Provided by: llvm-14_14.0.6-19build4_amd64 
NAME
llvm-symbolizer - convert addresses into source code locations
SYNOPSIS
llvm-symbolizer [options] [addresses…]
DESCRIPTION
llvm-symbolizer reads object file names and addresses from the command-line and prints corresponding
source code locations to standard output.
If no address is specified on the command-line, it reads the addresses from standard input. If no object
file is specified on the command-line, but addresses are, or if at any time an input value is not
recognized, the input is simply echoed to the output.
A positional argument or standard input value can be preceded by “DATA” or “CODE” to indicate that the
address should be symbolized as data or executable code respectively. If neither is specified, “CODE” is
assumed. DATA is symbolized as address and symbol size rather than line number.
Object files can be specified together with the addresses either on standard input or as positional
arguments on the command-line, following any “DATA” or “CODE” prefix.
llvm-symbolizer parses options from the environment variable LLVM_SYMBOLIZER_OPTS after parsing options
from the command line. LLVM_SYMBOLIZER_OPTS is primarily useful for supplementing the command-line
options when llvm-symbolizer is invoked by another program or runtime.
EXAMPLES
All of the following examples use the following two source files as input. They use a mixture of C-style
and C++-style linkage to illustrate how these names are printed differently (see --demangle).
// test.h
extern "C" inline int foz() {
return 1234;
}
// test.cpp
#include "test.h"
int bar=42;
int foo() {
return bar;
}
int baz() {
volatile int k = 42;
return foz() + k;
}
int main() {
return foo() + baz();
}
These files are built as follows:
$ clang -g test.cpp -o test.elf
$ clang -g -O2 test.cpp -o inlined.elf
Example 1 - addresses and object on command-line:
$ llvm-symbolizer --obj=test.elf 0x4004d0 0x400490
foz
/tmp/test.h:1:0
baz()
/tmp/test.cpp:11:0
Example 2 - addresses on standard input:
$ cat addr.txt
0x4004a0
0x400490
0x4004d0
$ llvm-symbolizer --obj=test.elf < addr.txt
main
/tmp/test.cpp:15:0
baz()
/tmp/test.cpp:11:0
foz
/tmp/./test.h:1:0
Example 3 - object specified with address:
$ llvm-symbolizer "test.elf 0x400490" "inlined.elf 0x400480"
baz()
/tmp/test.cpp:11:0
foo()
/tmp/test.cpp:8:10
$ cat addr2.txt
test.elf 0x4004a0
inlined.elf 0x400480
$ llvm-symbolizer < addr2.txt
main
/tmp/test.cpp:15:0
foo()
/tmp/test.cpp:8:10
Example 4 - CODE and DATA prefixes:
$ llvm-symbolizer --obj=test.elf "CODE 0x400490" "DATA 0x601028"
baz()
/tmp/test.cpp:11:0
bar
6295592 4
$ cat addr3.txt
CODE test.elf 0x4004a0
DATA inlined.elf 0x601028
$ llvm-symbolizer < addr3.txt
main
/tmp/test.cpp:15:0
bar
6295592 4
Example 5 - path-style options:
This example uses the same source file as above, but the source file’s full path is /tmp/foo/test.cpp and
is compiled as follows. The first case shows the default absolute path, the second –basenames, and the
third shows –relativenames.
$ pwd
/tmp
$ clang -g foo/test.cpp -o test.elf
$ llvm-symbolizer --obj=test.elf 0x4004a0
main
/tmp/foo/test.cpp:15:0
$ llvm-symbolizer --obj=test.elf 0x4004a0 --basenames
main
test.cpp:15:0
$ llvm-symbolizer --obj=test.elf 0x4004a0 --relativenames
main
foo/test.cpp:15:0
OPTIONS
--adjust-vma <offset>
Add the specified offset to object file addresses when performing lookups. This can be used to
perform lookups as if the object were relocated by the offset.
--basenames, -s
Print just the file’s name without any directories, instead of the absolute path.
--demangle, -C
Print demangled function names, if the names are mangled (e.g. the mangled name _Z3bazv becomes
baz(), whilst the non-mangled name foz is printed as is). Defaults to true.
--dwp <path>
Use the specified DWP file at <path> for any CUs that have split DWARF debug data.
--fallback-debug-path <path>
When a separate file contains debug data, and is referenced by a GNU debug link section, use the
specified path as a basis for locating the debug data if it cannot be found relative to the
object.
--functions [=<none|short|linkage>], -f
Specify the way function names are printed (omit function name, print short function name, or
print full linkage name, respectively). Defaults to linkage.
--help, -h
Show help and usage for this command.
--inlining, --inlines, -i
If a source code location is in an inlined function, prints all the inlined frames. This is the
default.
--no-inlines
Don’t print inlined frames.
--no-demangle
Don’t print demangled function names.
--obj <path>, --exe, -e
Path to object file to be symbolized. If - is specified, read the object directly from the
standard input stream.
--output-style <LLVM|GNU|JSON>
Specify the preferred output style. Defaults to LLVM. When the output style is set to GNU, the
tool follows the style of GNU’s addr2line. The differences from the LLVM style are:
• Does not print the column of a source code location.
• Does not add an empty line after the report for an address.
• Does not replace the name of an inlined function with the name of the topmost caller when
inlined frames are not shown.
• Prints an address’s debug-data discriminator when it is non-zero. One way to produce
discriminators is to compile with clang’s -fdebug-info-for-profiling.
JSON style provides a machine readable output in JSON. If addresses are
supplied via stdin, the output JSON will be a series of individual objects. Otherwise, all
results will be contained in a single array.
$ llvm-symbolizer --obj=inlined.elf 0x4004be 0x400486 -p
baz() at /tmp/test.cpp:11:18
(inlined by) main at /tmp/test.cpp:15:0
foo() at /tmp/test.cpp:6:3
$ llvm-symbolizer --output-style=LLVM --obj=inlined.elf 0x4004be 0x400486 -p --no-inlines
main at /tmp/test.cpp:11:18
foo() at /tmp/test.cpp:6:3
$ llvm-symbolizer --output-style=GNU --obj=inlined.elf 0x4004be 0x400486 -p --no-inlines
baz() at /tmp/test.cpp:11
foo() at /tmp/test.cpp:6
$ clang -g -fdebug-info-for-profiling test.cpp -o profiling.elf
$ llvm-symbolizer --output-style=GNU --obj=profiling.elf 0x401167 -p --no-inlines
main at /tmp/test.cpp:15 (discriminator 2)
$ llvm-symbolizer --output-style=JSON --obj=inlined.elf 0x4004be 0x400486 -p
[
{
"Address": "0x4004be",
"ModuleName": "inlined.elf",
"Symbol": [
{
"Column": 18,
"Discriminator": 0,
"FileName": "/tmp/test.cpp",
"FunctionName": "baz()",
"Line": 11,
"StartAddress": "0x4004be",
"StartFileName": "/tmp/test.cpp",
"StartLine": 9
},
{
"Column": 0,
"Discriminator": 0,
"FileName": "/tmp/test.cpp",
"FunctionName": "main",
"Line": 15,
"StartAddress": "0x4004be",
"StartFileName": "/tmp/test.cpp",
"StartLine": 14
}
]
},
{
"Address": "0x400486",
"ModuleName": "inlined.elf",
"Symbol": [
{
"Column": 3,
"Discriminator": 0,
"FileName": "/tmp/test.cpp",
"FunctionName": "foo()",
"Line": 6,
"StartAddress": "0x400486",
"StartFileName": "/tmp/test.cpp",
"StartLine": 5
}
]
}
]
--pretty-print, -p
Print human readable output. If --inlining is specified, the enclosing scope is prefixed by
(inlined by). For JSON output, the option will cause JSON to be indented and split over new
lines. Otherwise, the JSON output will be printed in a compact form.
$ llvm-symbolizer --obj=inlined.elf 0x4004be --inlining --pretty-print
baz() at /tmp/test.cpp:11:18
(inlined by) main at /tmp/test.cpp:15:0
--print-address, --addresses, -a
Print address before the source code location. Defaults to false.
$ llvm-symbolizer --obj=inlined.elf --print-address 0x4004be
0x4004be
baz()
/tmp/test.cpp:11:18
main
/tmp/test.cpp:15:0
$ llvm-symbolizer --obj=inlined.elf 0x4004be --pretty-print --print-address
0x4004be: baz() at /tmp/test.cpp:11:18
(inlined by) main at /tmp/test.cpp:15:0
--print-source-context-lines <N>
Print N lines of source context for each symbolized address.
$ llvm-symbolizer --obj=test.elf 0x400490 --print-source-context-lines=3
baz()
/tmp/test.cpp:11:0
10 : volatile int k = 42;
11 >: return foz() + k;
12 : }
--relativenames
Print the file’s path relative to the compilation directory, instead of the absolute path. If the
command-line to the compiler included the full path, this will be the same as the default.
--verbose
Print verbose address, line and column information.
$ llvm-symbolizer --obj=inlined.elf --verbose 0x4004be
baz()
Filename: /tmp/test.cpp
Function start filename: /tmp/test.cpp
Function start line: 9
Function start address: 0x4004b6
Line: 11
Column: 18
main
Filename: /tmp/test.cpp
Function start filename: /tmp/test.cpp
Function start line: 14
Function start address: 0x4004b0
Line: 15
Column: 18
--version, -v
Print version information for the tool.
@<FILE>
Read command-line options from response file <FILE>.
WINDOWS/PDB SPECIFIC OPTIONS
--dia Use the Windows DIA SDK for symbolization. If the DIA SDK is not found, llvm-symbolizer will fall
back to the native implementation.
MACH-O SPECIFIC OPTIONS
--default-arch <arch>
If a binary contains object files for multiple architectures (e.g. it is a Mach-O universal
binary), symbolize the object file for a given architecture. You can also specify the
architecture by writing binary_name:arch_name in the input (see example below). If the
architecture is not specified in either way, the address will not be symbolized. Defaults to empty
string.
$ cat addr.txt
/tmp/mach_universal_binary:i386 0x1f84
/tmp/mach_universal_binary:x86_64 0x100000f24
$ llvm-symbolizer < addr.txt
_main
/tmp/source_i386.cc:8
_main
/tmp/source_x86_64.cc:8
--dsym-hint <path/to/file.dSYM>
If the debug info for a binary isn’t present in the default location, look for the debug info at
the .dSYM path provided via this option. This flag can be used multiple times.
EXIT STATUS
llvm-symbolizer returns 0. Other exit codes imply an internal program error.
SEE ALSO
llvm-addr2line(1)
AUTHOR
Maintained by the LLVM Team (https://llvm.org/).
COPYRIGHT
2003-2024, LLVM Project
14 2024-04-07 LLVM-SYMBOLIZER(1)