Db
  • 62 = D
  • 63 = D# or Eb
  • 64 = E or Fb
  • 65 = E# or F
  • 66 = F# or Gb
  • 67 = G
  • 68 = G# or Ab
  • 69 = A
  • 70 = A# or Bb
  • 71 = B or Cb
  • 72 = B# or C
  • To produce these pitches in other octaves, add or subtract multiples of 12.

  • duration in milliseconds ($a1)

  • Accepts a positive integer value that is the length of the tone in milliseconds.
  • If the parameter value is negative, it applies a default value of one second (1000 milliseconds).

  • instrument ($a2)

  • Accepts a positive byte value (0-127) that denotes the General MIDI 'patch' used to play the tone.
  • If the parameter is outside this range, it applies a default value 0 which is an Acoustic Grand Piano.
  • General MIDI standardizes the number associated with each possible instrument (often referred to as program change numbers), however it does not determine how the tone will sound. This is determined by the synthesizer that is producing the sound. Thus a Tuba (patch 58) on one computer may sound different than that same patch on another computer.
  • The 128 available patches are divided into instrument families of 8:
  • 0-7Piano64-71Reed
    8-15Chromatic Percussion72-79Pipe
    16-23Organ80-87Synth Lead
    24-31Guitar88-95Synth Pad
    32-39Bass96-103Synth Effects
    40-47Strings104-111Ethnic
    48-55Ensemble112-119Percussion
    56-63Brass120-127Sound Effects
  • Note that outside of Java, General MIDI usually refers to patches 1-128. When referring to a list of General MIDI patches, 1 must be subtracted to play the correct patch. For a full list of General MIDI instruments, see www.midi.org/about-midi/gm/gm1sound.shtml. The General MIDI channel 10 percussion key map is not relevant to the toneGenerator method because it always defaults to MIDI channel 1.

  • volume ($a3)

  • Accepts a positive byte value (0-127) where 127 is the loudest and 0 is silent. This value denotes MIDI velocity which refers to the initial attack of the tone.
  • If the parameter value is outside this range, it applies a default value 100.
  • MIDI velocity measures how hard a note on (or note off) message is played, perhaps on a MIDI controller like a keyboard. Most MIDI synthesizers will translate this into volume on a logarithmic scale in which the difference in amplitude decreases as the velocity value increases.
  • Note that velocity value on more sophisticated synthesizers can also affect the timbre of the tone (as most instruments sound different when they are played louder or softer).
  • Valgrind Invalid File Descriptor In Syscall Close Command

    System service 31 was developed and documented by Otterbein student Tony Brock in July 2007.