Troubleshooting arangod

Server not starting or not reachable

If the ArangoDB server does not start or if you cannot connect to it using arangosh or other clients, you can try to find the problem cause by executing the following steps. If the server starts up without problems you can skip this section.

  • Check the server log file: If the server has written a log file you should check it because it might contain relevant error context information.

  • Check the configuration: The server looks for a configuration file named arangod.conf on startup. The contents of this file will be used as a base configuration that can optionally be overridden with command-line configuration parameters. You should check the config file for the most relevant parameters such as:

    • server.endpoint: What IP address and port to bind to
    • log parameters: If and where to log
    • database.directory: Path the database files are stored in

    If the configuration reveals that something is not configured right the config file should be adjusted and the server be restarted.

  • Start the server manually and check its output: Starting the server might fail even before logging is activated so the server will not produce log output. This can happen if the server is configured to write the logs to a file that the server has no permissions on. In this case the server cannot log an error to the specified log file but will write a startup error on stderr instead. Starting the server manually will also allow you to override specific configuration options, e.g. to turn on/off file or screen logging etc.

  • Check the TCP port: If the server starts up but does not accept any incoming connections this might be due to firewall configuration between the server and any client(s). The server by default will listen on TCP port 8529. Please make sure this port is actually accessible by other clients if you plan to use ArangoDB in a network setup.

    When using hostnames in the configuration or when connecting, please make sure the hostname is actually resolvable. Resolving hostnames might invoke DNS, which can be a source of errors on its own.

    It is generally good advice to not use DNS when specifying the endpoints and connection addresses. Using IP addresses instead will rule out DNS as a source of errors. Another alternative is to use a hostname specified in the local /etc/hosts file, which will then bypass DNS.

  • Test if \curl can connect\: Once the server is started, you can quickly verify if it responds to requests at all. This check allows you to determine whether connection errors are client-specific or not. If at least one client can connect, it is likely that connection problems of other clients are not due to ArangoDB’s configuration but due to client or in-between network configurations.

    You can test connectivity using a simple command such as:

    1. curl --dump - --user "username:password" -X GET http://127.0.0.1:8529/_api/version && echo

    (Replace username and password with the actual credentials.)

    This should return a response with an HTTP 200 status code when the server is running. If it does it also means the server is generally accepting connections. Alternative tools to check connectivity are lynx or ab.

Out of memory crashes

When there is an out-of-memory situation, the Linux operating system is usually configured to kill processes that use most RAM. When running a dedicated database server, this process is like the ArangoDB server, arangod.

A system process called OOM (out of memory) killer will send the arangod server a SIGKILL signal then, which the arangod process can neither detect nor ignore. It will be terminated ungracefully then.

Usually, the Linux kernel will write information about the killing of processes into its own system logs. These logs should be checked if you suspect that ArangoDB was killed because of an out-of-memory situation.

Other crashes

The Linux builds of the arangod executable contain a built-in crash handler (introduced in v3.7.0).

The crash handler is supposed to log basic crash information to the ArangoDB logfile in case the arangod process receives one of the signals SIGSEGV, SIGBUS, SIGILL, SIGFPE or SIGABRT. SIGKILL signals, which the operating system can send to a process in case of OOM (out of memory), are not interceptable and thus cannot be intercepted by the crash handler.

In case the crash handler receives one of the mentioned interceptable signals, it will write basic crash information to the logfile and a backtrace of the call site. The backtrace can be provided to the ArangoDB support for further inspection. Note that backtaces are only usable if debug symbols for ArangoDB have been installed as well.

After logging the crash information, the crash handler will execute the default action for the signal it has caught. If core dumps are enabled, the default action for these signals is to generate a core file. If core dumps are not enabled, the crash handler will simply terminate the program with a non-zero exit code.

The crash handler can be disabled at server start by setting the environment variable ARANGODB_OVERRIDE_CRASH_HANDLER to an empty string, 0 or off.

An example log output from the crash handler looks like this:

  1. 2020-05-26T23:26:10Z [16657] FATAL [a7902] {crash} ArangoDB 3.7.1-devel enterprise [linux], thread 22 [Console] caught unexpected signal 11 (SIGSEGV) accessing address 0x0000000000000000: signal handler invoked
  2. 2020-05-26T23:26:10Z [16657] INFO [308c3] {crash} frame 1 [0x00007f9124e93ece]: _ZN12_GLOBAL__N_112crashHandlerEiP9siginfo_tPv (+0x000000000000002e)
  3. 2020-05-26T23:26:10Z [16657] INFO [308c3] {crash} frame 2 [0x00007f912687bfb2]: sigprocmask (+0x0000000000000021)
  4. 2020-05-26T23:26:10Z [16657] INFO [308c3] {crash} frame 3 [0x00007f9123e08024]: _ZN8arangodb3aql10Expression23executeSimpleExpressionEPKNS0_7AstNodeEPNS_11transaction7MethodsERbb (+0x00000000000001c4)
  5. 2020-05-26T23:26:10Z [16657] INFO [308c3] {crash} frame 4 [0x00007f9123e08314]: _ZN8arangodb3aql10Expression7executeEPNS0_17ExpressionContextERb (+0x0000000000000064)
  6. 2020-05-26T23:26:10Z [16657] INFO [308c3] {crash} frame 5 [0x00007f9123feaab2]: _ZN8arangodb3aql19CalculationExecutorILNS0_15CalculationTypeE0EE12doEvaluationERNS0_15InputAqlItemRowERNS0_16OutputAqlItemRowE (+0x0000000000000062)
  7. 2020-05-26T23:26:10Z [16657] INFO [308c3] {crash} frame 6 [0x00007f9123feae85]: _ZN8arangodb3aql19CalculationExecutorILNS0_15CalculationTypeE0EE11produceRowsERNS0_22AqlItemBlockInputRangeERNS0_16OutputAqlItemRowE (+0x00000000000000f5)
  8. ...
  9. 2020-05-26T23:26:10Z [16657] INFO [308c3] {crash} frame 31 [0x000018820ffc6d91]: *no symbol name available for this frame
  10. 2020-05-26T23:26:10Z [16657] INFO [ded81] {crash} available physical memory: 41721995264, rss usage: 294256640, vsz usage: 1217839104, threads: 46
  11. Segmentation fault (core dumped)

The first line of the crash output will contain the cause of the crash (SIGSEGV in this case). The following lines contain information about the stack frames. The hexadecimal value presented for each frame is the instruction pointer, and if debug symbols are installed, there will be name information about the called procedures (in mangled format) plus the offsets into the procedures. If no debug symbols are installed, symbol names and offsets cannot be shown for the stack frames.