Mike Morris
93f937f238
types: add TLS constants types: distinguish between human and Envoy serialization for TLSVersion constants types: add DeprecatedAgentTLSVersions for backwards compatibility types: add methods for printing TLSVersion as strings types: add TLSVersionInvalid error value types: add a basic test for TLSVersion comparison types: add TLS cihper suite mapping using IANA constant names and values types: adding ConsulAutoConfigTLSVersionStrings changelog: add entry for TLSVersion and TLSCipherSuite types types: initialize TLSVerison constants starting at zero types: remove TLSVersionInvalid < 0 test types: update note for ConsulAutoConfigTLSVersionStrings types: programmatically invert TLSCipherSuites for HumanTLSCipherSuiteStrings lookup map Co-authored-by: Dan Upton <daniel@floppy.co> types: add test for TLSVersion zero-value types: remove unused EnvoyTLSVersionStrings types: implement MarshalJSON for TLSVersion types: implement TLSVersionUnspecified as zero value types: delegate TLS.MarshalJSON to json.Marshal, use ConsulConfigTLSVersionStrings as default String() values Co-authored-by: Dan Upton <daniel@floppy.co> |
3 years ago | |
---|---|---|
.. | ||
README.md |
…
|
|
area.go | Move RPC router from Client/Server and into BaseDeps (#8559) | 4 years ago |
checks.go |
…
|
|
node_id.go |
…
|
|
tls.go | types: add types/tls.go for strongly-typed TLS versions and cipher suites (#11645) | 3 years ago |
tls_test.go | types: add types/tls.go for strongly-typed TLS versions and cipher suites (#11645) | 3 years ago |
README.md
Consul types
Package
The Go language has a strong type system built into the language. The
types
package corrals named types into a single package that is terminal in
go
's import graph. The types
package should not have any downstream
dependencies. Each subsystem that defines its own set of types exists in its
own file, but all types are defined in the same package.
Why
Everything should be made as simple as possible, but not simpler.
string
is a useful container and underlying type for identifiers, however
the string
type is effectively opaque to the compiler in terms of how a
given string is intended to be used. For instance, there is nothing
preventing the following from happening:
// `map` of Widgets, looked up by ID
var widgetLookup map[string]*Widget
// ...
var widgetID string = "widgetID"
w, found := widgetLookup[widgetID]
// Bad!
var widgetName string = "name of widget"
w, found := widgetLookup[widgetName]
but this class of problem is entirely preventable:
type WidgetID string
var widgetLookup map[WidgetID]*Widget
var widgetName
TL;DR: intentions and idioms aren't statically checked by compilers. The
types
package uses Go's strong type system to prevent this class of bug.