STRACE(1) General Commands Manual STRACE(1)
NAME
strace - trace system calls and signals
SYNOPSIS
strace [-ACdffhikqrtttTvVxxy] [-I n] [-b execve] [-e expr]...
[-a column] [-o file] [-s strsize] [-X format] [-P path]...
[-p pid]... { -p pid | [-D] [-E var[=val]]... [-u username]
command [args] }
strace -c [-df] [-I n] [-b execve] [-e expr]... [-O overhead]
[-S sortby] [-P path]... [-p pid]... { -p pid | [-D]
[-E var[=val]]... [-u username] command [args] }
DESCRIPTION
In the simplest case strace runs the specified command until it exits.
It intercepts and records the system calls which are called by a
process and the signals which are received by a process. The name of
each system call, its arguments and its return value are printed on
standard error or to the file specified with the -o option.
strace is a useful diagnostic, instructional, and debugging tool. Sys-
tem administrators, diagnosticians and trouble-shooters will find it
invaluable for solving problems with programs for which the source is
not readily available since they do not need to be recompiled in order
to trace them. Students, hackers and the overly-curious will find that
a great deal can be learned about a system and its system calls by
tracing even ordinary programs. And programmers will find that since
system calls and signals are events that happen at the user/kernel
interface, a close examination of this boundary is very useful for bug
isolation, sanity checking and attempting to capture race conditions.
Each line in the trace contains the system call name, followed by its
arguments in parentheses and its return value. An example from strac-
ing the command "cat /dev/null" is:
open("/dev/null", O_RDONLY) = 3
Errors (typically a return value of -1) have the errno symbol and error
string appended.
open("/foo/bar", O_RDONLY) = -1 ENOENT (No such file or directory)
Signals are printed as signal symbol and decoded siginfo structure. An
excerpt from stracing and interrupting the command "sleep 666" is:
sigsuspend([] <unfinished ...>
--- SIGINT {si_signo=SIGINT, si_code=SI_USER, si_pid=...} ---
+++ killed by SIGINT +++
If a system call is being executed and meanwhile another one is being
called from a different thread/process then strace will try to preserve
the order of those events and mark the ongoing call as being unfin-
ished. When the call returns it will be marked as resumed.
[pid 28772] select(4, [3], NULL, NULL, NULL <unfinished ...>
[pid 28779] clock_gettime(CLOCK_REALTIME, {1130322148, 939977000}) = 0
[pid 28772] <... select resumed> ) = 1 (in [3])
Interruption of a (restartable) system call by a signal delivery is
processed differently as kernel terminates the system call and also
arranges its immediate reexecution after the signal handler completes.
read(0, 0x7ffff72cf5cf, 1) = ? ERESTARTSYS (To be restarted)
--- SIGALRM ... ---
rt_sigreturn(0xe) = 0
read(0, "", 1) = 0
Arguments are printed in symbolic form with passion. This example
shows the shell performing ">>xyzzy" output redirection:
open("xyzzy", O_WRONLY|O_APPEND|O_CREAT, 0666) = 3
Here, the third argument of open(2) is decoded by breaking down the
flag argument into its three bitwise-OR constituents and printing the
mode value in octal by tradition. Where the traditional or native
usage differs from ANSI or POSIX, the latter forms are preferred. In
some cases, strace output is proven to be more readable than the
source.
Structure pointers are dereferenced and the members are displayed as
appropriate. In most cases, arguments are formatted in the most C-like
fashion possible. For example, the essence of the command "ls -l
/dev/null" is captured as:
lstat("/dev/null", {st_mode=S_IFCHR|0666, st_rdev=makedev(1, 3), ...}) = 0
Notice how the 'struct stat' argument is dereferenced and how each mem-
ber is displayed symbolically. In particular, observe how the st_mode
member is carefully decoded into a bitwise-OR of symbolic and numeric
values. Also notice in this example that the first argument to
lstat(2) is an input to the system call and the second argument is an
output. Since output arguments are not modified if the system call
fails, arguments may not always be dereferenced. For example, retrying
the "ls -l" example with a non-existent file produces the following
line:
lstat("/foo/bar", 0xb004) = -1 ENOENT (No such file or directory)
In this case the porch light is on but nobody is home.
Syscalls unknown to strace are printed raw, with the unknown system
call number printed in hexadecimal form and prefixed with "syscall_":
syscall_0xbad(0x1, 0x2, 0x3, 0x4, 0x5, 0x6) = -1 ENOSYS (Function not implemented)
Character pointers are dereferenced and printed as C strings. Non-
printing characters in strings are normally represented by ordinary C
escape codes. Only the first strsize (32 by default) bytes of strings
are printed; longer strings have an ellipsis appended following the
closing quote. Here is a line from "ls -l" where the getpwuid(3)
library routine is reading the password file:
read(3, "root::0:0:System Administrator:/"..., 1024) = 422
While structures are annotated using curly braces, simple pointers and
arrays are printed using square brackets with commas separating ele-
ments. Here is an example from the command id(1) on a system with sup-
plementary group ids:
getgroups(32, [100, 0]) = 2
On the other hand, bit-sets are also shown using square brackets but
set elements are separated only by a space. Here is the shell, prepar-
ing to execute an external command:
sigprocmask(SIG_BLOCK, [CHLD TTOU], []) = 0
Here, the second argument is a bit-set of two signals, SIGCHLD and
SIGTTOU. In some cases, the bit-set is so full that printing out the
unset elements is more valuable. In that case, the bit-set is prefixed
by a tilde like this:
sigprocmask(SIG_UNBLOCK, ~[], NULL) = 0
Here, the second argument represents the full set of all signals.
OPTIONS
Output format
-a column Align return values in a specific column (default column
40).
-i Print the instruction pointer at the time of the system
call.
-k Print the execution stack trace of the traced processes
after each system call.
-o filename Write the trace output to the file filename rather than to
stderr. filename.pid form is used if -ff option is sup-
plied. If the argument begins with '|' or '!', the rest of
the argument is treated as a command and all output is
piped to it. This is convenient for piping the debugging
output to a program without affecting the redirections of
executed programs. The latter is not compatible with -ff
option currently.
-A Open the file provided in the -o option in append mode.
-q Suppress messages about attaching, detaching etc. This
happens automatically when output is redirected to a file
and the command is run directly instead of attaching.
-qq If given twice, suppress messages about process exit sta-
tus.
-r Print a relative timestamp upon entry to each system call.
This records the time difference between the beginning of
successive system calls. Note that since -r option uses
the monotonic clock time for measuring time difference and
not the wall clock time, its measurements can differ from
the difference in time reported by the -t option.
-s strsize Specify the maximum string size to print (the default is
32). Note that filenames are not considered strings and
are always printed in full.
-t Prefix each line of the trace with the wall clock time.
-tt If given twice, the time printed will include the microsec-
onds.
-ttt If given thrice, the time printed will include the
microseconds and the leading portion will be printed as the
number of seconds since the epoch.
-T Show the time spent in system calls. This records the time
difference between the beginning and the end of each system
call.
-x Print all non-ASCII strings in hexadecimal string format.
-xx Print all strings in hexadecimal string format.
-X format Set the format for printing of named constants and flags.
Supported format values are:
raw Raw number output, without decoding.
abbrev Output a named constant or a set of flags instead
of the raw number if they are found. This is the
default strace behaviour.
verbose Output both the raw value and the decoded string
(as a comment).
-y Print paths associated with file descriptor arguments.
-yy Print protocol specific information associated with socket
file descriptors, and block/character device number associ-
ated with device file descriptors.
Statistics
-c Count time, calls, and errors for each system call and
report a summary on program exit, suppressing the regular
output. This attempts to show system time (CPU time spent
running in the kernel) independent of wall clock time. If
-c is used with -f, only aggregate totals for all traced
processes are kept.
-C Like -c but also print regular output while processes are
running.
-O overhead Set the overhead for tracing system calls to overhead
microseconds. This is useful for overriding the default
heuristic for guessing how much time is spent in mere mea-
suring when timing system calls using the -c option. The
accuracy of the heuristic can be gauged by timing a given
program run without tracing (using time(1)) and comparing
the accumulated system call time to the total produced
using -c.
-S sortby Sort the output of the histogram printed by the -c option
by the specified criterion. Legal values are time, calls,
name, and nothing (default is time).
-w Summarise the time difference between the beginning and end
of each system call. The default is to summarise the sys-
tem time.
Filtering
-e expr A qualifying expression which modifies which events to
trace or how to trace them. The format of the expression
is:
[qualifier=][!][?]value1[,[?]value2]...
where qualifier is one of trace, abbrev, verbose, raw, sig-
nal, read, write, fault, inject, or kvm and value is a
qualifier-dependent symbol or number. The default quali-
fier is trace. Using an exclamation mark negates the set
of values. For example, -e open means literally
-e trace=open which in turn means trace only the open sys-
tem call. By contrast, -e trace=!open means to trace every
system call except open. Question mark before the syscall
qualification allows suppression of error in case no
syscalls matched the qualification provided. Appending one
of "@64", "@32", or "@x32" suffixes to the syscall qualifi-
cation allows specifying syscalls only for the 64-bit,
32-bit, or 32-on-64-bit personality, respectively. In
addition, the special values all and none have the obvious
meanings.
Note that some shells use the exclamation point for history
expansion even inside quoted arguments. If so, you must
escape the exclamation point with a backslash.
-e trace=set
Trace only the specified set of system calls. The -c
option is useful for determining which system calls might
be useful to trace. For example,
trace=open,close,read,write means to only trace those four
system calls. Be careful when making inferences about the
user/kernel boundary if only a subset of system calls are
being monitored. The default is trace=all.
-e trace=/regex
Trace only those system calls that match the regex. You
can use POSIX Extended Regular Expression syntax (see
regex(7)).
-e trace=%file
-e trace=file (deprecated)
Trace all system calls which take a file name as an argu-
ment. You can think of this as an abbreviation for
-e trace=open,stat,chmod,unlink,... which is useful to
seeing what files the process is referencing. Furthermore,
using the abbreviation will ensure that you don't acciden-
tally forget to include a call like lstat(2) in the list.
Betchya woulda forgot that one.
-e trace=%process
-e trace=process (deprecated)
Trace all system calls which involve process management.
This is useful for watching the fork, wait, and exec steps
of a process.
-e trace=%network
-e trace=network (deprecated)
Trace all the network related system calls.
-e trace=%signal
-e trace=signal (deprecated)
Trace all signal related system calls.
-e trace=%ipc
-e trace=ipc (deprecated)
Trace all IPC related system calls.
-e trace=%desc
-e trace=desc (deprecated)
Trace all file descriptor related system calls.
-e trace=%memory
-e trace=memory (deprecated)
Trace all memory mapping related system calls.
-e trace=%stat
Trace stat syscall variants.
-e trace=%lstat
Trace lstat syscall variants.
-e trace=%fstat
Trace fstat and fstatat syscall variants.
-e trace=%%stat
Trace syscalls used for requesting file status (stat,
lstat, fstat, fstatat, statx, and their variants).
-e trace=%statfs
Trace statfs, statfs64, statvfs, osf_statfs, and
osf_statfs64 system calls. The same effect can be achieved
with -e trace=/^(.*_)?statv?fs regular expression.
-e trace=%fstatfs
Trace fstatfs, fstatfs64, fstatvfs, osf_fstatfs, and
osf_fstatfs64 system calls. The same effect can be
achieved with -e trace=/fstatv?fs regular expression.
-e trace=%%statfs
Trace syscalls related to file system statistics (statfs-
like, fstatfs-like, and ustat). The same effect can be
achieved with -e trace=/statv?fs|fsstat|ustat regular
expression.
-e trace=%pure
Trace syscalls that always succeed and have no arguments.
Currently, this list includes arc_gettls(2), getdtable-
size(2), getegid(2), getegid32(2), geteuid(2),
geteuid32(2), getgid(2), getgid32(2), getpagesize(2), getp-
grp(2), getpid(2), getppid(2), get_thread_area(2) (on
architectures other than x86), gettid(2), get_tls(2),
getuid(2), getuid32(2), getxgid(2), getxpid(2), getxuid(2),
kern_features(2), and metag_get_tls(2) syscalls.
-e abbrev=set
Abbreviate the output from printing each member of large
structures. The default is abbrev=all. The -v option has
the effect of abbrev=none.
-e verbose=set
Dereference structures for the specified set of system
calls. The default is verbose=all.
-e raw=set Print raw, undecoded arguments for the specified set of
system calls. This option has the effect of causing all
arguments to be printed in hexadecimal. This is mostly
useful if you don't trust the decoding or you need to know
the actual numeric value of an argument. See also -X raw
option.
-e signal=set
Trace only the specified subset of signals. The default is
signal=all. For example, signal=!SIGIO (or signal=!io)
causes SIGIO signals not to be traced.
-e read=set Perform a full hexadecimal and ASCII dump of all the data
read from file descriptors listed in the specified set.
For example, to see all input activity on file descriptors
3 and 5 use -e read=3,5. Note that this is independent
from the normal tracing of the read(2) system call which is
controlled by the option -e trace=read.
-e write=set
Perform a full hexadecimal and ASCII dump of all the data
written to file descriptors listed in the specified set.
For example, to see all output activity on file descriptors
3 and 5 use -e write=3,5. Note that this is independent
from the normal tracing of the write(2) system call which
is controlled by the option -e trace=write.
-e inject=set[:error=errno|:retval=value][:sig-
nal=sig][:syscall=syscall][:delay_enter=usecs][:delay_exit=usecs][:when=expr]
Perform syscall tampering for the specified set of
syscalls.
At least one of error, retval, signal, delay_enter, or
delay_exit options has to be specified. error and retval
are mutually exclusive.
If :error=errno option is specified, a fault is injected
into a syscall invocation: the syscall number is replaced
by -1 which corresponds to an invalid syscall (unless a
syscall is specified with :syscall= option), and the error
code is specified using a symbolic errno value like ENOSYS
or a numeric value within 1..4095 range.
If :retval=value option is specified, success injection is
performed: the syscall number is replaced by -1, but a
bogus success value is returned to the callee.
If :signal=sig option is specified with either a symbolic
value like SIGSEGV or a numeric value within 1..SIGRTMAX
range, that signal is delivered on entering every syscall
specified by the set.
If :delay_enter=usecs or :delay_exit=usecs options are
specified, delay injection is performed: the tracee is
delayed by at least usecs microseconds on entering or exit-
ing the syscall.
If :signal=sig option is specified without :error=errno,
:retval=value or :delay_{enter,exit}=usecs options, then
only a signal sig is delivered without a syscall fault or
delay injection. Conversely, :error=errno or :retval=value
option without :delay_enter=usecs, :delay_exit=usecs or
:signal=sig options injects a fault without delivering a
signal or injecting a delay, etc.
If both :error=errno or :retval=value and :signal=sig
options are specified, then both a fault or success is
injected and a signal is delivered.
if :syscall=syscall option is specified, the corresponding
syscall with no side effects is injected instead of -1.
Currently, only "pure" (see -e trace=%pure description)
syscalls can be specified there.
Unless a :when=expr subexpression is specified, an injec-
tion is being made into every invocation of each syscall
from the set.
The format of the subexpression is one of the following:
first
For every syscall from the set, perform an injection
for the syscall invocation number first only.
first+
For every syscall from the set, perform injections for
the syscall invocation number first and all subsequent
invocations.
first+step
For every syscall from the set, perform injections for
syscall invocations number first, first+step,
first+step+step, and so on.
For example, to fail each third and subsequent chdir
syscalls with ENOENT, use
-e inject=chdir:error=ENOENT:when=3+.
The valid range for numbers first and step is 1..65535.
An injection expression can contain only one error= or ret-
val= specification, and only one signal= specification. If
an injection expression contains multiple when= specifica-
tions, the last one takes precedence.
Accounting of syscalls that are subject to injection is
done per syscall and per tracee.
Specification of syscall injection can be combined with
other syscall filtering options, for example, -P /dev/uran-
dom -e inject=file:error=ENOENT.
-e fault=set[:error=errno][:when=expr]
Perform syscall fault injection for the specified set of
syscalls.
This is equivalent to more generic -e inject= expression
with default value of errno option set to ENOSYS.
-e kvm=vcpu Print the exit reason of kvm vcpu. Requires Linux kernel
version 4.16.0 or higher.
-P path Trace only system calls accessing path. Multiple -P
options can be used to specify several paths.
-v Print unabbreviated versions of environment, stat, termios,
etc. calls. These structures are very common in calls and
so the default behavior displays a reasonable subset of
structure members. Use this option to get all of the gory
details.
Tracing
-b syscall If specified syscall is reached, detach from traced
process. Currently, only execve(2) syscall is supported.
This option is useful if you want to trace multi-threaded
process and therefore require -f, but don't want to trace
its (potentially very complex) children.
-D Run tracer process as a detached grandchild, not as parent
of the tracee. This reduces the visible effect of strace
by keeping the tracee a direct child of the calling
process.
-f Trace child processes as they are created by currently
traced processes as a result of the fork(2), vfork(2) and
clone(2) system calls. Note that -p PID -f will attach all
threads of process PID if it is multi-threaded, not only
thread with thread_id = PID.
-ff If the -o filename option is in effect, each processes
trace is written to filename.pid where pid is the numeric
process id of each process. This is incompatible with -c,
since no per-process counts are kept.
One might want to consider using strace-log-merge(1) to
obtain a combined strace log view.
-I interruptible
When strace can be interrupted by signals (such as pressing
CTRL-C).
1 no signals are blocked;
2 fatal signals are blocked while decoding syscall
(default);
3 fatal signals are always blocked (default if -o FILE
PROG);
4 fatal signals and SIGTSTP (CTRL-Z) are always blocked
(useful to make strace -o FILE PROG not stop on
CTRL-Z).
Startup
-E var=val Run command with var=val in its list of environment vari-
ables.
-E var Remove var from the inherited list of environment variables
before passing it on to the command.
-p pid Attach to the process with the process ID pid and begin
tracing. The trace may be terminated at any time by a key-
board interrupt signal (CTRL-C). strace will respond by
detaching itself from the traced process(es) leaving it
(them) to continue running. Multiple -p options can be
used to attach to many processes in addition to command
(which is optional if at least one -p option is given). -p
"`pidof PROG`" syntax is supported.
-u username Run command with the user ID, group ID, and supplementary
groups of username. This option is only useful when run-
ning as root and enables the correct execution of setuid
and/or setgid binaries. Unless this option is used setuid
and setgid programs are executed without effective privi-
leges.
Miscellaneous
-d Show some debugging output of strace itself on the standard
error.
-F This option is deprecated. It is retained for backward
compatibility only and may be removed in future releases.
Usage of multiple instances of -F option is still equiva-
lent to a single -f, and it is ignored at all if used along
with one or more instances of -f option.
-h Print the help summary.
-V Print the version number of strace.
DIAGNOSTICS
When command exits, strace exits with the same exit status. If command
is terminated by a signal, strace terminates itself with the same sig-
nal, so that strace can be used as a wrapper process transparent to the
invoking parent process. Note that parent-child relationship (signal
stop notifications, getppid(2) value, etc) between traced process and
its parent are not preserved unless -D is used.
When using -p without a command, the exit status of strace is zero
unless no processes has been attached or there was an unexpected error
in doing the tracing.
SETUID INSTALLATION
If strace is installed setuid to root then the invoking user will be
able to attach to and trace processes owned by any user. In addition
setuid and setgid programs will be executed and traced with the correct
effective privileges. Since only users trusted with full root privi-
leges should be allowed to do these things, it only makes sense to
install strace as setuid to root when the users who can execute it are
restricted to those users who have this trust. For example, it makes
sense to install a special version of strace with mode 'rwsr-xr--',
user root and group trace, where members of the trace group are trusted
users. If you do use this feature, please remember to install a regu-
lar non-setuid version of strace for ordinary users to use.
MULTIPLE PERSONALITY SUPPORT
On some architectures, strace supports decoding of syscalls for pro-
cesses that use different ABI rather than the one strace uses. Specif-
ically, in addition to decoding native ABI, strace can decode the fol-
lowing ABIs on the following architectures:
+---------------+------------------------------------------------------------------------------------------+
|Architecture | ABIs supported |
+---------------+------------------------------------------------------------------------------------------+
|x86_64 | i386, x32 (when built as an x86_64 application); i386 (when built as an x32 application) |
+---------------+------------------------------------------------------------------------------------------+
|AArch64 | ARM 32-bit EABI |
+---------------+------------------------------------------------------------------------------------------+
|PowerPC 64-bit | PowerPC 32-bit |
+---------------+------------------------------------------------------------------------------------------+
|RISC-V 64-bit | RISC-V 32-bit |
+---------------+------------------------------------------------------------------------------------------+
|s390x | s390 |
+---------------+------------------------------------------------------------------------------------------+
|SPARC 64-bit | SPARC 32-bit |
+---------------+------------------------------------------------------------------------------------------+
|TILE 64-bit | TILE 32-bit |
+---------------+------------------------------------------------------------------------------------------+
This support is optional and relies on ability to generate and parse
structure definitions during the build time. Please refer to the out-
put of the strace -V command in order to figure out what support is
available in your strace build ("non-native" refers to an ABI that dif-
fers from the ABI strace has):
m32-mpers strace can trace and properly decode non-native 32-bit
binaries.
no-m32-mpers strace can trace, but cannot properly decode non-native
32-bit binaries.
mx32-mpers strace can trace and properly decode non-native
32-on-64-bit binaries.
no-mx32-mpers strace can trace, but cannot properly decode non-native
32-on-64-bit binaries.
If the output contains neither m32-mpers nor no-m32-mpers, then decod-
ing of non-native 32-bit binaries is not implemented at all or not
applicable.
Likewise, if the output contains neither mx32-mpers nor no-mx32-mpers,
then decoding of non-native 32-on-64-bit binaries is not implemented at
all or not applicable.
NOTES
It is a pity that so much tracing clutter is produced by systems
employing shared libraries.
It is instructive to think about system call inputs and outputs as
data-flow across the user/kernel boundary. Because user-space and ker-
nel-space are separate and address-protected, it is sometimes possible
to make deductive inferences about process behavior using inputs and
outputs as propositions.
In some cases, a system call will differ from the documented behavior
or have a different name. For example, the faccessat(2) system call
does not have flags argument, and the setrlimit(2) library function
uses prlimit64(2) system call on modern (2.6.38+) kernels. These dis-
crepancies are normal but idiosyncratic characteristics of the system
call interface and are accounted for by C library wrapper functions.
Some system calls have different names in different architectures and
personalities. In these cases, system call filtering and printing uses
the names that match corresponding __NR_* kernel macros of the tracee's
architecture and personality. There are two exceptions from this gen-
eral rule: arm_fadvise64_64(2) ARM syscall and xtensa_fadvise64_64(2)
Xtensa syscall are filtered and printed as fadvise64_64(2).
On x32, syscalls that are intended to be used by 64-bit processes and
not x32 ones (for example, readv(2), that has syscall number 19 on
x86_64, with its x32 counterpart has syscall number 515), but called
with __X32_SYSCALL_BIT flag being set, are designated with #64 suffix.
On some platforms a process that is attached to with the -p option may
observe a spurious EINTR return from the current system call that is
not restartable. (Ideally, all system calls should be restarted on
strace attach, making the attach invisible to the traced process, but a
few system calls aren't. Arguably, every instance of such behavior is
a kernel bug.) This may have an unpredictable effect on the process if
the process takes no action to restart the system call.
As strace executes the specified command directly and does not employ a
shell for that, scripts without shebang that usually run just fine when
invoked by shell fail to execute with ENOEXEC error. It is advisable
to manually supply a shell as a command with the script as its argu-
ment.
BUGS
Programs that use the setuid bit do not have effective user ID privi-
leges while being traced.
A traced process runs slowly.
Traced processes which are descended from command may be left running
after an interrupt signal (CTRL-C).
HISTORY
The original strace was written by Paul Kranenburg for SunOS and was
inspired by its trace utility. The SunOS version of strace was ported
to Linux and enhanced by Branko Lankester, who also wrote the Linux
kernel support. Even though Paul released strace 2.5 in 1992, Branko's
work was based on Paul's strace 1.5 release from 1991. In 1993, Rick
Sladkey merged strace 2.5 for SunOS and the second release of strace
for Linux, added many of the features of truss(1) from SVR4, and pro-
duced an strace that worked on both platforms. In 1994 Rick ported
strace to SVR4 and Solaris and wrote the automatic configuration sup-
port. In 1995 he ported strace to Irix and tired of writing about him-
self in the third person.
Beginning with 1996, strace was maintained by Wichert Akkerman. During
his tenure, strace development migrated to CVS; ports to FreeBSD and
many architectures on Linux (including ARM, IA-64, MIPS, PA-RISC, Pow-
erPC, s390, SPARC) were introduced. In 2002, the burden of strace
maintainership was transferred to Roland McGrath. Since then, strace
gained support for several new Linux architectures (AMD64, s390x,
SuperH), bi-architecture support for some of them, and received numer-
ous additions and improvements in syscalls decoders on Linux; strace
development migrated to git during that period. Since 2009, strace is
actively maintained by Dmitry Levin. strace gained support for
AArch64, ARC, AVR32, Blackfin, Meta, Nios II, OpenSISC 1000, RISC-V,
Tile/TileGx, Xtensa architectures since that time. In 2012, unmain-
tained and apparently broken support for non-Linux operating systems
was removed. Also, in 2012 strace gained support for path tracing and
file descriptor path decoding. In 2014, support for stack traces
printing was added. In 2016, syscall fault injection was implemented.
For the additional information, please refer to the NEWS file and
strace repository commit log.
REPORTING BUGS
Problems with strace should be reported to the strace mailing list at
<strace-devel AT lists.io>.
SEE ALSO
strace-log-merge(1), ltrace(1), perf-trace(1), trace-cmd(1), time(1),
ptrace(2), proc(5)
strace 4.24 2018-07-07 STRACE(1)
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