CGO_ENABLED=1 leads to faster, smaller builds & runtimes - as it can dynamically load the host OS's native libraries (e.g.
glibc, DNS resolver etc.) - when running on the build OS. This is ideal for local rapid development. For deployment,
CGO_ENABLED=1 may not be practical or even possible - when considering the deployment hosting OS.
If you're purely using the standard library, they you may not necessarily need CGO enabled. In certain standard libraries behavior will different if using a pure-Go version (
CGO_ENABLED=1) or a CGO-enabled version:
- net: see DNS Name Resolution
CGO_ENABLED=1 uses the native OS (e.g. on Linux
nsswitch) for ID lookup
CGO_ENABLED=0 uses a basic Go implementation (e.g. reads from
/etc/passwd) - which does not include other ID registries the host may be aware of
CGO_ENABLED=1 binary may be smaller in size, it relies on delivering a host OS too. Comparing Docker images:
ubuntu:20.04 is 73.9MB (
alpine:3.12.1 is 5.57MB (
so adding an OS (even a minimal one) adds this extra baggage.
alpine looks attractive in its minimal size - but its
libc may not be compatible with packages that rely on
CGO_ENABLED=0 is, however, ideal for scratch docker image deployments - as no host OS needs to be bundled.
However, if your application imports a package with C-code (e.g. go-sqlite3) then your build must enable CGO.