LuaJIT FFI bindings to libcidr. Provides CIDR calculations for IPv4 and IPv6.
To use lua-libcidr-ffi, libcidr must first be installed on your system. You can then install lua-libcidr-ffi via LuaRocks or OPM:
Via LuaRocks:
luarocks install libcidr-ffi
Or via OPM:
opm get GUI/lua-libcidr-ffi
libcidr must be installed on your system. It can be installed via system packages (if available) or manually built from source:
Packages: If binary packages are available for your distribution (available on Ubuntu 18.04 Bionic and newer or Debian 10 Buster and newer):
apt-get install libcidr-dev
Source: For other distributions where binary packages are not available, libcidr can be installed from source:
curl -OL "https://www.over-yonder.net/~fullermd/projects/libcidr/libcidr-1.2.3.tar.xz"
tar -xf libcidr-1.2.3.tar.xz
cd libcidr-1.2.3
make
sudo make install
local cidr = require "libcidr-ffi"
cidr.contains(cidr.from_str("10.10.10.10/8"), cidr.from_str("10.20.30.40")) -- true
cidr.contains(cidr.from_str("10.10.10.10/16"), cidr.from_str("10.20.30.40")) -- false
cidr.contains(cidr.from_str("2001:db8::/32"), cidr.from_str("2001:db8:1234::1")) -- true
cidr.contains(cidr.from_str("2001:db8::/32"), cidr.from_str("2001:db9:1234::1")) -- false
For more detailed documentation of function behavior, see libcidr's own documentation. Currently, only bindings to a few of libcidr's functions are available in this Lua library, but other bindings could easily be added.
struct, err = cidr.from_str(string)
Takes in a netblock description as a human-readable string, and creates a CIDR structure from it. In case of failures, returns nil
and a string describing the error.
string, err = cidr.to_str(struct[, flags])
Takes in a CIDR structure, and generates up a human-readable string describing the netblock. In case of failures, returns nil
and a string describing the error.
An optional second argument accepts flags that can be used to control the string output format. Constants for each flag are available under cidr.flags
. Multiple flags can be combined as a bitmask. The available flags are:
NOFLAGS
: A stand-in for when you just want the default outputNOCOMPACT
: Don't do ::-style IPv6 compactionVERBOSE
: Show leading 0's in octets [v6 only]USEV6
: Use IPv4-mapped address form for IPv4 addresses (::ffff:a.b.c.d)USEV4COMPAT
: Use IPv4-compat form (::a.b.c.d) instead of IPv4-mapped form (only meaningful in combination with CIDR_USEV6)NETMASK
: Return a netmask in standard form after the slash, instead of the prefix length. Note that the form of the netmask can thus be altered by the various flags that alter how the address is displayed.ONLYADDR
: Show only the address, without the prefix/netmaskONLYPFLEN
: Show only the prefix length (or netmask, when combined with CIDR_NETMASK), without the address.WILDCARD
: Show a Cisco-style wildcard mask instead of the netmask (only meaningful in combination with CIDR_NETMASK)FORCEV6
: Forces treating the CIDR as an IPv6 address, no matter what it really is. This doesn't do any conversion or translation; just treats the raw data as if it were IPv6.FORCEV4
: Forces treating the CIDR as an IPv4 address, no matter what it really is. This doesn't do any conversion or translation; just treats the raw data as if it were IPv4.REVERSE
: Generates a .in-addr.arpa or .ip6.arpa-style PTR record name for the given block. Note that this always treats it solely as an address; the netmask is ignored. See some notes in cidr_from_str() for details of the asymmetric treatment of this form of address representation relating to the netmask.
Examples:
local cidr = require "libcidr-ffi"
local bit = require "bit"
cidr.to_str(cidr.from_str("127.0.0.1"))
-- "127.0.0.1/32"
cidr.to_str(cidr.from_str("127.0.0.1"), cidr.flags.ONLYADDR)
-- "127.0.0.1"
cidr.to_str(cidr.from_str("127.0.0.1"), cidr.flags.USEV6)
-- "::ffff:127.0.0.1/128"
cidr.to_str(cidr.from_str("127.0.0.1"), bit.bor(cidr.flags.ONLYADDR, cidr.flags.USEV6))
-- "::ffff:127.0.0.1"
cidr.to_str(cidr.from_str("2001:db8::2:1"))
-- "2001:db8::2:1/128"
cidr.to_str(cidr.from_str("2001:db8::2:1"), cidr.flags.VERBOSE)
-- "2001:0db8::0002:0001/128"
bool = cidr.contains(big, small)
This function is passed two CIDR structures describing a pair of netblocks. It then determines if the latter is wholly contained within the former. In case of failures, returns nil
and a string describing the error.
- lua-resty-iputils: A pure Lua library for CIDR comparisons in OpenResty. Provides a nice higher-level API with built-in caching. Currently lacks IPv6 support.
When performing the luarocks install libcidr-ffi
command, if you receive an error indicating the libcidr library could not be found (Could not find library file for CIDR
), then you can manually specify the location of the lib directory that contains the libcidr.so
file by using the CIDR_LIBDIR
argument. For example, if the library is installed in /usr/local/lib/libcidr.so
:
luarocks install libcidr-ffi CIDR_LIBDIR=/usr/local/lib
When requiring the libcidr-ffi
module in your Lua code, if you receive an error indicating the libcidr library could not be found (libcidr.so: cannot open shared object file: No such file or directory
), then you can manually specify the location of the lib directory that contains the libcidr.so
file by using the LD_LIBRARY_PATH
environment variable. For example, if the library is installed in /usr/local/lib/libcidr.so
:
export LD_LIBRARY_PATH=/usr/local/lib
luajit -e 'require "libcidr-ffi"'
After checking out the repo, Docker can be used to run the test suite:
docker-compose run --rm app make test
To release a new version to LuaRocks and OPM:
- Ensure
CHANGELOG.md
is up to date. - Update the
_VERSION
inlib/libcidr-ffi.lua
. - Update the
version
indist.ini
. - Move the rockspec file to the new version number (
git mv libcidr-ffi-X.X.X-1.rockspec libcidr-ffi-X.X.X-1.rockspec
), and update theversion
andtag
variables in the rockspec file. - Commit and tag the release (
git tag -a vX.X.X -m "Tagging vX.X.X" && git push origin vX.X.X
). - Run
make release VERSION=X.X.X
.