A fast Go avro codec
Install with:
go get github.com/hamba/avro/v2
Note: This project has renamed the default branch from master
to main
. You will need to update your local environment.
type SimpleRecord struct {
A int64 `avro:"a"`
B string `avro:"b"`
}
schema, err := avro.Parse(`{
"type": "record",
"name": "simple",
"namespace": "org.hamba.avro",
"fields" : [
{"name": "a", "type": "long"},
{"name": "b", "type": "string"}
]
}`)
if err != nil {
log.Fatal(err)
}
in := SimpleRecord{A: 27, B: "foo"}
data, err := avro.Marshal(schema, in)
if err != nil {
log.Fatal(err)
}
fmt.Println(data)
// Outputs: [54 6 102 111 111]
out := SimpleRecord{}
err = avro.Unmarshal(schema, data, &out)
if err != nil {
log.Fatal(err)
}
fmt.Println(out)
// Outputs: {27 foo}
More examples in the godoc.
Avro | Go Struct | Go Interface |
---|---|---|
null |
nil |
nil |
boolean |
bool |
bool |
bytes |
[]byte |
[]byte |
float |
float32 |
float32 |
double |
float64 |
float64 |
long |
int64 , uint32 * |
int64 , uint32 |
int |
int , int32 , int16 , int8 , uint8 *, uint16 * |
int , uint8 , uint16 |
fixed |
uint64 |
uint64 |
string |
string |
string |
array |
[]T |
[]any |
enum |
string |
string |
fixed |
[n]byte |
[n]byte |
map |
map[string]T{} |
map[string]any |
record |
struct |
map[string]any |
union |
see below | see below |
int.date |
time.Time |
time.Time |
int.time-millis |
time.Duration |
time.Duration |
long.time-micros |
time.Duration |
time.Duration |
long.timestamp-millis |
time.Time |
time.Time |
long.timestamp-micros |
time.Time |
time.Time |
long.local-timestamp-millis |
time.Time |
time.Time |
long.local-timestamp-micros |
time.Time |
time.Time |
bytes.decimal |
*big.Rat |
*big.Rat |
fixed.decimal |
*big.Rat |
*big.Rat |
string.uuid |
string |
string |
* Please note that when the Go type is an unsigned integer care must be taken to ensure that information is not lost
when converting between the Avro type and Go type. For example, storing a negative number in Avro of int = -100
would be interpreted as uint16 = 65,436
in Go. Another example would be storing numbers in Avro int = 256
that
are larger than the Go type uint8 = 0
.
The following union types are accepted: map[string]any
, *T
and any
.
- map[string]any: If the union value is
nil
, anil
map will be en/decoded. When a non-nil
union value is encountered, a single key is en/decoded. The key is the avro type name, or scheam full name in the case of a named schema (enum, fixed or record). - *T: This is allowed in a "nullable" union. A nullable union is defined as a two schema union,
with one of the types being
null
(ie.["null", "string"]
or["string", "null"]
), in this case a*T
is allowed, withT
matching the conversion table above. In the case of a slice, the slice can be used directly. - any: An
interface
can be provided and the type or name resolved. Primitive types are pre-registered, but named types, maps and slices will need to be registered with theRegister
function. In the case of arrays and maps the enclosed schema type or name is postfix to the type with a:
separator, e.g"map:string"
. Behavior when a type cannot be resolved will depend on your chosen configuation options:- !Config.UnionResolutionError && !Config.PartialUnionTypeResolution: the map type above is used
- Config.UnionResolutionError && !Config.PartialUnionTypeResolution: an error is returned
- !Config.UnionResolutionError && Config.PartialUnionTypeResolution: any registered type will get resolved while any unregistered type will fallback to the map type above.
- Config.UnionResolutionError && !Config.PartialUnionTypeResolution: any registered type will get resolved while any unregistered type will return an error.
The interfaces TextMarshaler
and TextUnmarshaler
are supported for a string
schema type. The object will
be tested first for implementation of these interfaces, in the case of a string
schema, before trying regular
encoding and decoding.
Enums may also implement TextMarshaler
and TextUnmarshaler
, and must resolve to valid symbols in the given enum schema.
One type can be ConvertibleTo another type if they have identical underlying types. A non-native type is allowed be used if it can be convertible to time.Time, big.Rat or avro.LogicalDuration for the particular of LogicalTypes.
Ex.: type Timestamp time.Time
For security reasons, the configuration Config.MaxByteSliceSize
restricts the maximum size of bytes
and string
types created
by the Reader
. The default maximum size is 1MiB
and is configurable. This is required to stop untrusted input from consuming all memory and
crashing the application. Should this not be need, setting a negative number will disable the behaviour.
Benchmark source code can be found at: https://github.com/nrwiersma/avro-benchmarks
BenchmarkGoAvroDecode-8 788455 1505 ns/op 418 B/op 27 allocs/op
BenchmarkGoAvroEncode-8 624343 1908 ns/op 806 B/op 63 allocs/op
BenchmarkGoGenAvroDecode-8 1360375 876.4 ns/op 320 B/op 11 allocs/op
BenchmarkGoGenAvroEncode-8 2801583 425.9 ns/op 240 B/op 3 allocs/op
BenchmarkHambaDecode-8 5046832 238.7 ns/op 47 B/op 0 allocs/op
BenchmarkHambaEncode-8 6017635 196.2 ns/op 112 B/op 1 allocs/op
BenchmarkLinkedinDecode-8 1000000 1003 ns/op 1688 B/op 35 allocs/op
BenchmarkLinkedinEncode-8 3170553 381.5 ns/op 248 B/op 5 allocs/op
Always benchmark with your own workload. The result depends heavily on the data input.
Go structs can be generated for you from the schema. The types generated follow the same logic in types conversions
Install the struct generator with:
go install github.com/hamba/avro/v2/cmd/avrogen@<version>
Example usage assuming there's a valid schema in in.avsc
:
avrogen -pkg avro -o bla.go -tags json:snake,yaml:upper-camel in.avsc
Tip: Omit -o FILE
to dump the generated Go structs to stdout instead of a file.
Check the options and usage with -h
:
avrogen -h
Or use it as a lib in internal commands, it's the gen
package
A small Avro schema validation command-line utility is also available. This simple tool leverages the schema parsing functionality of the library, showing validation errors or optionally dumping parsed schemas to the console. It can be used in CI/CD pipelines to validate schema changes in a repository.
Install the Avro schema validator with:
go install github.com/hamba/avro/v2/cmd/avrosv@<version>
Example usage assuming there's a valid schema in in.avsc
(exit status code is 0
):
avrosv in.avsc
An invalid schema will result in a diagnostic output and a non-zero exit status code:
avrosv bad-default-schema.avsc; echo $?
Error: avro: invalid default for field someString. <nil> not a string
2
Schemas referencing other schemas can also be validated by providing all of them (schemas are parsed in order):
avrosv base-schema.avsc schema-withref.avsc
Check the options and usage with -h
:
avrosv -h
This library supports the last two versions of Go. While the minimum Go version is not guarantee to increase along side Go, it may jump from time to time to support additional features. This will be not be considered a breaking change.