From b485aab7e71c1625cfc27e0f92c9509f42378458 Mon Sep 17 00:00:00 2001 From: Daniel Baumann Date: Sun, 5 May 2024 13:19:16 +0200 Subject: Adding upstream version 1.45.3+dfsg. Signed-off-by: Daniel Baumann --- daemon/README.md | 439 ------------------------------------------------------- 1 file changed, 439 deletions(-) delete mode 100644 daemon/README.md (limited to 'daemon/README.md') diff --git a/daemon/README.md b/daemon/README.md deleted file mode 100644 index 0707a406c..000000000 --- a/daemon/README.md +++ /dev/null @@ -1,439 +0,0 @@ -# Netdata daemon - -The Netdata daemon is practically a synonym for the Netdata Agent, as it controls its -entire operation. We support various methods to -[start, stop, or restart the daemon](https://github.com/netdata/netdata/blob/master/docs/configure/start-stop-restart.md). - -This document provides some basic information on the command line options, log files, and how to debug and troubleshoot - -## Command line options - -Normally you don't need to supply any command line arguments to netdata. - -If you do though, they override the configuration equivalent options. - -To get a list of all command line parameters supported, run: - -```sh -netdata -h -``` - -The program will print the supported command line parameters. - -The command line options of the Netdata 1.10.0 version are the following: - -```sh - ^ - |.-. .-. .-. .-. . netdata - | '-' '-' '-' '-' real-time performance monitoring, done right! - +----+-----+-----+-----+-----+-----+-----+-----+-----+-----+-----+-----+---> - - Copyright (C) 2016-2022, Netdata, Inc. - Released under GNU General Public License v3 or later. - All rights reserved. - - Home Page : https://netdata.cloud - Source Code: https://github.com/netdata/netdata - Docs : https://learn.netdata.cloud - Support : https://github.com/netdata/netdata/issues - License : https://github.com/netdata/netdata/blob/master/LICENSE.md - - Twitter : https://twitter.com/netdatahq - LinkedIn : https://linkedin.com/company/netdata-cloud/ - Facebook : https://facebook.com/linuxnetdata/ - - - SYNOPSIS: netdata [options] - - Options: - - -c filename Configuration file to load. - Default: /etc/netdata/netdata.conf - - -D Do not fork. Run in the foreground. - Default: run in the background - - -h Display this help message. - - -P filename File to save a pid while running. - Default: do not save pid to a file - - -i IP The IP address to listen to. - Default: all IP addresses IPv4 and IPv6 - - -p port API/Web port to use. - Default: 19999 - - -s path Prefix for /proc and /sys (for containers). - Default: no prefix - - -t seconds The internal clock of netdata. - Default: 1 - - -u username Run as user. - Default: netdata - - -v Print netdata version and exit. - - -V Print netdata version and exit. - - -W options See Advanced options below. - - - Advanced options: - - -W stacksize=N Set the stacksize (in bytes). - - -W debug_flags=N Set runtime tracing to debug.log. - - -W unittest Run internal unittests and exit. - - -W createdataset=N Create a DB engine dataset of N seconds and exit. - - -W set section option value - set netdata.conf option from the command line. - - -W buildinfo Print the version, the configure options, - a list of optional features, and whether they - are enabled or not. - - -W buildinfojson Print the version, the configure options, - a list of optional features, and whether they - are enabled or not, in JSON format. - - -W simple-pattern pattern string - Check if string matches pattern and exit. - - -W "claim -token=TOKEN -rooms=ROOM1,ROOM2 url=https://app.netdata.cloud" - Connect the agent to the workspace rooms pointed to by TOKEN and ROOM*. - - Signals netdata handles: - - - HUP Close and reopen log files. - - USR1 Save internal DB to disk. - - USR2 Reload health configuration. -``` - -You can send commands during runtime via [netdatacli](https://github.com/netdata/netdata/blob/master/cli/README.md). - -## Log files - -Netdata uses 4 log files: - -1. `error.log` -2. `collector.log` -3. `access.log` -4. `debug.log` - -Any of them can be disabled by setting it to `/dev/null` or `none` in `netdata.conf`. By default `error.log`, -`collector.log`, and `access.log` are enabled. `debug.log` is only enabled if debugging/tracing is also enabled -(Netdata needs to be compiled with debugging enabled). - -Log files are stored in `/var/log/netdata/` by default. - -### error.log - -The `error.log` is the `stderr` of the `netdata` daemon . - -For most Netdata programs (including standard external plugins shipped by netdata), the following lines may appear: - -| tag | description | -|:-:|:----------| -| `INFO` | Something important the user should know. | -| `ERROR` | Something that might disable a part of netdata.
The log line includes `errno` (if it is not zero). | -| `FATAL` | Something prevented a program from running.
The log line includes `errno` (if it is not zero) and the program exited. | - -The `FATAL` and `ERROR` messages will always appear in the logs, and `INFO`can be filtered using [severity level](https://github.com/netdata/netdata/tree/master/daemon/config#logs-section-options) option. - -So, when auto-detection of data collection fail, `ERROR` lines are logged and the relevant modules are disabled, but the -program continues to run. - -When a Netdata program cannot run at all, a `FATAL` line is logged. - -### collector.log - -The `collector.log` is the `stderr` of all [collectors](https://github.com/netdata/netdata/blob/master/collectors/COLLECTORS.md) - run by `netdata`. - -So if any process, in the Netdata process tree, writes anything to its standard error, -it will appear in `collector.log`. - -Data stored inside this file follows pattern already described for `error.log`. - -### access.log - -The `access.log` logs web requests. The format is: - -```txt -DATE: ID: (sent/all = SENT_BYTES/ALL_BYTES bytes PERCENT_COMPRESSION%, prep/sent/total PREP_TIME/SENT_TIME/TOTAL_TIME ms): ACTION CODE URL -``` - -where: - -- `ID` is the client ID. Client IDs are auto-incremented every time a client connects to netdata. -- `SENT_BYTES` is the number of bytes sent to the client, without the HTTP response header. -- `ALL_BYTES` is the number of bytes of the response, before compression. -- `PERCENT_COMPRESSION` is the percentage of traffic saved due to compression. -- `PREP_TIME` is the time in milliseconds needed to prepared the response. -- `SENT_TIME` is the time in milliseconds needed to sent the response to the client. -- `TOTAL_TIME` is the total time the request was inside Netdata (from the first byte of the request to the last byte - of the response). -- `ACTION` can be `filecopy`, `options` (used in CORS), `data` (API call). - -### debug.log - -See [debugging](#debugging). - -## Netdata process scheduling policy - -By default Netdata versions prior to 1.34.0 run with the `idle` process scheduling policy, so that it uses CPU -resources, only when there is idle CPU to spare. On very busy servers (or weak servers), this can lead to gaps on -the charts. - -Starting with version 1.34.0, Netdata instead uses the `batch` scheduling policy by default. This largely eliminates -issues with gaps in charts on busy systems while still keeping the impact on the rest of the system low. - -You can set Netdata scheduling policy in `netdata.conf`, like this: - -```conf -[global] - process scheduling policy = idle -``` - -You can use the following: - -| policy | description | -| :-----------------------: | :---------- | -| `idle` | use CPU only when there is spare - this is lower than nice 19 - it is the default for Netdata and it is so low that Netdata will run in "slow motion" under extreme system load, resulting in short (1-2 seconds) gaps at the charts. | -| `other`
or
`nice` | this is the default policy for all processes under Linux. It provides dynamic priorities based on the `nice` level of each process. Check below for setting this `nice` level for netdata. | -| `batch` | This policy is similar to `other` in that it schedules the thread according to its dynamic priority (based on the `nice` value). The difference is that this policy will cause the scheduler to always assume that the thread is CPU-intensive. Consequently, the scheduler will apply a small scheduling penalty with respect to wake-up behavior, so that this thread is mildly disfavored in scheduling decisions. | -| `fifo` | `fifo` can be used only with static priorities higher than 0, which means that when a `fifo` threads becomes runnable, it will always immediately preempt any currently running `other`, `batch`, or `idle` thread. `fifo` is a simple scheduling algorithm without time slicing. | -| `rr` | a simple enhancement of `fifo`. Everything described above for `fifo` also applies to `rr`, except that each thread is allowed to run only for a maximum time quantum. | -| `keep`
or
`none` | do not set scheduling policy, priority or nice level - i.e. keep running with whatever it is set already (e.g. by systemd). | - -For more information see `man sched`. - -### Scheduling priority for `rr` and `fifo` - -Once the policy is set to one of `rr` or `fifo`, the following will appear: - -```conf -[global] - process scheduling priority = 0 -``` - -These priorities are usually from 0 to 99. Higher numbers make the process more -important. - -### nice level for policies `other` or `batch` - -When the policy is set to `other`, `nice`, or `batch`, the following will appear: - -```conf -[global] - process nice level = 19 -``` - -## Scheduling settings and systemd - -Netdata will not be able to set its scheduling policy and priority to more important values when it is started as the -`netdata` user (systemd case). - -You can set these settings at `/etc/systemd/system/netdata.service`: - -```sh -[Service] -# By default Netdata switches to scheduling policy idle, which makes it use CPU, only -# when there is spare available. -# Valid policies: other (the system default) | batch | idle | fifo | rr -#CPUSchedulingPolicy=other - -# This sets the maximum scheduling priority Netdata can set (for policies: rr and fifo). -# Netdata (via [global].process scheduling priority in netdata.conf) can only lower this value. -# Priority gets values 1 (lowest) to 99 (highest). -#CPUSchedulingPriority=1 - -# For scheduling policy 'other' and 'batch', this sets the lowest niceness of netdata. -# Netdata (via [global].process nice level in netdata.conf) can only increase the value set here. -#Nice=0 -``` - -Run `systemctl daemon-reload` to reload these changes. - -Now, tell Netdata to keep these settings, as set by systemd, by editing -`netdata.conf` and setting: - -```conf -[global] - process scheduling policy = keep -``` - -Using the above, whatever scheduling settings you have set at `netdata.service` -will be maintained by netdata. - -### Example 1: Netdata with nice -1 on non-systemd systems - -On a system that is not based on systemd, to make Netdata run with nice level -1 (a little bit higher to the default for -all programs), edit `netdata.conf` and set: - -```conf -[global] - process scheduling policy = other - process nice level = -1 -``` - -then execute this to [restart Netdata](https://github.com/netdata/netdata/blob/master/docs/configure/start-stop-restart.md): - -```sh -sudo systemctl restart netdata -``` - -#### Example 2: Netdata with nice -1 on systemd systems - -On a system that is based on systemd, to make Netdata run with nice level -1 (a little bit higher to the default for all -programs), edit `netdata.conf` and set: - -```conf -[global] - process scheduling policy = keep -``` - -edit /etc/systemd/system/netdata.service and set: - -```sh -[Service] -CPUSchedulingPolicy=other -Nice=-1 -``` - -then execute: - -```sh -sudo systemctl daemon-reload -sudo systemctl restart netdata -``` - -## Virtual memory - -You may notice that netdata's virtual memory size, as reported by `ps` or `/proc/pid/status` (or even netdata's -applications virtual memory chart) is unrealistically high. - -For example, it may be reported to be 150+MB, even if the resident memory size is just 25MB. Similar values may be -reported for Netdata plugins too. - -Check this for example: A Netdata installation with default settings on Ubuntu -16.04LTS. The top chart is **real memory used**, while the bottom one is -**virtual memory**: - -![image](https://cloud.githubusercontent.com/assets/2662304/19013772/5eb7173e-87e3-11e6-8f2b-a2ccfeb06faf.png) - -### Why does this happen? - -The system memory allocator allocates virtual memory arenas, per thread running. On Linux systems this defaults to 16MB -per thread on 64 bit machines. So, if you get the difference between real and virtual memory and divide it by 16MB you -will roughly get the number of threads running. - -The system does this for speed. Having a separate memory arena for each thread, allows the threads to run in parallel in -multi-core systems, without any locks between them. - -This behaviour is system specific. For example, the chart above when running -Netdata on Alpine Linux (that uses **musl** instead of **glibc**) is this: - -![image](https://cloud.githubusercontent.com/assets/2662304/19013807/7cf5878e-87e4-11e6-9651-082e68701eab.png) - -### Can we do anything to lower it? - -Since Netdata already uses minimal memory allocations while it runs (i.e. it adapts its memory on start, so that while -repeatedly collects data it does not do memory allocations), it already instructs the system memory allocator to -minimize the memory arenas for each thread. We have also added [2 configuration -options](https://github.com/netdata/netdata/blob/5645b1ee35248d94e6931b64a8688f7f0d865ec6/src/main.c#L410-L418) to allow -you tweak these settings: `glibc malloc arena max for plugins` and `glibc malloc arena max for netdata`. - -However, even if we instructed the memory allocator to use just one arena, it -seems it allocates an arena per thread. - -Netdata also supports `jemalloc` and `tcmalloc`, however both behave exactly the -same to the glibc memory allocator in this aspect. - -### Is this a problem? - -No, it is not. - -Linux reserves real memory (physical RAM) in pages (on x86 machines pages are 4KB each). So even if the system memory -allocator is allocating huge amounts of virtual memory, only the 4KB pages that are actually used are reserving physical -RAM. The **real memory** chart on Netdata application section, shows the amount of physical memory these pages occupy(it -accounts the whole pages, even if parts of them are actually used). - -## Debugging - -When you compile Netdata with debugging: - -1. compiler optimizations for your CPU are disabled (Netdata will run somewhat slower) - -2. a lot of code is added all over netdata, to log debug messages to `/var/log/netdata/debug.log`. However, nothing is - printed by default. Netdata allows you to select which sections of Netdata you want to trace. Tracing is activated - via the config option `debug flags`. It accepts a hex number, to enable or disable specific sections. You can find - the options supported at [log.h](https://raw.githubusercontent.com/netdata/netdata/master/libnetdata/log/log.h). - They are the `D_*` defines. The value `0xffffffffffffffff` will enable all possible debug flags. - -Once Netdata is compiled with debugging and tracing is enabled for a few sections, the file `/var/log/netdata/debug.log` -will contain the messages. - -> Do not forget to disable tracing (`debug flags = 0`) when you are done tracing. The file `debug.log` can grow too -> fast. - -### Compiling Netdata with debugging - -To compile Netdata with debugging, use this: - -```sh -# step into the Netdata source directory -cd /usr/src/netdata.git - -# run the installer with debugging enabled -CFLAGS="-O1 -ggdb -DNETDATA_INTERNAL_CHECKS=1" ./netdata-installer.sh -``` - -The above will compile and install Netdata with debugging info embedded. You can now use `debug flags` to set the -section(s) you need to trace. - -### Debugging crashes - -We have made the most to make Netdata crash free. If however, Netdata crashes on your system, it would be very helpful -to provide stack traces of the crash. Without them, is will be almost impossible to find the issue (the code base is -quite large to find such an issue by just observing it). - -To provide stack traces, **you need to have Netdata compiled with debugging**. There is no need to enable any tracing -(`debug flags`). - -Then you need to be in one of the following 2 cases: - -1. Netdata crashes and you have a core dump - -2. you can reproduce the crash - -If you are not on these cases, you need to find a way to be (i.e. if your system does not produce core dumps, check your -distro documentation to enable them). - -### Netdata crashes and you have a core dump - -> you need to have Netdata compiled with debugging info for this to work (check above) - -Run the following command and post the output on a github issue. - -```sh -gdb $(which netdata) /path/to/core/dump -``` - -### You can reproduce a Netdata crash on your system - -> you need to have Netdata compiled with debugging info for this to work (check above) - -Install the package `valgrind` and run: - -```sh -valgrind $(which netdata) -D -``` - -Netdata will start and it will be a lot slower. Now reproduce the crash and `valgrind` will dump on your console the -stack trace. Open a new github issue and post the output. -- cgit v1.2.3