.TH VALGRIND "1" "" "" .SH NAME \fBvalgrind \fP- a suite of tools for debugging and profiling programs .SH SYNOPSIS .nf .fam C \fIvalgrind\fP [\fIvalgrind\fP \fIoptions\fP] \fIyour-program\fP [\fIyour-program\fP \fIoptions\fP] .fam T .fi .SH DESCRIPTION \fBvalgrind\fP is a flexible program for debugging and profiling Linux executables. It consists of a core, which provides a synthetic CPU in software, and a series of "tools", each of which is a debugging or profiling tool. The architecture is modular, so that new tools can be created easily and without disturbing the existing structure. .PP This manual page covers only basic usage and options. Please see the HTML documentation for more comprehensive information. .SH INVOCATION \fBvalgrind\fP is typically invoked as follows: valgrind program args This runs \fBprogram\fP (with arguments \fBargs\fP) under valgrind using the \fBmemcheck\fP tool. \fBmemcheck\fP performs a range of memory-checking functions, including detecting accesses to uninitialized memory, misuse of allocated memory (double frees, access after free, etc.) and detecting memory leaks. To use a different tool, use the \fB--tool\fP option: valgrind --tool=toolname program args The following tools are available: .RS .TP .B - addrcheck \fBaddrcheck\fP is similar to memcheck, but does not perform the same granularity of memory checking. This will run faster and use less memory, but may miss some problems that \fBmemcheck\fP would catch. .TP .B - cachegrind \fBcachegrind\fP is a cache simulator. ." .TP ." .B ." - helgrind ." \fBhelgrind\fP spots potential race conditions in your program. .TP .B - lackey \fBlackey\fP is a sample tool that can be used as a template for generating your own tools. After the program terminates, it prints out some basic statistics about the program execution. .TP .B - massif \fBmassif\fP is a heap profiler. It measures how much heap memory your program uses. .TP .B - memcheck \fBmemcheck\fP is a fine-grained memory checker. .TP .B - none \fBnone\fP performs no function - it simply runs the program under \fBvalgrind\fP. This is typically used for debugging and benchmarking \fBvalgrind\fP. .RE .SH COMMON CORE OPTIONS .TP .B --db-attach= [default: no] When enabled, \fBvalgrind\fP will pause after every error shown and print the line: .PP .nf .fam C ---- Attach to debugger ? --- [Return/N/n/Y/y/C/c] ---- .fam T .fi .RS Pressing Ret, or N Ret or n Ret, causes \fBvalgrind\fP not to start a debugger for this error. .PP Pressing Y Ret or y Ret causes \fBvalgrind\fP to start the debugger (specified by the \fB--db-command\fP option) for the program at this point. When you have finished with the debugger, quit from it, and the program will continue. Trying to continue from inside the debugger doesn't work. .PP Pressing C Ret or c Ret causes \fBvalgrind\fP not to start the debugger and \fBvalgrind\fP will not ask again. .PP --db-attach=yes conflicts with --trace-children=yes. You can't use them together. \fBvalgrind\fP refuses to start up in this situation. 1 May 2002: this is a historical relic which could be easily fixed if it gets in your way. Mail me and complain if this is a problem for you. .PP Nov 2002: if you're sending output to a logfile or to a network socket, I guess this option doesn't make any sense. Caveat emptor. .RE .TP .B --db-command= [default: gdb -nw %f %p] Specify the debugger to use with the --db-attach command. The default debugger is gdb. This option is a template that is expanded by \fBvalgrind\fP at runtime. \fB%f\fP is replaced with the executable's file name and \fB%p\fP is replaced by the process ID of the executable. .TP .B --demangle= [default: yes] Enable or disable automatic demangling (decoding) of C++ names. Enabled by default. When enabled, \fBvalgrind\fP will attempt to translate encoded C++ procedure names back to something approaching the original. The demangler handles symbols mangled by g++ versions 2.X and 3.X. .TP .B --error-limit= [default: yes] When enabled, \fBvalgrind\fP stops reporting errors after 30000 in total, or 300 different ones, have been seen. This is to stop the error tracking machinery from becoming a huge performance overhead in programs with many errors. .TP .B --gen-suppressions= [default: no] When enabled, \fBvalgrind\fP will pause after every error shown and print the line: .PP .nf .fam C ---- Print suppression ? --- [Return/N/n/Y/y/C/c] ---- .fam T .fi .RS Pressing Y Ret or y Ret will cause a suppression for this error to be printed. This suppression can be cut-and-paste into a custom suppressions file and used to suppress this error in subsequent runs. .P Pressing Ret or n Ret or N Ret will cause no suppression to be printed. .P Pressing C Ret or c Ret will cause no suppression to be printed and \fBvalgrind\fP will not ask again. .RE .TP .B -h --help Show help for all options, both for the core and for the selected tool. .TP .B --help-debug Show help for all options, both for the core and for the selected tool, including options for debugging \fBvalgrind\fP. .TP .B --input-fd= [default: 0, stdin] Specify the file descriptor to use for reading input from the user. This is used whenever \fBvalgrind\fP needs to prompt the user for a decision. .TP .B --log-file= Specifies that \fBvalgrind\fP should send all of its messages to the specified file. In fact, the file name used is created by concatenating the text filename, ".pid" and the process ID, so as to create a file per process. The specified file name may not be the empty string. .TP .B --log-file-exactly= Just like \fB--log-file\fB, but the ".pid" suffix is not added. If you trace multiple processes with Valgrind when using this option the log file may get all messed up. .TP .B --log-fd= [default: 2, stderr] Specifies that \fBvalgrind\fP should send all of its messages to the specified file descriptor. The default, 2, is the standard error channel (stderr). Note that this may interfere with the client's own use of stderr. .TP .B --log-file-qualifier= Specifies that \fBvalgrind\fB should send all of its messages to the file named by the environment variable \fB$VAR\fB. This is useful when running MPI programs. .TP .B --log-socket= Specifies that \fBvalgrind\fP should send all of its messages to the specified port at the specified IP address. The port may be omitted, in which case port 1500 is used. If a connection cannot be made to the specified socket, \fBvalgrind\fP falls back to writing output to the standard error (stderr). This option is intended to be used in conjunction with the \fBvalgrind-listener\fP program. For further details, see section 2.3 of the user manual. .TP .B --num-callers= [default=12] By default, \fBvalgrind\fP shows 12 levels of function call names to help you identify program locations. You can change that number with this option. This can help in determining the program's location in deeply-nested call chains. Note that errors are commoned up using only the top three function locations (the place in the current function, and that of its two immediate callers). So this doesn't affect the total number of errors reported. .RS .PP The maximum value for this is 50. Note that higher settings will make \fBvalgrind\fP run a bit more slowly and take a bit more memory, but can be useful when working with programs with deeply-nested call chains. .RE .TP .B -q --quiet Run silently, and only print error messages. Useful if you are running regression tests or have some other automated test machinery. .TP .B --show-below-main= [default: no] When enabled, this option causes full stack backtraces to be emited, including the part before \fBmain\fP in your program (subject to the \fB--num-callers\fP option.) When disabled, only the part of the stack backtrace up to and including main is printed. .TP .B --suppressions= [default: $PREFIX/lib/\fBvalgrind\fP/default.supp] Specifies an extra file from which to read descriptions of errors to suppress. You may specify up to 10 additional suppression files. .TP .B --time-stamp= [default: no] When enabled, a time-stamp is added to all log messages. .TP .B --tool= [default: memcheck] Specify which tool to use. The default tool is memcheck. .TP .B --trace-children= [default: no] When enabled, \fBvalgrind\fP will trace into child processes. This is confusing and usually not what you want, so is disabled by default. .TP .B --track-fds= [default: no] Track file descriptor creation and deletion and produce a summary at the end of the program execution of file descriptors that are still in use. .TP .B -v --verbose Be more verbose. Gives extra information on various aspects of your program, such as: the shared objects loaded, the suppressions used, the progress of the instrumentation and execution engines, and warnings about unusual behaviour. Repeating the flag increases the verbosity level. .TP .B --version Show the version number of the \fBvalgrind\fP core. Tools can have their own version numbers. There is a scheme in place to ensure that tools only execute when the core version is one they are known to work with. This was done to minimise the chances of strange problems arising from tool-vs-core version incompatibilities. .SH ADDRCHECK OPTIONS .TP .B --freelist-vol= [default: 1000000] When the client program releases memory using free (in C) or delete (C++), that memory is not immediately made available for re-allocation. Instead it is marked inaccessible and placed in a queue of freed blocks. The purpose is to delay the point at which freed-up memory comes back into circulation. This increases the chance that \fBaddrcheck\fP will be able to detect invalid accesses to blocks for some significant period of time after they have been freed. .RS This flag specifies the maximum total size, in bytes, of the blocks in the queue. The default value is one million bytes. Increasing this increases the total amount of memory used by \fBaddrcheck\fP but may detect invalid uses of freed blocks which would otherwise go undetected. .RE .TP .B --leak-check= [default: summary] Enables full, summary or no leak checking. When full (\fBfull\fP or \fByes\fP options) checking is performed, details on all leaked blocks are printed after the program finishes executing. When summary checking is enabled, a summary of all leaked memory is printed. When no leak checking is performed, no leaked memory details are produced. Disabling leak checking can speed up your program execution. .TP .B --leak-resolution= [default: low] When doing leak checking, determines how willing \fBaddrcheck\fP is to consider different backtraces to be the same. When set to \fBlow\fP, the default, only the first two entries need match. When \fBmed\fP, four entries have to match. When \fBhigh\fP, all entries need to match. .TP .B --partial-loads-ok= [default: yes] Controls how \fBaddrcheck\fP handles word (4-byte) loads from addresses for which some bytes are addressible and others are not. When enabled, such loads do not elicit an address error. Instead, \fBaddrcheck\fP considers the bytes corresponding to the illegal addresses as undefined, and those corresponding to legal addresses are considered defined. .RS When disabled, loads from partially invalid addresses are treated the same as loads from completely invalid addresses: an illegal-address error is issued, and the \fBaddrcheck\fP considers all bytes as invalid data. .RE .TP .B --show-reachable= [default: no] When performing full leak checking, print out details of blocks that are leaked but still reachable. For details of what a reachable block is, see the HTML documentation. .TP .B --workaround-gcc296-bugs= [default: no] When enabled, assume that reads and writes some small distance below the stack pointer \fB%esp\fP are due to bugs in gcc 2.96, and does not report them. The "small distance" is 256 bytes by default. Note that gcc 2.96 is the default compiler on some older Linux distributions (RedHat 7.X, Mandrake) and so you may well need to use this flag. Do not use it if you do not have to, as it can cause real errors to be overlooked. Another option is to use a gcc/g++ which does not generate accesses below the stack pointer. 2.95.3 seems to be a good choice in this respect. .SH MEMCHECK OPTIONS \fBmemcheck\fP understands the same options as \fBaddrcheck\fP, along with the following options: .TP .B --avoid-strlen-errors= [default: yes] Enable or disable a heuristic for dealing with highly-optimized versions of \fBstrlen\fP. These versions of \fBstrlen\fP can cause spurious errors to be reported by \fBmemcheck\fP, so it's usually a good idea to leave this enabled. .SH CACHEGRIND OPTIONS .TP .B --D1=,, Specify the size, associativity and line size of the level 1 data cache. All values are measured in bytes. If this options is not specified, the system value (as retrieved by the \fBCPUID\fP instruction) is used. .TP .B --I1=,, Specify the size, associativity and line size of the level 1 instruction cache. All values are measured in bytes. If this options is not specified, the system value (as retrieved by the \fBCPUID\fP instruction) is used. .TP .B --L2=,, Specify the size, associativity and line size of the level 2 cache. All values are measured in bytes. If this options is not specified, the system value (as retrieved by the \fBCPUID\fP instruction) is used. .SH MASSIF OPTIONS .TP .B --alloc-fn= Specify a function that allocates memory. This is useful for functions that are wrappers to \fBmalloc()\fP, which can fill up the context information uselessly (and give very uninformative bands on the graph). Functions specified will be ignored in contexts, i.e. treated as though they were \fBmalloc()\fP. This option can be specified multiple times on the command line, to name multiple functions. .TP .B --depth= [default: 3] Depth of call chains to present in the detailed heap information. Increasing it will give more information, but \fBmassif\fP will run the program more slowly, using more memory, and produce a bigger \fB.txt\fP or \fB.hp\fP file. .TP .B --format= [default: text] Produce the detailed heap information in text or HTML format. The file suffix used will be either \fB.txt\fP or \fB.html\fP. .TP .B --heap= [default: yes] When enabled, profile heap usage in detail. Without it, the \fB.txt\fP or \fB.html\fP file will be very short. .TP .B --heap-admin= [default: 8] The number of admin bytes per block to use. This can only be an estimate of the average, since it may vary. The allocator used by \fBglibc\fP requires somewhere between 4 to 15 bytes per block, depending on various factors. It also requires admin space for freed blocks, although \fBmassif\fP does not count this. .TP .B --stacks= [default: yes] When enabled, include stack(s) in the profile. Threaded programs can have multiple stacks. ." .SH HELGRIND OPTIONS ." .TP ." .B ." --private-stacks= [default: no] ." Assume thread stacks are used privately. ." .TP ." .B ." --show-last-access= [default: no] ." Show location of last word access on error. .SH LESS FREQUENTLY USED CORE OPTIONS .TP .B --alignment= [default: 8] By default \fBvalgrind\fP's malloc, realloc, etc, return 8-byte aligned addresses. These are suitable for any accesses on most processors. Some programs might however assume that malloc et al return 16- or more aligned memory. These programs are broken and should be fixed, but if this is impossible for whatever reason the alignment can be increased using this parameter. The supplied value must be between 8 and 4096 inclusive, and must be a power of two. .TP .B --pointercheck= [default: yes] When enabled, enforces client address space limits. If this option is disabled, the client program has full and unfettered access to the part of the address space used internally by \fBvalgrind\fP. This can cause unexplained crashes and false error reports, so it is best left enabled. .TP .B --run-libc-freeres= [default: yes] The GNU C library (libc.so), which is used by all programs, may allocate memory for its own uses. Usually it doesn't bother to free that memory when the program ends - there would be no point, since the Linux kernel reclaims all process resources when a process exits anyway, so it would just slow things down. .RS .PP The glibc authors realised that this behaviour causes leak checkers, such as \fBvalgrind\fP, to falsely report leaks in glibc, when a leak check is done at exit. In order to avoid this, they provided a routine called __libc_freeres specifically to make glibc release all memory it has allocated. The MemCheck and AddrCheck tools therefore try and run __libc_freeres at exit. .PP Unfortunately, in some versions of glibc, __libc_freeres is sufficiently buggy to cause segmentation faults. This is particularly noticeable on Red Hat 7.1. So this flag is provided in order to inhibit the run of __libc_freeres. If your program seems to run fine on \fBvalgrind\fP, but segfaults at exit, you may find that --run-libc-freeres=no fixes that, although at the cost of possibly falsely reporting space leaks in libc.so. .RE .TP .B --weird-hacks=hack1,hack2,\.\.\. Pass miscellaneous hints to \fBvalgrind\fP which slightly modify the simulated behaviour in nonstandard or dangerous ways, possibly to help the simulation of strange features. By default no hacks are enabled. Use with caution! Currently known hacks are: .RS .TP .B - lax-ioctls If \fBvalgrind\fP encounters an \fBioctl\fP that it doesn't understand, it normally prints a warning message before continuing. Specifying the lax-ioctls hack tells \fBvalgrind\fP to be very lax about ioctl handling and assume that unknown ioctls just behave correctly. .TP .B - enable-inner Enable some special magic needed when the program being run is itself \fBvalgrind\fP. .RE .SH CORE DEBUGGING OPTIONS .TP .B Valgrind has several debugging options that are mostly of use to developers. Use \fB--help-debug\fB to show them. .SH SEE ALSO /usr/share/doc/\fBvalgrind\fP/html/manual.html .SH AUTHOR This manpage has been written by Andres Roldan for the Debian Project, but can be used for any other distribution. Updated, rearranged and expanded by Robert Walsh for the 2.4.0 release.