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It is difficult to maintain one build system, let alone two - especially if one build system is known to be better maintained and the other build system continues to be used - with bug and feature requests raised against it. The maintainers are aware that there are people using the CMake system, but believe that the extra maintainability of only having one build system, combined with the knowledge that the current CI system demonstrates that all supported architectures are working with the Makefiles make the use of these Makefiles a more sustainable direction.
159 lines
5.8 KiB
Markdown
159 lines
5.8 KiB
Markdown
# Configuration at Build time
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There are a number of configuration options that are made only at build time.
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In order to assist with cross compilation, minimising test cases, repeatable
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builds and minimising externalities, the build options are generally defaulted
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to off.
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As part of simplifying cross compilation, the use of auto-detected
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configuration settings are being removed.
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## Options
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After changing any configuration, please do no forget to `make clean` after
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the (re-)configuration and before building (again) using `make`.
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### `--with-zstd`
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ZSTD Compression Support
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In addition to the built-in LZO1x for payload compression (`-z1` at the edge's
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commandline), n2n optionally supports [ZSTD](https://github.com/facebook/zstd).
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As of 2020, it is considered cutting edge and [praised](https://en.wikipedia.org/wiki/Zstandard)
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for reaching the currently technologically possible Pareto frontier in terms
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of CPU power versus compression ratio.
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#### Makefile
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ZSTD support can be configured using
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`./configure --with-zstd`
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which then will include ZSTD. It will be available via `-z2` at the edges. Of course, it can be combined with the other optimisation features:
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`./configure --with-zstd --with-openssl CFLAGS="-O3 -march=native"`
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Again, and this needs to be reiterated sufficiently often, please do no forget to `make clean` after (re-)configuration and before building (again) using `make`.
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### `--with-openssl`
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Use openssl instead of the built-in AES code
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The speed of some ciphers' can take advantage of OpenSSL support This is
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disabled by default as the built-in ciphers already prove reasonably fast
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in most cases.
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When enabled, this will include OpenSSL 1.1. This can also be combined with
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the hardware support and compiler optimizations such as.
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`./configure --with-openssl CFLAGS="-O3 -march=native"`
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To activate, add `--with-openssl` to the `configure` command
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### `--with-edgex`
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A legacy option intended to help cross compilation - if you use this option
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please let us know as there are probably more modern options for
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cross-compiling
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### `--enable-pthread`
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Enable threading using the pthread library
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### `--enable-cap`
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Use the libcap to provide reduction of the security privileges needed in the
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running daemon
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### `--enable-pcap`
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If the pcap library is available then the `n2n-decode` tool can be compiled.
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### `--enable-natpmp`
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One of the two UPnP libraries, this one supports the NATPMP protocol.
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See also the next option.
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This option depends on the library being installed - on Debian and Ubuntu,
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this is `apt-get install libnatpmp-dev`
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### `--enable-miniupnp`
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Enables the other kind of UPnP port mapping protocol.
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Turning on either of these two UPnP libraries will enable UPnP support within
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the n2n-portfwd tool.
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This option depends on the library being installed - on Debian and Ubuntu,
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this is `apt-get install libminiupnpc-dev`
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### Disable Multicast Local Peer Detection
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For better local peer detection, the edges try to detect local peers by sending REGISTER
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packets to a certain multicast address. Also, edges listen to this address to eventually
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fetch such packets.
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If these packets disturb network's peace or even get forwarded by (other) edges through the
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n2n network, this behavior can be disabled
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#### Makefile
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Add
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`-DSKIP_MULTICAST_PEERS_DISCOVERY`
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to your `CFLAGS` when configuring, e.g.
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`./configure --with-zstd CFLAGS="-O3 -march=native -DSKIP_MULTICAST_PEERS_DISCOVERY"`
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### Deprecation of --with options
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Due to historical reasons, the autoconf system does not validate the syntax
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of any `--with-X` style options, thus to provide the highest confidence in
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the correctness of configuration and compilation, `--enable-X` style options
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are preferred. As part of this, the older `--with-X` options will eventually
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be migrated to use `--enable-X`
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# Optimisation options
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## Compiler Optimizations
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The easiest way to boosting speed is by allowing the compiler to apply optimization to the code. To let the compiler know, the configuration process can take in the optionally specified compiler flag `-O3`:
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`./configure CFLAGS="-O3"`
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The `tools/n2n-benchmark` tool reports speed-ups of 200% or more! There is no known risk in terms of instable code or so.
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## Hardware Features
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Some parts of the code significantly benefit from compiler optimizations (`-O3`) and platform features
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such as NEON, SSE and AVX. It needs to be decided at compile-time. Hence if compiling for a specific
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platform with known features (maybe the local one), it should be specified to the compiler – for
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example through the `-march=sandybridge` (you name it) or just `-march=native` for local use.
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So far, the following portions of n2n's code benefit from hardware features:
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```
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AES: AES-NI
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ChaCha20: SSE2, SSSE3
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SPECK: SSE2, SSSE3, AVX2, AVX512, (NEON)
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Random Numbers: RDSEED, RDRND (not faster but more random seed)
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```
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The compilations flags could easily be combined:
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`./configure CFLAGS="-O3 -march=native"`.
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There are reports of compile errors showing `n2n_seed': random_numbers.c:(.text+0x214): undefined reference to _rdseed64_step'` even though the CPU should support it, see #696. In this case, best solution found so far is to disable `RDSEED` support by adding `-U__RDSEED__` to the `CFLAGS`.
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## SPECK – ARM NEON Hardware Acceleration
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By default, SPECK does not take advantage of ARM NEON hardware acceleration even if compiled with `-march=native`. The reason is that the NEON implementation proved to be slower than the 64-bit scalar code on Raspberry Pi 3B+, see [here](https://github.com/ntop/n2n/issues/563).
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Your specific ARM mileage may vary, so it can be enabled by configuring the definition of the `SPECK_ARM_NEON` macro:
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`./configure CFLAGS="-DSPECK_ARM_NEON"`
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Just make sure that the correct architecture is set, too. `-march=native` usually works quite well.
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