I would like to explore the memory of a living process, and when I do so, the process must not get disturbed - so attaching gdb to the process (which would stop it) is not an option. Therefore I would like to get this info from /proc/kcore (if you know of another way to do this please let me know). So I made a little experiment. I created a file called TEST with only "EXTRATESTEXTRA" inside. Then I opened it with less

$ less TEST

I got the PID of this process with

$ ps aux | grep TEST
user    7785  0.0  0.0  17944   992 pts/8    S+   16:15   0:00 less TEST
user    7798  0.0  0.0  13584   904 pts/9    S+   16:16   0:00 grep TEST

And then I used this script to create a dump of all files :

grep rw-p /proc/$1/maps | sed -n 's/^\([0-9a-f]*\)-\([0-9a-f]*\) .*$/\1 \2/p' | while read start stop; do gdb --batch --pid $1 -ex "dump memory $1-$start-$stop.dump 0x$start 0x$stop"; done

(I found it on this site https://serverfault.com/questions/173999/dump-a-linux-processs-memory-to-file)

$ sudo ./dump_all_pid_memory.sh 7785

After this, I looked for "TRATESTEX" in all dumped files :

$ grep -a -o -e '...TRATESTEX...' ./*.dump

So I concluded that there must be an occurance of this string somewhere between 0x00624000 and 0x00628000 . Therefore I converted the offsets into decimal numbers and used dd to get the memory from /proc/kcore :

$ sudo dd if="/proc/kcore" of="./y.txt" skip="0" count="1638400" bs=1

To my surprise, the file y.txt was full of zeros (I didn't find the string I was looking for in it).

As a bonus surprise, I ran a simmilar test at the same time with a different test file and found that the other test string i was using (both processes with less were running at the same time) should be found at the same location (the dumping and greping gave the same offset). So there must be something I don't understand clearly.

  • Isn't the /proc/pid/maps supposed to show the offset of the memory (i.e. : if it would say "XXX" is at offset 0x10, another program could not be using the same offset am I right? - this is the source of my second surprise)

  • How can I read /proc/kmap to get the memory that belongs to a process which's pid I know ?

EDIT - for future stumblers (see the answer below first)

To sum up the answers and add my own commentary : - /proc/pid/maps shows the parts of the memory AS THE PROCESS SEES IT (different for every process, search for memory mapping on linux), so different processes can seem to be using the same part of the memory (as it looks from their perspective) . You can read the parts specified here from /proc/pid/mem as super-user (or a parent process like gdb does it with ptrace) - memory in /proc/kcore is not the same as the memory from the process's perspective in /proc/pid/mem - so to search for the process's memory in /proc/kcore, one would have to figure out how the process's memory is mapped into kernel memory (lots of messy things and time consuming) So to get the process memory, first read which regions of /proc/pid/maps it is allowed to read/write from/to and then dump-copy the regions from /proc/pid/mem. The script below dumps all writeable regions (source : https://unix.stackexchange.com/questions/6301/how-do-i-read-from-proc-pid-mem-under-linux ). EDIT: The revised working python script is moved to its own answer, so it can be commented on distinct from the question.

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    AFAIK, /proc/kcore is the kernels memory space. Perhaps /proc/<pid>/mem is more appropriate to what you want to accomplish? – twalberg Oct 19 '12 at 16:04
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    Why are you asking, and what exactly do you want to achieve??? Did you consider the case when monitoring and monitored processes are on different cores, so run simultaneously (and cbange "randomly" their address space) – Basile Starynkevitch Oct 19 '12 at 19:15
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    The Python code doesn't run. All I get is an error: IndentationError: expected an indented block' in line 5. :( – zrajm Oct 7 '13 at 16:58
  • @zrajm it should be indented, but even after correct indentation it doesnt seem to work – exussum Dec 2 '13 at 10:14
  • Since the 3.2 kernel we have a process_vm_readv system call to read memory directly from another process. – Calmarius Jul 27 '18 at 9:44

For process 1234 you can get its memory map by reading sequentially /proc/1234/maps (a textual pseudo-file) and read the virtual memory by e.g. read(2)-ing or mmap(2)-ing appropriate segments of the /proc/1234/mem sparse pseudo-file.

However, I believe you cannot avoid some kind of synchronization (perhaps with ptrace(2), as gdb does), since the process 1234 can (and does) alter its address space at any time (with mmap & related syscalls).

The situation is different if the monitored process 1234 is not arbitrary, but if you could improve it to communicate somehow with the monitoring process.

I'm not sure to understand why do you ask this. And gdb is able to watch some location without stopping the process.

  • Thanks, in the end I resolved to monitoring the memory via the /proc/pid/maps and reading the regions specified there from /proc/pid/mem (I edited the question) – hmhmhmmm Oct 20 '12 at 13:39

If you have root access and are on a linux system, you can use the following linux script (adapted from Gilles' excellent unix.stackexchange.com answer and the answer originally given in the question above but including SyntaxErrors and not being pythonic):

#!/usr/bin/env python

import re
import sys

def print_memory_of_pid(pid, only_writable=True):
    Run as root, take an integer PID and return the contents of memory to STDOUT
    memory_permissions = 'rw' if only_writable else 'r-'
    sys.stderr.write("PID = %d" % pid)
    with open("/proc/%d/maps" % pid, 'r') as maps_file:
        with open("/proc/%d/mem" % pid, 'r', 0) as mem_file:
            for line in maps_file.readlines():  # for each mapped region
                m = re.match(r'([0-9A-Fa-f]+)-([0-9A-Fa-f]+) ([-r][-w])', line)
                if m.group(3) == memory_permissions: 
                    sys.stderr.write("\nOK : \n" + line+"\n")
                    start = int(m.group(1), 16)
                    if start > 0xFFFFFFFFFFFF:
                    end = int(m.group(2), 16)
                    sys.stderr.write( "start = " + str(start) + "\n")
                    mem_file.seek(start)  # seek to region start
                    chunk = mem_file.read(end - start)  # read region contents
                    print chunk,  # dump contents to standard output
                    sys.stderr.write("\nPASS : \n" + line+"\n")

if __name__ == '__main__': # Execute this code when run from the commandline.
        assert len(sys.argv) == 2, "Provide exactly 1 PID (process ID)"
        pid = int(sys.argv[1])
    except (AssertionError, ValueError) as e:
        print "Please provide 1 PID as a commandline argument."
        print "You entered: %s" % ' '.join(sys.argv)
        raise e

If you save this as write_mem.py, you can run this (with python2.6 or 2.7) or early in python2.5 (if you add from __future__ import with_statement) as:

sudo python write_mem.py 1234 > pid1234_memory_dump

to dump pid1234 memory to the file pid1234_memory_dump.

  • The only_writable flag doesn't work, because you're still grabbing both characters in your regex match. – BMDan May 8 '14 at 12:41
  • Please, can somebody edit the script? It has a missing colon at 12 (with open("/proc/%d/maps" % pid, 'r') as maps_file>>(here)<<) – Dario Castañé Mar 9 '15 at 16:48
  • Script did the trick--I had written quite a bit in a GetSimple blog, not realizing I had been logged out, so when I hit "update" to save my changes, it lost everything. I found it all in the memory dump, though. Thanks! – Scott Mar 20 '15 at 13:08
  • There is a bug. It should be memory_permissions = 'rw' if only_writable else 'r-' – alexandernst Jan 20 '16 at 19:15
  • The version currently posted/edited works great. I was able to recover critical information that would have otherwise been lost (human error) this way. – radicand Oct 18 '17 at 0:03

Since the 3.2 version of the kernel. You can use the process_vm_readv system call to read process memory without interruption.

ssize_t process_vm_readv(pid_t pid,
                                const struct iovec *local_iov,
                                unsigned long liovcnt,
                                const struct iovec *remote_iov,
                                unsigned long riovcnt,
                                unsigned long flags);

These system calls transfer data between the address space of the calling process ("the local process") and the process identified by pid ("the remote process"). The data moves directly between the address spaces of the two processes, without passing through kernel space.


You'll have to use /proc//mem to read process memory, I wouldn't recommend trying to read /proc/kcore or any of the kernel memory functions (which is time consuming)


i achieved this by issuing the below command

[root@stage1 ~]# echo "Memory usage for PID [MySql]:"; for mem in {Private,Rss,Shared,Swap,Pss};do grep $mem /proc/ps aux |grep mysql |awk '{print $2}'|head -n 1/smaps | awk -v mem_type="$mem" '{i=i+$2} END {print mem_type,"memory usage:"i}' ;done

Result Output

Memory usage for PID [MySql]:

Private memory usage:204

Rss memory usage:1264

Shared memory usage:1060

Swap memory usage:0

Pss memory usage:423

  • The question is not about memory usage – tuxayo Aug 6 '17 at 21:21

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