use crate::{
decimal::Decimal,
duration::Duration,
schema::{
DecimalSchema, EnumSchema, FixedSchema, Name, NamesRef, Namespace, Precision, RecordField,
RecordSchema, ResolvedSchema, Scale, Schema, SchemaKind, UnionSchema,
},
AvroResult, Error,
};
use serde_json::{Number, Value as JsonValue};
use std::{
collections::{BTreeMap, HashMap},
convert::TryFrom,
hash::BuildHasher,
str::FromStr,
};
use uuid::Uuid;
fn max_prec_for_len(len: usize) -> Result<usize, Error> {
let len = i32::try_from(len).map_err(|e| Error::ConvertLengthToI32(e, len))?;
Ok((2.0_f64.powi(8 * len - 1) - 1.0).log10().floor() as usize)
}
#[derive(Clone, Debug, PartialEq, strum_macros::EnumDiscriminants)]
#[strum_discriminants(name(ValueKind))]
pub enum Value {
Null,
Boolean(bool),
Int(i32),
Long(i64),
Float(f32),
Double(f64),
Bytes(Vec<u8>),
String(String),
Fixed(usize, Vec<u8>),
Enum(u32, String),
Union(u32, Box<Value>),
Array(Vec<Value>),
Map(HashMap<String, Value>),
Record(Vec<(String, Value)>),
Date(i32),
Decimal(Decimal),
TimeMillis(i32),
TimeMicros(i64),
TimestampMillis(i64),
TimestampMicros(i64),
Duration(Duration),
Uuid(Uuid),
}
#[deprecated(
since = "0.11.0",
note = "Please use Value::from, Into::into or value.into() instead"
)]
pub trait ToAvro {
fn avro(self) -> Value;
}
#[allow(deprecated)]
impl<T: Into<Value>> ToAvro for T {
fn avro(self) -> Value {
self.into()
}
}
macro_rules! to_value(
($type:ty, $variant_constructor:expr) => (
impl From<$type> for Value {
fn from(value: $type) -> Self {
$variant_constructor(value)
}
}
);
);
to_value!(bool, Value::Boolean);
to_value!(i32, Value::Int);
to_value!(i64, Value::Long);
to_value!(f32, Value::Float);
to_value!(f64, Value::Double);
to_value!(String, Value::String);
to_value!(Vec<u8>, Value::Bytes);
to_value!(uuid::Uuid, Value::Uuid);
to_value!(Decimal, Value::Decimal);
to_value!(Duration, Value::Duration);
impl From<()> for Value {
fn from(_: ()) -> Self {
Self::Null
}
}
impl From<usize> for Value {
fn from(value: usize) -> Self {
i64::try_from(value)
.expect("cannot convert usize to i64")
.into()
}
}
impl From<&str> for Value {
fn from(value: &str) -> Self {
Self::String(value.to_owned())
}
}
impl From<&[u8]> for Value {
fn from(value: &[u8]) -> Self {
Self::Bytes(value.to_owned())
}
}
impl<T> From<Option<T>> for Value
where
T: Into<Self>,
{
fn from(value: Option<T>) -> Self {
Self::Union(
value.is_some() as u32,
Box::new(value.map_or_else(|| Self::Null, Into::into)),
)
}
}
impl<K, V, S> From<HashMap<K, V, S>> for Value
where
K: Into<String>,
V: Into<Self>,
S: BuildHasher,
{
fn from(value: HashMap<K, V, S>) -> Self {
Self::Map(
value
.into_iter()
.map(|(key, value)| (key.into(), value.into()))
.collect(),
)
}
}
#[derive(Debug, Clone)]
pub struct Record<'a> {
pub fields: Vec<(String, Value)>,
schema_lookup: &'a BTreeMap<String, usize>,
}
impl<'a> Record<'a> {
pub fn new(schema: &Schema) -> Option<Record> {
match *schema {
Schema::Record(RecordSchema {
fields: ref schema_fields,
lookup: ref schema_lookup,
..
}) => {
let mut fields = Vec::with_capacity(schema_fields.len());
for schema_field in schema_fields.iter() {
fields.push((schema_field.name.clone(), Value::Null));
}
Some(Record {
fields,
schema_lookup,
})
}
_ => None,
}
}
pub fn put<V>(&mut self, field: &str, value: V)
where
V: Into<Value>,
{
if let Some(&position) = self.schema_lookup.get(field) {
self.fields[position].1 = value.into()
}
}
}
impl<'a> From<Record<'a>> for Value {
fn from(value: Record<'a>) -> Self {
Self::Record(value.fields)
}
}
impl From<JsonValue> for Value {
fn from(value: JsonValue) -> Self {
match value {
JsonValue::Null => Self::Null,
JsonValue::Bool(b) => b.into(),
JsonValue::Number(ref n) if n.is_i64() => Value::Long(n.as_i64().unwrap()),
JsonValue::Number(ref n) if n.is_f64() => Value::Double(n.as_f64().unwrap()),
JsonValue::Number(n) => Value::Long(n.as_u64().unwrap() as i64), JsonValue::String(s) => s.into(),
JsonValue::Array(items) => Value::Array(items.into_iter().map(Value::from).collect()),
JsonValue::Object(items) => Value::Map(
items
.into_iter()
.map(|(key, value)| (key, value.into()))
.collect(),
),
}
}
}
impl TryFrom<Value> for JsonValue {
type Error = crate::error::Error;
fn try_from(value: Value) -> AvroResult<Self> {
match value {
Value::Null => Ok(Self::Null),
Value::Boolean(b) => Ok(Self::Bool(b)),
Value::Int(i) => Ok(Self::Number(i.into())),
Value::Long(l) => Ok(Self::Number(l.into())),
Value::Float(f) => Number::from_f64(f.into())
.map(Self::Number)
.ok_or_else(|| Error::ConvertF64ToJson(f.into())),
Value::Double(d) => Number::from_f64(d)
.map(Self::Number)
.ok_or(Error::ConvertF64ToJson(d)),
Value::Bytes(bytes) => Ok(Self::Array(bytes.into_iter().map(|b| b.into()).collect())),
Value::String(s) => Ok(Self::String(s)),
Value::Fixed(_size, items) => {
Ok(Self::Array(items.into_iter().map(|v| v.into()).collect()))
}
Value::Enum(_i, s) => Ok(Self::String(s)),
Value::Union(_i, b) => Self::try_from(*b),
Value::Array(items) => items
.into_iter()
.map(Self::try_from)
.collect::<Result<Vec<_>, _>>()
.map(Self::Array),
Value::Map(items) => items
.into_iter()
.map(|(key, value)| Self::try_from(value).map(|v| (key, v)))
.collect::<Result<Vec<_>, _>>()
.map(|v| Self::Object(v.into_iter().collect())),
Value::Record(items) => items
.into_iter()
.map(|(key, value)| Self::try_from(value).map(|v| (key, v)))
.collect::<Result<Vec<_>, _>>()
.map(|v| Self::Object(v.into_iter().collect())),
Value::Date(d) => Ok(Self::Number(d.into())),
Value::Decimal(ref d) => <Vec<u8>>::try_from(d)
.map(|vec| Self::Array(vec.into_iter().map(|v| v.into()).collect())),
Value::TimeMillis(t) => Ok(Self::Number(t.into())),
Value::TimeMicros(t) => Ok(Self::Number(t.into())),
Value::TimestampMillis(t) => Ok(Self::Number(t.into())),
Value::TimestampMicros(t) => Ok(Self::Number(t.into())),
Value::Duration(d) => Ok(Self::Array(
<[u8; 12]>::from(d).iter().map(|&v| v.into()).collect(),
)),
Value::Uuid(uuid) => Ok(Self::String(uuid.as_hyphenated().to_string())),
}
}
}
impl Value {
pub fn validate(&self, schema: &Schema) -> bool {
self.validate_schemata(vec![schema])
}
pub fn validate_schemata(&self, schemata: Vec<&Schema>) -> bool {
let rs = ResolvedSchema::try_from(schemata.clone())
.expect("Schemata didn't successfully resolve");
let schemata_len = schemata.len();
schemata.iter().any(|schema| {
let enclosing_namespace = schema.namespace();
match self.validate_internal(schema, rs.get_names(), &enclosing_namespace) {
Some(reason) => {
let log_message = format!(
"Invalid value: {:?} for schema: {:?}. Reason: {}",
self, schema, reason
);
if schemata_len == 1 {
error!("{}", log_message);
} else {
debug!("{}", log_message);
};
false
}
None => true,
}
})
}
fn accumulate(accumulator: Option<String>, other: Option<String>) -> Option<String> {
match (accumulator, other) {
(None, None) => None,
(None, s @ Some(_)) => s,
(s @ Some(_), None) => s,
(Some(reason1), Some(reason2)) => Some(format!("{reason1}\n{reason2}")),
}
}
pub(crate) fn validate_internal<S: std::borrow::Borrow<Schema>>(
&self,
schema: &Schema,
names: &HashMap<Name, S>,
enclosing_namespace: &Namespace,
) -> Option<String> {
match (self, schema) {
(_, Schema::Ref { name }) => {
let name = name.fully_qualified_name(enclosing_namespace);
names.get(&name).map_or_else(
|| {
Some(format!(
"Unresolved schema reference: '{:?}'. Parsed names: {:?}",
name,
names.keys()
))
},
|s| self.validate_internal(s.borrow(), names, &name.namespace),
)
}
(&Value::Null, &Schema::Null) => None,
(&Value::Boolean(_), &Schema::Boolean) => None,
(&Value::Int(_), &Schema::Int) => None,
(&Value::Int(_), &Schema::Date) => None,
(&Value::Int(_), &Schema::TimeMillis) => None,
(&Value::Int(_), &Schema::Long) => None,
(&Value::Long(_), &Schema::Long) => None,
(&Value::Long(_), &Schema::TimeMicros) => None,
(&Value::Long(_), &Schema::TimestampMillis) => None,
(&Value::Long(_), &Schema::TimestampMicros) => None,
(&Value::TimestampMicros(_), &Schema::TimestampMicros) => None,
(&Value::TimestampMillis(_), &Schema::TimestampMillis) => None,
(&Value::TimeMicros(_), &Schema::TimeMicros) => None,
(&Value::TimeMillis(_), &Schema::TimeMillis) => None,
(&Value::Date(_), &Schema::Date) => None,
(&Value::Decimal(_), &Schema::Decimal { .. }) => None,
(&Value::Duration(_), &Schema::Duration) => None,
(&Value::Uuid(_), &Schema::Uuid) => None,
(&Value::Float(_), &Schema::Float) => None,
(&Value::Float(_), &Schema::Double) => None,
(&Value::Double(_), &Schema::Double) => None,
(&Value::Bytes(_), &Schema::Bytes) => None,
(&Value::Bytes(_), &Schema::Decimal { .. }) => None,
(&Value::String(_), &Schema::String) => None,
(&Value::String(_), &Schema::Uuid) => None,
(&Value::Fixed(n, _), &Schema::Fixed(FixedSchema { size, .. })) => {
if n != size {
Some(format!(
"The value's size ({n}) is different than the schema's size ({size})"
))
} else {
None
}
}
(Value::Bytes(b), &Schema::Fixed(FixedSchema { size, .. })) => {
if b.len() != size {
Some(format!(
"The bytes' length ({}) is different than the schema's size ({})",
b.len(),
size
))
} else {
None
}
}
(&Value::Fixed(n, _), &Schema::Duration) => {
if n != 12 {
Some(format!(
"The value's size ('{n}') must be exactly 12 to be a Duration"
))
} else {
None
}
}
(&Value::Fixed(_n, _), &Schema::Decimal { .. }) => None,
(Value::String(s), Schema::Enum(EnumSchema { symbols, .. })) => {
if !symbols.contains(s) {
Some(format!("'{s}' is not a member of the possible symbols"))
} else {
None
}
}
(&Value::Enum(i, ref s), Schema::Enum(EnumSchema { symbols, .. })) => symbols
.get(i as usize)
.map(|ref symbol| {
if symbol != &s {
Some(format!("Symbol '{s}' is not at position '{i}'"))
} else {
None
}
})
.unwrap_or_else(|| Some(format!("No symbol at position '{i}'"))),
(&Value::Union(i, ref value), Schema::Union(inner)) => inner
.variants()
.get(i as usize)
.map(|schema| value.validate_internal(schema, names, enclosing_namespace))
.unwrap_or_else(|| Some(format!("No schema in the union at position '{i}'"))),
(v, Schema::Union(inner)) => {
match inner.find_schema_with_known_schemata(v, Some(names)) {
Some(_) => None,
None => Some("Could not find matching type in union".to_string()),
}
}
(Value::Array(items), Schema::Array(inner)) => items.iter().fold(None, |acc, item| {
Value::accumulate(
acc,
item.validate_internal(inner, names, enclosing_namespace),
)
}),
(Value::Map(items), Schema::Map(inner)) => {
items.iter().fold(None, |acc, (_, value)| {
Value::accumulate(
acc,
value.validate_internal(inner, names, enclosing_namespace),
)
})
}
(Value::Record(record_fields), Schema::Record(RecordSchema { fields, lookup, .. })) => {
let non_nullable_fields_count =
fields.iter().filter(|&rf| !rf.is_nullable()).count();
if record_fields.len() < non_nullable_fields_count {
return Some(format!(
"The value's records length ({}) doesn't match the schema ({} non-nullable fields)",
record_fields.len(),
non_nullable_fields_count
));
} else if record_fields.len() > fields.len() {
return Some(format!(
"The value's records length ({}) is greater than the schema's ({} fields)",
record_fields.len(),
fields.len(),
));
}
record_fields
.iter()
.fold(None, |acc, (field_name, record_field)| {
match lookup.get(field_name) {
Some(idx) => {
let field = &fields[*idx];
Value::accumulate(
acc,
record_field.validate_internal(
&field.schema,
names,
enclosing_namespace,
),
)
}
None => Value::accumulate(
acc,
Some(format!("There is no schema field for field '{field_name}'")),
),
}
})
}
(Value::Map(items), Schema::Record(RecordSchema { fields, .. })) => {
fields.iter().fold(None, |acc, field| {
if let Some(item) = items.get(&field.name) {
let res = item.validate_internal(&field.schema, names, enclosing_namespace);
Value::accumulate(acc, res)
} else if !field.is_nullable() {
Value::accumulate(
acc,
Some(format!(
"Field with name '{:?}' is not a member of the map items",
field.name
)),
)
} else {
acc
}
})
}
(_v, _s) => Some("Unsupported value-schema combination".to_string()),
}
}
pub fn resolve(self, schema: &Schema) -> AvroResult<Self> {
let enclosing_namespace = schema.namespace();
let rs = ResolvedSchema::try_from(schema)?;
self.resolve_internal(schema, rs.get_names(), &enclosing_namespace, &None)
}
pub fn resolve_schemata(self, schema: &Schema, schemata: Vec<&Schema>) -> AvroResult<Self> {
let enclosing_namespace = schema.namespace();
let rs = ResolvedSchema::try_from(schemata)?;
self.resolve_internal(schema, rs.get_names(), &enclosing_namespace, &None)
}
fn resolve_internal(
mut self,
schema: &Schema,
names: &NamesRef,
enclosing_namespace: &Namespace,
field_default: &Option<JsonValue>,
) -> AvroResult<Self> {
if SchemaKind::from(&self) == SchemaKind::Union
&& SchemaKind::from(schema) != SchemaKind::Union
{
let v = match self {
Value::Union(_i, b) => *b,
_ => unreachable!(),
};
self = v;
}
match *schema {
Schema::Ref { ref name } => {
let name = name.fully_qualified_name(enclosing_namespace);
if let Some(resolved) = names.get(&name) {
debug!("Resolved {:?}", name);
self.resolve_internal(resolved, names, &name.namespace, field_default)
} else {
error!("Failed to resolve schema {:?}", name);
Err(Error::SchemaResolutionError(name.clone()))
}
}
Schema::Null => self.resolve_null(),
Schema::Boolean => self.resolve_boolean(),
Schema::Int => self.resolve_int(),
Schema::Long => self.resolve_long(),
Schema::Float => self.resolve_float(),
Schema::Double => self.resolve_double(),
Schema::Bytes => self.resolve_bytes(),
Schema::String => self.resolve_string(),
Schema::Fixed(FixedSchema { size, .. }) => self.resolve_fixed(size),
Schema::Union(ref inner) => {
self.resolve_union(inner, names, enclosing_namespace, field_default)
}
Schema::Enum(EnumSchema {
ref symbols,
ref default,
..
}) => self.resolve_enum(symbols, default, field_default),
Schema::Array(ref inner) => self.resolve_array(inner, names, enclosing_namespace),
Schema::Map(ref inner) => self.resolve_map(inner, names, enclosing_namespace),
Schema::Record(RecordSchema { ref fields, .. }) => {
self.resolve_record(fields, names, enclosing_namespace)
}
Schema::Decimal(DecimalSchema {
scale,
precision,
ref inner,
}) => self.resolve_decimal(precision, scale, inner),
Schema::Date => self.resolve_date(),
Schema::TimeMillis => self.resolve_time_millis(),
Schema::TimeMicros => self.resolve_time_micros(),
Schema::TimestampMillis => self.resolve_timestamp_millis(),
Schema::TimestampMicros => self.resolve_timestamp_micros(),
Schema::Duration => self.resolve_duration(),
Schema::Uuid => self.resolve_uuid(),
}
}
fn resolve_uuid(self) -> Result<Self, Error> {
Ok(match self {
uuid @ Value::Uuid(_) => uuid,
Value::String(ref string) => {
Value::Uuid(Uuid::from_str(string).map_err(Error::ConvertStrToUuid)?)
}
other => return Err(Error::GetUuid(other.into())),
})
}
fn resolve_duration(self) -> Result<Self, Error> {
Ok(match self {
duration @ Value::Duration { .. } => duration,
Value::Fixed(size, bytes) => {
if size != 12 {
return Err(Error::GetDecimalFixedBytes(size));
}
Value::Duration(Duration::from([
bytes[0], bytes[1], bytes[2], bytes[3], bytes[4], bytes[5], bytes[6], bytes[7],
bytes[8], bytes[9], bytes[10], bytes[11],
]))
}
other => return Err(Error::ResolveDuration(other.into())),
})
}
fn resolve_decimal(
self,
precision: Precision,
scale: Scale,
inner: &Schema,
) -> Result<Self, Error> {
if scale > precision {
return Err(Error::GetScaleAndPrecision { scale, precision });
}
match inner {
&Schema::Fixed(FixedSchema { size, .. }) => {
if max_prec_for_len(size)? < precision {
return Err(Error::GetScaleWithFixedSize { size, precision });
}
}
Schema::Bytes => (),
_ => return Err(Error::ResolveDecimalSchema(inner.into())),
};
match self {
Value::Decimal(num) => {
let num_bytes = num.len();
if max_prec_for_len(num_bytes)? < precision {
Err(Error::ComparePrecisionAndSize {
precision,
num_bytes,
})
} else {
Ok(Value::Decimal(num))
}
}
Value::Fixed(_, bytes) | Value::Bytes(bytes) => {
if max_prec_for_len(bytes.len())? < precision {
Err(Error::ComparePrecisionAndSize {
precision,
num_bytes: bytes.len(),
})
} else {
Ok(Value::Decimal(Decimal::from(bytes)))
}
}
other => Err(Error::ResolveDecimal(other.into())),
}
}
fn resolve_date(self) -> Result<Self, Error> {
match self {
Value::Date(d) | Value::Int(d) => Ok(Value::Date(d)),
other => Err(Error::GetDate(other.into())),
}
}
fn resolve_time_millis(self) -> Result<Self, Error> {
match self {
Value::TimeMillis(t) | Value::Int(t) => Ok(Value::TimeMillis(t)),
other => Err(Error::GetTimeMillis(other.into())),
}
}
fn resolve_time_micros(self) -> Result<Self, Error> {
match self {
Value::TimeMicros(t) | Value::Long(t) => Ok(Value::TimeMicros(t)),
Value::Int(t) => Ok(Value::TimeMicros(i64::from(t))),
other => Err(Error::GetTimeMicros(other.into())),
}
}
fn resolve_timestamp_millis(self) -> Result<Self, Error> {
match self {
Value::TimestampMillis(ts) | Value::Long(ts) => Ok(Value::TimestampMillis(ts)),
Value::Int(ts) => Ok(Value::TimestampMillis(i64::from(ts))),
other => Err(Error::GetTimestampMillis(other.into())),
}
}
fn resolve_timestamp_micros(self) -> Result<Self, Error> {
match self {
Value::TimestampMicros(ts) | Value::Long(ts) => Ok(Value::TimestampMicros(ts)),
Value::Int(ts) => Ok(Value::TimestampMicros(i64::from(ts))),
other => Err(Error::GetTimestampMicros(other.into())),
}
}
fn resolve_null(self) -> Result<Self, Error> {
match self {
Value::Null => Ok(Value::Null),
other => Err(Error::GetNull(other.into())),
}
}
fn resolve_boolean(self) -> Result<Self, Error> {
match self {
Value::Boolean(b) => Ok(Value::Boolean(b)),
other => Err(Error::GetBoolean(other.into())),
}
}
fn resolve_int(self) -> Result<Self, Error> {
match self {
Value::Int(n) => Ok(Value::Int(n)),
Value::Long(n) => Ok(Value::Int(n as i32)),
other => Err(Error::GetInt(other.into())),
}
}
fn resolve_long(self) -> Result<Self, Error> {
match self {
Value::Int(n) => Ok(Value::Long(i64::from(n))),
Value::Long(n) => Ok(Value::Long(n)),
other => Err(Error::GetLong(other.into())),
}
}
fn resolve_float(self) -> Result<Self, Error> {
match self {
Value::Int(n) => Ok(Value::Float(n as f32)),
Value::Long(n) => Ok(Value::Float(n as f32)),
Value::Float(x) => Ok(Value::Float(x)),
Value::Double(x) => Ok(Value::Float(x as f32)),
other => Err(Error::GetFloat(other.into())),
}
}
fn resolve_double(self) -> Result<Self, Error> {
match self {
Value::Int(n) => Ok(Value::Double(f64::from(n))),
Value::Long(n) => Ok(Value::Double(n as f64)),
Value::Float(x) => Ok(Value::Double(f64::from(x))),
Value::Double(x) => Ok(Value::Double(x)),
other => Err(Error::GetDouble(other.into())),
}
}
fn resolve_bytes(self) -> Result<Self, Error> {
match self {
Value::Bytes(bytes) => Ok(Value::Bytes(bytes)),
Value::String(s) => Ok(Value::Bytes(s.into_bytes())),
Value::Array(items) => Ok(Value::Bytes(
items
.into_iter()
.map(Value::try_u8)
.collect::<Result<Vec<_>, _>>()?,
)),
other => Err(Error::GetBytes(other.into())),
}
}
fn resolve_string(self) -> Result<Self, Error> {
match self {
Value::String(s) => Ok(Value::String(s)),
Value::Bytes(bytes) | Value::Fixed(_, bytes) => Ok(Value::String(
String::from_utf8(bytes).map_err(Error::ConvertToUtf8)?,
)),
other => Err(Error::GetString(other.into())),
}
}
fn resolve_fixed(self, size: usize) -> Result<Self, Error> {
match self {
Value::Fixed(n, bytes) => {
if n == size {
Ok(Value::Fixed(n, bytes))
} else {
Err(Error::CompareFixedSizes { size, n })
}
}
Value::String(s) => Ok(Value::Fixed(s.len(), s.into_bytes())),
other => Err(Error::GetStringForFixed(other.into())),
}
}
fn resolve_enum(
self,
symbols: &[String],
enum_default: &Option<String>,
_field_default: &Option<JsonValue>,
) -> Result<Self, Error> {
let validate_symbol = |symbol: String, symbols: &[String]| {
if let Some(index) = symbols.iter().position(|item| item == &symbol) {
Ok(Value::Enum(index as u32, symbol))
} else {
match enum_default {
Some(default) => {
if let Some(index) = symbols.iter().position(|item| item == default) {
Ok(Value::Enum(index as u32, default.clone()))
} else {
Err(Error::GetEnumDefault {
symbol,
symbols: symbols.into(),
})
}
}
_ => Err(Error::GetEnumDefault {
symbol,
symbols: symbols.into(),
}),
}
}
};
match self {
Value::Enum(_raw_index, s) => validate_symbol(s, symbols),
Value::String(s) => validate_symbol(s, symbols),
other => Err(Error::GetEnum(other.into())),
}
}
fn resolve_union(
self,
schema: &UnionSchema,
names: &NamesRef,
enclosing_namespace: &Namespace,
field_default: &Option<JsonValue>,
) -> Result<Self, Error> {
let v = match self {
Value::Union(_i, v) => *v,
v => v,
};
let (i, inner) = schema
.find_schema_with_known_schemata(&v, Some(names))
.ok_or(Error::FindUnionVariant)?;
Ok(Value::Union(
i as u32,
Box::new(v.resolve_internal(inner, names, enclosing_namespace, field_default)?),
))
}
fn resolve_array(
self,
schema: &Schema,
names: &NamesRef,
enclosing_namespace: &Namespace,
) -> Result<Self, Error> {
match self {
Value::Array(items) => Ok(Value::Array(
items
.into_iter()
.map(|item| item.resolve_internal(schema, names, enclosing_namespace, &None))
.collect::<Result<_, _>>()?,
)),
other => Err(Error::GetArray {
expected: schema.into(),
other: other.into(),
}),
}
}
fn resolve_map(
self,
schema: &Schema,
names: &NamesRef,
enclosing_namespace: &Namespace,
) -> Result<Self, Error> {
match self {
Value::Map(items) => Ok(Value::Map(
items
.into_iter()
.map(|(key, value)| {
value
.resolve_internal(schema, names, enclosing_namespace, &None)
.map(|value| (key, value))
})
.collect::<Result<_, _>>()?,
)),
other => Err(Error::GetMap {
expected: schema.into(),
other: other.into(),
}),
}
}
fn resolve_record(
self,
fields: &[RecordField],
names: &NamesRef,
enclosing_namespace: &Namespace,
) -> Result<Self, Error> {
let mut items = match self {
Value::Map(items) => Ok(items),
Value::Record(fields) => Ok(fields.into_iter().collect::<HashMap<_, _>>()),
other => Err(Error::GetRecord {
expected: fields
.iter()
.map(|field| (field.name.clone(), field.schema.clone().into()))
.collect(),
other: other.into(),
}),
}?;
let new_fields = fields
.iter()
.map(|field| {
let value = match items.remove(&field.name) {
Some(value) => value,
None => match field.default {
Some(ref value) => match field.schema {
Schema::Enum(EnumSchema {
ref symbols,
ref default,
..
}) => Value::from(value.clone()).resolve_enum(
symbols,
default,
&field.default.clone(),
)?,
Schema::Union(ref union_schema) => {
let first = &union_schema.variants()[0];
match first {
Schema::Null => Value::Union(0, Box::new(Value::Null)),
_ => Value::Union(
0,
Box::new(Value::from(value.clone()).resolve_internal(
first,
names,
enclosing_namespace,
&field.default,
)?),
),
}
}
_ => Value::from(value.clone()),
},
None => {
return Err(Error::GetField(field.name.clone()));
}
},
};
value
.resolve_internal(&field.schema, names, enclosing_namespace, &field.default)
.map(|value| (field.name.clone(), value))
})
.collect::<Result<Vec<_>, _>>()?;
Ok(Value::Record(new_fields))
}
fn try_u8(self) -> AvroResult<u8> {
let int = self.resolve(&Schema::Int)?;
if let Value::Int(n) = int {
if n >= 0 && n <= i32::from(u8::MAX) {
return Ok(n as u8);
}
}
Err(Error::GetU8(int.into()))
}
}
#[cfg(test)]
mod tests {
use super::*;
use crate::{
decimal::Decimal,
duration::{Days, Duration, Millis, Months},
schema::{Name, RecordField, RecordFieldOrder, Schema, UnionSchema},
types::Value,
};
use apache_avro_test_helper::{
logger::{assert_logged, assert_not_logged},
TestResult,
};
use num_bigint::BigInt;
use pretty_assertions::assert_eq;
use uuid::Uuid;
#[test]
fn validate() -> TestResult {
let value_schema_valid = vec![
(Value::Int(42), Schema::Int, true, ""),
(Value::Int(43), Schema::Long, true, ""),
(Value::Float(43.2), Schema::Float, true, ""),
(Value::Float(45.9), Schema::Double, true, ""),
(
Value::Int(42),
Schema::Boolean,
false,
"Invalid value: Int(42) for schema: Boolean. Reason: Unsupported value-schema combination",
),
(
Value::Union(0, Box::new(Value::Null)),
Schema::Union(UnionSchema::new(vec![Schema::Null, Schema::Int])?),
true,
"",
),
(
Value::Union(1, Box::new(Value::Int(42))),
Schema::Union(UnionSchema::new(vec![Schema::Null, Schema::Int])?),
true,
"",
),
(
Value::Union(0, Box::new(Value::Null)),
Schema::Union(UnionSchema::new(vec![Schema::Double, Schema::Int])?),
false,
"Invalid value: Union(0, Null) for schema: Union(UnionSchema { schemas: [Double, Int], variant_index: {Int: 1, Double: 0} }). Reason: Unsupported value-schema combination",
),
(
Value::Union(3, Box::new(Value::Int(42))),
Schema::Union(
UnionSchema::new(vec![
Schema::Null,
Schema::Double,
Schema::String,
Schema::Int,
])
?,
),
true,
"",
),
(
Value::Union(1, Box::new(Value::Long(42i64))),
Schema::Union(
UnionSchema::new(vec![Schema::Null, Schema::TimestampMillis])?,
),
true,
"",
),
(
Value::Union(2, Box::new(Value::Long(1_i64))),
Schema::Union(UnionSchema::new(vec![Schema::Null, Schema::Int])?),
false,
"Invalid value: Union(2, Long(1)) for schema: Union(UnionSchema { schemas: [Null, Int], variant_index: {Null: 0, Int: 1} }). Reason: No schema in the union at position '2'",
),
(
Value::Array(vec![Value::Long(42i64)]),
Schema::Array(Box::new(Schema::Long)),
true,
"",
),
(
Value::Array(vec![Value::Boolean(true)]),
Schema::Array(Box::new(Schema::Long)),
false,
"Invalid value: Array([Boolean(true)]) for schema: Array(Long). Reason: Unsupported value-schema combination",
),
(Value::Record(vec![]), Schema::Null, false, "Invalid value: Record([]) for schema: Null. Reason: Unsupported value-schema combination"),
(
Value::Fixed(12, vec![0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11]),
Schema::Duration,
true,
"",
),
(
Value::Fixed(11, vec![0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 10]),
Schema::Duration,
false,
"Invalid value: Fixed(11, [0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 10]) for schema: Duration. Reason: The value's size ('11') must be exactly 12 to be a Duration",
),
(
Value::Record(vec![("unknown_field_name".to_string(), Value::Null)]),
Schema::Record(RecordSchema {
name: Name::new("record_name").unwrap(),
aliases: None,
doc: None,
fields: vec![RecordField {
name: "field_name".to_string(),
doc: None,
default: None,
aliases: None,
schema: Schema::Int,
order: RecordFieldOrder::Ignore,
position: 0,
custom_attributes: Default::default(),
}],
lookup: Default::default(),
attributes: Default::default(),
}),
false,
r#"Invalid value: Record([("unknown_field_name", Null)]) for schema: Record(RecordSchema { name: Name { name: "record_name", namespace: None }, aliases: None, doc: None, fields: [RecordField { name: "field_name", doc: None, aliases: None, default: None, schema: Int, order: Ignore, position: 0, custom_attributes: {} }], lookup: {}, attributes: {} }). Reason: There is no schema field for field 'unknown_field_name'"#,
),
(
Value::Record(vec![("field_name".to_string(), Value::Null)]),
Schema::Record(RecordSchema {
name: Name::new("record_name").unwrap(),
aliases: None,
doc: None,
fields: vec![RecordField {
name: "field_name".to_string(),
doc: None,
default: None,
aliases: None,
schema: Schema::Ref {
name: Name::new("missing").unwrap(),
},
order: RecordFieldOrder::Ignore,
position: 0,
custom_attributes: Default::default(),
}],
lookup: [("field_name".to_string(), 0)].iter().cloned().collect(),
attributes: Default::default(),
}),
false,
r#"Invalid value: Record([("field_name", Null)]) for schema: Record(RecordSchema { name: Name { name: "record_name", namespace: None }, aliases: None, doc: None, fields: [RecordField { name: "field_name", doc: None, aliases: None, default: None, schema: Ref { name: Name { name: "missing", namespace: None } }, order: Ignore, position: 0, custom_attributes: {} }], lookup: {"field_name": 0}, attributes: {} }). Reason: Unresolved schema reference: 'Name { name: "missing", namespace: None }'. Parsed names: []"#,
),
];
for (value, schema, valid, expected_err_message) in value_schema_valid.into_iter() {
let err_message =
value.validate_internal::<Schema>(&schema, &HashMap::default(), &None);
assert_eq!(valid, err_message.is_none());
if !valid {
let full_err_message = format!(
"Invalid value: {:?} for schema: {:?}. Reason: {}",
value,
schema,
err_message.unwrap()
);
assert_eq!(expected_err_message, full_err_message);
}
}
Ok(())
}
#[test]
fn validate_fixed() -> TestResult {
let schema = Schema::Fixed(FixedSchema {
size: 4,
name: Name::new("some_fixed").unwrap(),
aliases: None,
doc: None,
attributes: Default::default(),
});
assert!(Value::Fixed(4, vec![0, 0, 0, 0]).validate(&schema));
let value = Value::Fixed(5, vec![0, 0, 0, 0, 0]);
assert!(!value.validate(&schema));
assert_logged(
format!(
"Invalid value: {:?} for schema: {:?}. Reason: {}",
value, schema, "The value's size (5) is different than the schema's size (4)"
)
.as_str(),
);
assert!(Value::Bytes(vec![0, 0, 0, 0]).validate(&schema));
let value = Value::Bytes(vec![0, 0, 0, 0, 0]);
assert!(!value.validate(&schema));
assert_logged(
format!(
"Invalid value: {:?} for schema: {:?}. Reason: {}",
value, schema, "The bytes' length (5) is different than the schema's size (4)"
)
.as_str(),
);
Ok(())
}
#[test]
fn validate_enum() -> TestResult {
let schema = Schema::Enum(EnumSchema {
name: Name::new("some_enum").unwrap(),
aliases: None,
doc: None,
symbols: vec![
"spades".to_string(),
"hearts".to_string(),
"diamonds".to_string(),
"clubs".to_string(),
],
default: None,
attributes: Default::default(),
});
assert!(Value::Enum(0, "spades".to_string()).validate(&schema));
assert!(Value::String("spades".to_string()).validate(&schema));
let value = Value::Enum(1, "spades".to_string());
assert!(!value.validate(&schema));
assert_logged(
format!(
"Invalid value: {:?} for schema: {:?}. Reason: {}",
value, schema, "Symbol 'spades' is not at position '1'"
)
.as_str(),
);
let value = Value::Enum(1000, "spades".to_string());
assert!(!value.validate(&schema));
assert_logged(
format!(
"Invalid value: {:?} for schema: {:?}. Reason: {}",
value, schema, "No symbol at position '1000'"
)
.as_str(),
);
let value = Value::String("lorem".to_string());
assert!(!value.validate(&schema));
assert_logged(
format!(
"Invalid value: {:?} for schema: {:?}. Reason: {}",
value, schema, "'lorem' is not a member of the possible symbols"
)
.as_str(),
);
let other_schema = Schema::Enum(EnumSchema {
name: Name::new("some_other_enum").unwrap(),
aliases: None,
doc: None,
symbols: vec![
"hearts".to_string(),
"diamonds".to_string(),
"clubs".to_string(),
"spades".to_string(),
],
default: None,
attributes: Default::default(),
});
let value = Value::Enum(0, "spades".to_string());
assert!(!value.validate(&other_schema));
assert_logged(
format!(
"Invalid value: {:?} for schema: {:?}. Reason: {}",
value, other_schema, "Symbol 'spades' is not at position '0'"
)
.as_str(),
);
Ok(())
}
#[test]
fn validate_record() -> TestResult {
let schema = Schema::Record(RecordSchema {
name: Name::new("some_record").unwrap(),
aliases: None,
doc: None,
fields: vec![
RecordField {
name: "a".to_string(),
doc: None,
default: None,
aliases: None,
schema: Schema::Long,
order: RecordFieldOrder::Ascending,
position: 0,
custom_attributes: Default::default(),
},
RecordField {
name: "b".to_string(),
doc: None,
default: None,
aliases: None,
schema: Schema::String,
order: RecordFieldOrder::Ascending,
position: 1,
custom_attributes: Default::default(),
},
RecordField {
name: "c".to_string(),
doc: None,
default: Some(JsonValue::Null),
aliases: None,
schema: Schema::Union(UnionSchema::new(vec![Schema::Null, Schema::Int])?),
order: RecordFieldOrder::Ascending,
position: 2,
custom_attributes: Default::default(),
},
],
lookup: [
("a".to_string(), 0),
("b".to_string(), 1),
("c".to_string(), 2),
]
.iter()
.cloned()
.collect(),
attributes: Default::default(),
});
assert!(Value::Record(vec![
("a".to_string(), Value::Long(42i64)),
("b".to_string(), Value::String("foo".to_string())),
])
.validate(&schema));
let value = Value::Record(vec![
("b".to_string(), Value::String("foo".to_string())),
("a".to_string(), Value::Long(42i64)),
]);
assert!(value.validate(&schema));
let value = Value::Record(vec![
("a".to_string(), Value::Boolean(false)),
("b".to_string(), Value::String("foo".to_string())),
]);
assert!(!value.validate(&schema));
assert_logged(
r#"Invalid value: Record([("a", Boolean(false)), ("b", String("foo"))]) for schema: Record(RecordSchema { name: Name { name: "some_record", namespace: None }, aliases: None, doc: None, fields: [RecordField { name: "a", doc: None, aliases: None, default: None, schema: Long, order: Ascending, position: 0, custom_attributes: {} }, RecordField { name: "b", doc: None, aliases: None, default: None, schema: String, order: Ascending, position: 1, custom_attributes: {} }, RecordField { name: "c", doc: None, aliases: None, default: Some(Null), schema: Union(UnionSchema { schemas: [Null, Int], variant_index: {Null: 0, Int: 1} }), order: Ascending, position: 2, custom_attributes: {} }], lookup: {"a": 0, "b": 1, "c": 2}, attributes: {} }). Reason: Unsupported value-schema combination"#,
);
let value = Value::Record(vec![
("a".to_string(), Value::Long(42i64)),
("c".to_string(), Value::String("foo".to_string())),
]);
assert!(!value.validate(&schema));
assert_logged(
r#"Invalid value: Record([("a", Long(42)), ("c", String("foo"))]) for schema: Record(RecordSchema { name: Name { name: "some_record", namespace: None }, aliases: None, doc: None, fields: [RecordField { name: "a", doc: None, aliases: None, default: None, schema: Long, order: Ascending, position: 0, custom_attributes: {} }, RecordField { name: "b", doc: None, aliases: None, default: None, schema: String, order: Ascending, position: 1, custom_attributes: {} }, RecordField { name: "c", doc: None, aliases: None, default: Some(Null), schema: Union(UnionSchema { schemas: [Null, Int], variant_index: {Null: 0, Int: 1} }), order: Ascending, position: 2, custom_attributes: {} }], lookup: {"a": 0, "b": 1, "c": 2}, attributes: {} }). Reason: Could not find matching type in union"#,
);
assert_not_logged(
r#"Invalid value: String("foo") for schema: Int. Reason: Unsupported value-schema combination"#,
);
let value = Value::Record(vec![
("a".to_string(), Value::Long(42i64)),
("d".to_string(), Value::String("foo".to_string())),
]);
assert!(!value.validate(&schema));
assert_logged(
r#"Invalid value: Record([("a", Long(42)), ("d", String("foo"))]) for schema: Record(RecordSchema { name: Name { name: "some_record", namespace: None }, aliases: None, doc: None, fields: [RecordField { name: "a", doc: None, aliases: None, default: None, schema: Long, order: Ascending, position: 0, custom_attributes: {} }, RecordField { name: "b", doc: None, aliases: None, default: None, schema: String, order: Ascending, position: 1, custom_attributes: {} }, RecordField { name: "c", doc: None, aliases: None, default: Some(Null), schema: Union(UnionSchema { schemas: [Null, Int], variant_index: {Null: 0, Int: 1} }), order: Ascending, position: 2, custom_attributes: {} }], lookup: {"a": 0, "b": 1, "c": 2}, attributes: {} }). Reason: There is no schema field for field 'd'"#,
);
let value = Value::Record(vec![
("a".to_string(), Value::Long(42i64)),
("b".to_string(), Value::String("foo".to_string())),
("c".to_string(), Value::Null),
("d".to_string(), Value::Null),
]);
assert!(!value.validate(&schema));
assert_logged(
r#"Invalid value: Record([("a", Long(42)), ("b", String("foo")), ("c", Null), ("d", Null)]) for schema: Record(RecordSchema { name: Name { name: "some_record", namespace: None }, aliases: None, doc: None, fields: [RecordField { name: "a", doc: None, aliases: None, default: None, schema: Long, order: Ascending, position: 0, custom_attributes: {} }, RecordField { name: "b", doc: None, aliases: None, default: None, schema: String, order: Ascending, position: 1, custom_attributes: {} }, RecordField { name: "c", doc: None, aliases: None, default: Some(Null), schema: Union(UnionSchema { schemas: [Null, Int], variant_index: {Null: 0, Int: 1} }), order: Ascending, position: 2, custom_attributes: {} }], lookup: {"a": 0, "b": 1, "c": 2}, attributes: {} }). Reason: The value's records length (4) is greater than the schema's (3 fields)"#,
);
assert!(Value::Map(
vec![
("a".to_string(), Value::Long(42i64)),
("b".to_string(), Value::String("foo".to_string())),
]
.into_iter()
.collect()
)
.validate(&schema));
assert!(!Value::Map(
vec![("d".to_string(), Value::Long(123_i64)),]
.into_iter()
.collect()
)
.validate(&schema));
assert_logged(
r#"Invalid value: Map({"d": Long(123)}) for schema: Record(RecordSchema { name: Name { name: "some_record", namespace: None }, aliases: None, doc: None, fields: [RecordField { name: "a", doc: None, aliases: None, default: None, schema: Long, order: Ascending, position: 0, custom_attributes: {} }, RecordField { name: "b", doc: None, aliases: None, default: None, schema: String, order: Ascending, position: 1, custom_attributes: {} }, RecordField { name: "c", doc: None, aliases: None, default: Some(Null), schema: Union(UnionSchema { schemas: [Null, Int], variant_index: {Null: 0, Int: 1} }), order: Ascending, position: 2, custom_attributes: {} }], lookup: {"a": 0, "b": 1, "c": 2}, attributes: {} }). Reason: Field with name '"a"' is not a member of the map items
Field with name '"b"' is not a member of the map items"#,
);
let union_schema = Schema::Union(UnionSchema::new(vec![Schema::Null, schema])?);
assert!(Value::Union(
1,
Box::new(Value::Record(vec![
("a".to_string(), Value::Long(42i64)),
("b".to_string(), Value::String("foo".to_string())),
]))
)
.validate(&union_schema));
assert!(Value::Union(
1,
Box::new(Value::Map(
vec![
("a".to_string(), Value::Long(42i64)),
("b".to_string(), Value::String("foo".to_string())),
]
.into_iter()
.collect()
))
)
.validate(&union_schema));
Ok(())
}
#[test]
fn resolve_bytes_ok() -> TestResult {
let value = Value::Array(vec![Value::Int(0), Value::Int(42)]);
assert_eq!(
value.resolve(&Schema::Bytes)?,
Value::Bytes(vec![0u8, 42u8])
);
Ok(())
}
#[test]
fn resolve_string_from_bytes() -> TestResult {
let value = Value::Bytes(vec![97, 98, 99]);
assert_eq!(
value.resolve(&Schema::String)?,
Value::String("abc".to_string())
);
Ok(())
}
#[test]
fn resolve_string_from_fixed() -> TestResult {
let value = Value::Fixed(3, vec![97, 98, 99]);
assert_eq!(
value.resolve(&Schema::String)?,
Value::String("abc".to_string())
);
Ok(())
}
#[test]
fn resolve_bytes_failure() {
let value = Value::Array(vec![Value::Int(2000), Value::Int(-42)]);
assert!(value.resolve(&Schema::Bytes).is_err());
}
#[test]
fn resolve_decimal_bytes() -> TestResult {
let value = Value::Decimal(Decimal::from(vec![1, 2, 3, 4, 5]));
value.clone().resolve(&Schema::Decimal(DecimalSchema {
precision: 10,
scale: 4,
inner: Box::new(Schema::Bytes),
}))?;
assert!(value.resolve(&Schema::String).is_err());
Ok(())
}
#[test]
fn resolve_decimal_invalid_scale() {
let value = Value::Decimal(Decimal::from(vec![1, 2]));
assert!(value
.resolve(&Schema::Decimal(DecimalSchema {
precision: 2,
scale: 3,
inner: Box::new(Schema::Bytes),
}))
.is_err());
}
#[test]
fn resolve_decimal_invalid_precision_for_length() {
let value = Value::Decimal(Decimal::from((1u8..=8u8).rev().collect::<Vec<_>>()));
assert!(value
.resolve(&Schema::Decimal(DecimalSchema {
precision: 1,
scale: 0,
inner: Box::new(Schema::Bytes),
}))
.is_ok());
}
#[test]
fn resolve_decimal_fixed() {
let value = Value::Decimal(Decimal::from(vec![1, 2, 3, 4, 5]));
assert!(value
.clone()
.resolve(&Schema::Decimal(DecimalSchema {
precision: 10,
scale: 1,
inner: Box::new(Schema::Fixed(FixedSchema {
name: Name::new("decimal").unwrap(),
aliases: None,
size: 20,
doc: None,
attributes: Default::default(),
}))
}))
.is_ok());
assert!(value.resolve(&Schema::String).is_err());
}
#[test]
fn resolve_date() {
let value = Value::Date(2345);
assert!(value.clone().resolve(&Schema::Date).is_ok());
assert!(value.resolve(&Schema::String).is_err());
}
#[test]
fn resolve_time_millis() {
let value = Value::TimeMillis(10);
assert!(value.clone().resolve(&Schema::TimeMillis).is_ok());
assert!(value.resolve(&Schema::TimeMicros).is_err());
}
#[test]
fn resolve_time_micros() {
let value = Value::TimeMicros(10);
assert!(value.clone().resolve(&Schema::TimeMicros).is_ok());
assert!(value.resolve(&Schema::TimeMillis).is_err());
}
#[test]
fn resolve_timestamp_millis() {
let value = Value::TimestampMillis(10);
assert!(value.clone().resolve(&Schema::TimestampMillis).is_ok());
assert!(value.resolve(&Schema::Float).is_err());
let value = Value::Float(10.0f32);
assert!(value.resolve(&Schema::TimestampMillis).is_err());
}
#[test]
fn resolve_timestamp_micros() {
let value = Value::TimestampMicros(10);
assert!(value.clone().resolve(&Schema::TimestampMicros).is_ok());
assert!(value.resolve(&Schema::Int).is_err());
let value = Value::Double(10.0);
assert!(value.resolve(&Schema::TimestampMicros).is_err());
}
#[test]
fn resolve_duration() {
let value = Value::Duration(Duration::new(
Months::new(10),
Days::new(5),
Millis::new(3000),
));
assert!(value.clone().resolve(&Schema::Duration).is_ok());
assert!(value.resolve(&Schema::TimestampMicros).is_err());
assert!(Value::Long(1i64).resolve(&Schema::Duration).is_err());
}
#[test]
fn resolve_uuid() -> TestResult {
let value = Value::Uuid(Uuid::parse_str("1481531d-ccc9-46d9-a56f-5b67459c0537")?);
assert!(value.clone().resolve(&Schema::Uuid).is_ok());
assert!(value.resolve(&Schema::TimestampMicros).is_err());
Ok(())
}
#[test]
fn avro_3678_resolve_float_to_double() {
let value = Value::Float(2345.1);
assert!(value.resolve(&Schema::Double).is_ok());
}
#[test]
fn test_avro_3621_resolve_to_nullable_union() -> TestResult {
let schema = Schema::parse_str(
r#"{
"type": "record",
"name": "root",
"fields": [
{
"name": "event",
"type": [
"null",
{
"type": "record",
"name": "event",
"fields": [
{
"name": "amount",
"type": "int"
},
{
"name": "size",
"type": [
"null",
"int"
],
"default": null
}
]
}
],
"default": null
}
]
}"#,
)?;
let value = Value::Record(vec![(
"event".to_string(),
Value::Record(vec![("amount".to_string(), Value::Int(200))]),
)]);
assert!(value.resolve(&schema).is_ok());
let value = Value::Record(vec![(
"event".to_string(),
Value::Record(vec![("size".to_string(), Value::Int(1))]),
)]);
assert!(value.resolve(&schema).is_err());
Ok(())
}
#[test]
fn json_from_avro() -> TestResult {
assert_eq!(JsonValue::try_from(Value::Null)?, JsonValue::Null);
assert_eq!(
JsonValue::try_from(Value::Boolean(true))?,
JsonValue::Bool(true)
);
assert_eq!(
JsonValue::try_from(Value::Int(1))?,
JsonValue::Number(1.into())
);
assert_eq!(
JsonValue::try_from(Value::Long(1))?,
JsonValue::Number(1.into())
);
assert_eq!(
JsonValue::try_from(Value::Float(1.0))?,
JsonValue::Number(Number::from_f64(1.0).unwrap())
);
assert_eq!(
JsonValue::try_from(Value::Double(1.0))?,
JsonValue::Number(Number::from_f64(1.0).unwrap())
);
assert_eq!(
JsonValue::try_from(Value::Bytes(vec![1, 2, 3]))?,
JsonValue::Array(vec![
JsonValue::Number(1.into()),
JsonValue::Number(2.into()),
JsonValue::Number(3.into())
])
);
assert_eq!(
JsonValue::try_from(Value::String("test".into()))?,
JsonValue::String("test".into())
);
assert_eq!(
JsonValue::try_from(Value::Fixed(3, vec![1, 2, 3]))?,
JsonValue::Array(vec![
JsonValue::Number(1.into()),
JsonValue::Number(2.into()),
JsonValue::Number(3.into())
])
);
assert_eq!(
JsonValue::try_from(Value::Enum(1, "test_enum".into()))?,
JsonValue::String("test_enum".into())
);
assert_eq!(
JsonValue::try_from(Value::Union(1, Box::new(Value::String("test_enum".into()))))?,
JsonValue::String("test_enum".into())
);
assert_eq!(
JsonValue::try_from(Value::Array(vec![
Value::Int(1),
Value::Int(2),
Value::Int(3)
]))?,
JsonValue::Array(vec![
JsonValue::Number(1.into()),
JsonValue::Number(2.into()),
JsonValue::Number(3.into())
])
);
assert_eq!(
JsonValue::try_from(Value::Map(
vec![
("v1".to_string(), Value::Int(1)),
("v2".to_string(), Value::Int(2)),
("v3".to_string(), Value::Int(3))
]
.into_iter()
.collect()
))?,
JsonValue::Object(
vec![
("v1".to_string(), JsonValue::Number(1.into())),
("v2".to_string(), JsonValue::Number(2.into())),
("v3".to_string(), JsonValue::Number(3.into()))
]
.into_iter()
.collect()
)
);
assert_eq!(
JsonValue::try_from(Value::Record(vec![
("v1".to_string(), Value::Int(1)),
("v2".to_string(), Value::Int(2)),
("v3".to_string(), Value::Int(3))
]))?,
JsonValue::Object(
vec![
("v1".to_string(), JsonValue::Number(1.into())),
("v2".to_string(), JsonValue::Number(2.into())),
("v3".to_string(), JsonValue::Number(3.into()))
]
.into_iter()
.collect()
)
);
assert_eq!(
JsonValue::try_from(Value::Date(1))?,
JsonValue::Number(1.into())
);
assert_eq!(
JsonValue::try_from(Value::Decimal(vec![1, 2, 3].into()))?,
JsonValue::Array(vec![
JsonValue::Number(1.into()),
JsonValue::Number(2.into()),
JsonValue::Number(3.into())
])
);
assert_eq!(
JsonValue::try_from(Value::TimeMillis(1))?,
JsonValue::Number(1.into())
);
assert_eq!(
JsonValue::try_from(Value::TimeMicros(1))?,
JsonValue::Number(1.into())
);
assert_eq!(
JsonValue::try_from(Value::TimestampMillis(1))?,
JsonValue::Number(1.into())
);
assert_eq!(
JsonValue::try_from(Value::TimestampMicros(1))?,
JsonValue::Number(1.into())
);
assert_eq!(
JsonValue::try_from(Value::Duration(
[1u8, 2u8, 3u8, 4u8, 5u8, 6u8, 7u8, 8u8, 9u8, 10u8, 11u8, 12u8].into()
))?,
JsonValue::Array(vec![
JsonValue::Number(1.into()),
JsonValue::Number(2.into()),
JsonValue::Number(3.into()),
JsonValue::Number(4.into()),
JsonValue::Number(5.into()),
JsonValue::Number(6.into()),
JsonValue::Number(7.into()),
JsonValue::Number(8.into()),
JsonValue::Number(9.into()),
JsonValue::Number(10.into()),
JsonValue::Number(11.into()),
JsonValue::Number(12.into()),
])
);
assert_eq!(
JsonValue::try_from(Value::Uuid(Uuid::parse_str(
"936DA01F-9ABD-4D9D-80C7-02AF85C822A8"
)?))?,
JsonValue::String("936da01f-9abd-4d9d-80c7-02af85c822a8".into())
);
Ok(())
}
#[test]
fn test_avro_3433_recursive_resolves_record() -> TestResult {
let schema = Schema::parse_str(
r#"
{
"type":"record",
"name":"TestStruct",
"fields": [
{
"name":"a",
"type":{
"type":"record",
"name": "Inner",
"fields": [ {
"name":"z",
"type":"int"
}]
}
},
{
"name":"b",
"type":"Inner"
}
]
}"#,
)?;
let inner_value1 = Value::Record(vec![("z".into(), Value::Int(3))]);
let inner_value2 = Value::Record(vec![("z".into(), Value::Int(6))]);
let outer = Value::Record(vec![("a".into(), inner_value1), ("b".into(), inner_value2)]);
outer
.resolve(&schema)
.expect("Record definition defined in one field must be available in other field");
Ok(())
}
#[test]
fn test_avro_3433_recursive_resolves_array() -> TestResult {
let schema = Schema::parse_str(
r#"
{
"type":"record",
"name":"TestStruct",
"fields": [
{
"name":"a",
"type":{
"type":"array",
"items": {
"type":"record",
"name": "Inner",
"fields": [ {
"name":"z",
"type":"int"
}]
}
}
},
{
"name":"b",
"type": {
"type":"map",
"values":"Inner"
}
}
]
}"#,
)?;
let inner_value1 = Value::Record(vec![("z".into(), Value::Int(3))]);
let inner_value2 = Value::Record(vec![("z".into(), Value::Int(6))]);
let outer_value = Value::Record(vec![
("a".into(), Value::Array(vec![inner_value1])),
(
"b".into(),
Value::Map(vec![("akey".into(), inner_value2)].into_iter().collect()),
),
]);
outer_value
.resolve(&schema)
.expect("Record defined in array definition must be resolvable from map");
Ok(())
}
#[test]
fn test_avro_3433_recursive_resolves_map() -> TestResult {
let schema = Schema::parse_str(
r#"
{
"type":"record",
"name":"TestStruct",
"fields": [
{
"name":"a",
"type":{
"type":"record",
"name": "Inner",
"fields": [ {
"name":"z",
"type":"int"
}]
}
},
{
"name":"b",
"type": {
"type":"map",
"values":"Inner"
}
}
]
}"#,
)?;
let inner_value1 = Value::Record(vec![("z".into(), Value::Int(3))]);
let inner_value2 = Value::Record(vec![("z".into(), Value::Int(6))]);
let outer_value = Value::Record(vec![
("a".into(), inner_value1),
(
"b".into(),
Value::Map(vec![("akey".into(), inner_value2)].into_iter().collect()),
),
]);
outer_value
.resolve(&schema)
.expect("Record defined in record field must be resolvable from map field");
Ok(())
}
#[test]
fn test_avro_3433_recursive_resolves_record_wrapper() -> TestResult {
let schema = Schema::parse_str(
r#"
{
"type":"record",
"name":"TestStruct",
"fields": [
{
"name":"a",
"type":{
"type":"record",
"name": "Inner",
"fields": [ {
"name":"z",
"type":"int"
}]
}
},
{
"name":"b",
"type": {
"type":"record",
"name": "InnerWrapper",
"fields": [ {
"name":"j",
"type":"Inner"
}]
}
}
]
}"#,
)?;
let inner_value1 = Value::Record(vec![("z".into(), Value::Int(3))]);
let inner_value2 = Value::Record(vec![(
"j".into(),
Value::Record(vec![("z".into(), Value::Int(6))]),
)]);
let outer_value =
Value::Record(vec![("a".into(), inner_value1), ("b".into(), inner_value2)]);
outer_value.resolve(&schema).expect("Record schema defined in field must be resolvable in Record schema defined in other field");
Ok(())
}
#[test]
fn test_avro_3433_recursive_resolves_map_and_array() -> TestResult {
let schema = Schema::parse_str(
r#"
{
"type":"record",
"name":"TestStruct",
"fields": [
{
"name":"a",
"type":{
"type":"map",
"values": {
"type":"record",
"name": "Inner",
"fields": [ {
"name":"z",
"type":"int"
}]
}
}
},
{
"name":"b",
"type": {
"type":"array",
"items":"Inner"
}
}
]
}"#,
)?;
let inner_value1 = Value::Record(vec![("z".into(), Value::Int(3))]);
let inner_value2 = Value::Record(vec![("z".into(), Value::Int(6))]);
let outer_value = Value::Record(vec![
(
"a".into(),
Value::Map(vec![("akey".into(), inner_value2)].into_iter().collect()),
),
("b".into(), Value::Array(vec![inner_value1])),
]);
outer_value
.resolve(&schema)
.expect("Record defined in map definition must be resolvable from array");
Ok(())
}
#[test]
fn test_avro_3433_recursive_resolves_union() -> TestResult {
let schema = Schema::parse_str(
r#"
{
"type":"record",
"name":"TestStruct",
"fields": [
{
"name":"a",
"type":["null", {
"type":"record",
"name": "Inner",
"fields": [ {
"name":"z",
"type":"int"
}]
}]
},
{
"name":"b",
"type":"Inner"
}
]
}"#,
)?;
let inner_value1 = Value::Record(vec![("z".into(), Value::Int(3))]);
let inner_value2 = Value::Record(vec![("z".into(), Value::Int(6))]);
let outer1 = Value::Record(vec![
("a".into(), inner_value1),
("b".into(), inner_value2.clone()),
]);
outer1
.resolve(&schema)
.expect("Record definition defined in union must be resolved in other field");
let outer2 = Value::Record(vec![("a".into(), Value::Null), ("b".into(), inner_value2)]);
outer2
.resolve(&schema)
.expect("Record definition defined in union must be resolved in other field");
Ok(())
}
#[test]
fn test_avro_3461_test_multi_level_resolve_outer_namespace() -> TestResult {
let schema = r#"
{
"name": "record_name",
"namespace": "space",
"type": "record",
"fields": [
{
"name": "outer_field_1",
"type": [
"null",
{
"type": "record",
"name": "middle_record_name",
"fields":[
{
"name":"middle_field_1",
"type":[
"null",
{
"type":"record",
"name":"inner_record_name",
"fields":[
{
"name":"inner_field_1",
"type":"double"
}
]
}
]
}
]
}
]
},
{
"name": "outer_field_2",
"type" : "space.inner_record_name"
}
]
}
"#;
let schema = Schema::parse_str(schema)?;
let inner_record = Value::Record(vec![("inner_field_1".into(), Value::Double(5.4))]);
let middle_record_variation_1 = Value::Record(vec![(
"middle_field_1".into(),
Value::Union(0, Box::new(Value::Null)),
)]);
let middle_record_variation_2 = Value::Record(vec![(
"middle_field_1".into(),
Value::Union(1, Box::new(inner_record.clone())),
)]);
let outer_record_variation_1 = Value::Record(vec![
(
"outer_field_1".into(),
Value::Union(0, Box::new(Value::Null)),
),
("outer_field_2".into(), inner_record.clone()),
]);
let outer_record_variation_2 = Value::Record(vec![
(
"outer_field_1".into(),
Value::Union(1, Box::new(middle_record_variation_1)),
),
("outer_field_2".into(), inner_record.clone()),
]);
let outer_record_variation_3 = Value::Record(vec![
(
"outer_field_1".into(),
Value::Union(1, Box::new(middle_record_variation_2)),
),
("outer_field_2".into(), inner_record),
]);
outer_record_variation_1
.resolve(&schema)
.expect("Should be able to resolve value to the schema that is it's definition");
outer_record_variation_2
.resolve(&schema)
.expect("Should be able to resolve value to the schema that is it's definition");
outer_record_variation_3
.resolve(&schema)
.expect("Should be able to resolve value to the schema that is it's definition");
Ok(())
}
#[test]
fn test_avro_3461_test_multi_level_resolve_middle_namespace() -> TestResult {
let schema = r#"
{
"name": "record_name",
"namespace": "space",
"type": "record",
"fields": [
{
"name": "outer_field_1",
"type": [
"null",
{
"type": "record",
"name": "middle_record_name",
"namespace":"middle_namespace",
"fields":[
{
"name":"middle_field_1",
"type":[
"null",
{
"type":"record",
"name":"inner_record_name",
"fields":[
{
"name":"inner_field_1",
"type":"double"
}
]
}
]
}
]
}
]
},
{
"name": "outer_field_2",
"type" : "middle_namespace.inner_record_name"
}
]
}
"#;
let schema = Schema::parse_str(schema)?;
let inner_record = Value::Record(vec![("inner_field_1".into(), Value::Double(5.4))]);
let middle_record_variation_1 = Value::Record(vec![(
"middle_field_1".into(),
Value::Union(0, Box::new(Value::Null)),
)]);
let middle_record_variation_2 = Value::Record(vec![(
"middle_field_1".into(),
Value::Union(1, Box::new(inner_record.clone())),
)]);
let outer_record_variation_1 = Value::Record(vec![
(
"outer_field_1".into(),
Value::Union(0, Box::new(Value::Null)),
),
("outer_field_2".into(), inner_record.clone()),
]);
let outer_record_variation_2 = Value::Record(vec![
(
"outer_field_1".into(),
Value::Union(1, Box::new(middle_record_variation_1)),
),
("outer_field_2".into(), inner_record.clone()),
]);
let outer_record_variation_3 = Value::Record(vec![
(
"outer_field_1".into(),
Value::Union(1, Box::new(middle_record_variation_2)),
),
("outer_field_2".into(), inner_record),
]);
outer_record_variation_1
.resolve(&schema)
.expect("Should be able to resolve value to the schema that is it's definition");
outer_record_variation_2
.resolve(&schema)
.expect("Should be able to resolve value to the schema that is it's definition");
outer_record_variation_3
.resolve(&schema)
.expect("Should be able to resolve value to the schema that is it's definition");
Ok(())
}
#[test]
fn test_avro_3461_test_multi_level_resolve_inner_namespace() -> TestResult {
let schema = r#"
{
"name": "record_name",
"namespace": "space",
"type": "record",
"fields": [
{
"name": "outer_field_1",
"type": [
"null",
{
"type": "record",
"name": "middle_record_name",
"namespace":"middle_namespace",
"fields":[
{
"name":"middle_field_1",
"type":[
"null",
{
"type":"record",
"name":"inner_record_name",
"namespace":"inner_namespace",
"fields":[
{
"name":"inner_field_1",
"type":"double"
}
]
}
]
}
]
}
]
},
{
"name": "outer_field_2",
"type" : "inner_namespace.inner_record_name"
}
]
}
"#;
let schema = Schema::parse_str(schema)?;
let inner_record = Value::Record(vec![("inner_field_1".into(), Value::Double(5.4))]);
let middle_record_variation_1 = Value::Record(vec![(
"middle_field_1".into(),
Value::Union(0, Box::new(Value::Null)),
)]);
let middle_record_variation_2 = Value::Record(vec![(
"middle_field_1".into(),
Value::Union(1, Box::new(inner_record.clone())),
)]);
let outer_record_variation_1 = Value::Record(vec![
(
"outer_field_1".into(),
Value::Union(0, Box::new(Value::Null)),
),
("outer_field_2".into(), inner_record.clone()),
]);
let outer_record_variation_2 = Value::Record(vec![
(
"outer_field_1".into(),
Value::Union(1, Box::new(middle_record_variation_1)),
),
("outer_field_2".into(), inner_record.clone()),
]);
let outer_record_variation_3 = Value::Record(vec![
(
"outer_field_1".into(),
Value::Union(1, Box::new(middle_record_variation_2)),
),
("outer_field_2".into(), inner_record),
]);
outer_record_variation_1
.resolve(&schema)
.expect("Should be able to resolve value to the schema that is it's definition");
outer_record_variation_2
.resolve(&schema)
.expect("Should be able to resolve value to the schema that is it's definition");
outer_record_variation_3
.resolve(&schema)
.expect("Should be able to resolve value to the schema that is it's definition");
Ok(())
}
#[test]
fn test_avro_3460_validation_with_refs() -> TestResult {
let schema = Schema::parse_str(
r#"
{
"type":"record",
"name":"TestStruct",
"fields": [
{
"name":"a",
"type":{
"type":"record",
"name": "Inner",
"fields": [ {
"name":"z",
"type":"int"
}]
}
},
{
"name":"b",
"type":"Inner"
}
]
}"#,
)?;
let inner_value_right = Value::Record(vec![("z".into(), Value::Int(3))]);
let inner_value_wrong1 = Value::Record(vec![("z".into(), Value::Null)]);
let inner_value_wrong2 = Value::Record(vec![("a".into(), Value::String("testing".into()))]);
let outer1 = Value::Record(vec![
("a".into(), inner_value_right.clone()),
("b".into(), inner_value_wrong1),
]);
let outer2 = Value::Record(vec![
("a".into(), inner_value_right),
("b".into(), inner_value_wrong2),
]);
assert!(
!outer1.validate(&schema),
"field b record is invalid against the schema"
); assert!(
!outer2.validate(&schema),
"field b record is invalid against the schema"
); Ok(())
}
#[test]
fn test_avro_3460_validation_with_refs_real_struct() -> TestResult {
use crate::ser::Serializer;
use serde::Serialize;
#[derive(Serialize, Clone)]
struct TestInner {
z: i32,
}
#[derive(Serialize)]
struct TestRefSchemaStruct1 {
a: TestInner,
b: String, }
#[derive(Serialize)]
struct TestRefSchemaStruct2 {
a: TestInner,
b: i32, }
#[derive(Serialize)]
struct TestRefSchemaStruct3 {
a: TestInner,
b: Option<TestInner>, }
let schema = Schema::parse_str(
r#"
{
"type":"record",
"name":"TestStruct",
"fields": [
{
"name":"a",
"type":{
"type":"record",
"name": "Inner",
"fields": [ {
"name":"z",
"type":"int"
}]
}
},
{
"name":"b",
"type":"Inner"
}
]
}"#,
)?;
let test_inner = TestInner { z: 3 };
let test_outer1 = TestRefSchemaStruct1 {
a: test_inner.clone(),
b: "testing".into(),
};
let test_outer2 = TestRefSchemaStruct2 {
a: test_inner.clone(),
b: 24,
};
let test_outer3 = TestRefSchemaStruct3 {
a: test_inner,
b: None,
};
let mut ser = Serializer::default();
let test_outer1: Value = test_outer1.serialize(&mut ser)?;
let mut ser = Serializer::default();
let test_outer2: Value = test_outer2.serialize(&mut ser)?;
let mut ser = Serializer::default();
let test_outer3: Value = test_outer3.serialize(&mut ser)?;
assert!(
!test_outer1.validate(&schema),
"field b record is invalid against the schema"
);
assert!(
!test_outer2.validate(&schema),
"field b record is invalid against the schema"
);
assert!(
!test_outer3.validate(&schema),
"field b record is invalid against the schema"
);
Ok(())
}
fn avro_3674_with_or_without_namespace(with_namespace: bool) -> TestResult {
use crate::ser::Serializer;
use serde::Serialize;
let schema_str = r#"{
"type": "record",
"name": "NamespacedMessage",
[NAMESPACE]
"fields": [
{
"type": "record",
"name": "field_a",
"fields": [
{
"name": "enum_a",
"type": {
"type": "enum",
"name": "EnumType",
"symbols": [
"SYMBOL_1",
"SYMBOL_2"
],
"default": "SYMBOL_1"
}
},
{
"name": "enum_b",
"type": "EnumType"
}
]
}
]
}"#;
let schema_str = schema_str.replace(
"[NAMESPACE]",
if with_namespace {
r#""namespace": "com.domain","#
} else {
""
},
);
let schema = Schema::parse_str(&schema_str)?;
#[derive(Serialize)]
enum EnumType {
#[serde(rename = "SYMBOL_1")]
Symbol1,
#[serde(rename = "SYMBOL_2")]
Symbol2,
}
#[derive(Serialize)]
struct FieldA {
enum_a: EnumType,
enum_b: EnumType,
}
#[derive(Serialize)]
struct NamespacedMessage {
field_a: FieldA,
}
let msg = NamespacedMessage {
field_a: FieldA {
enum_a: EnumType::Symbol2,
enum_b: EnumType::Symbol1,
},
};
let mut ser = Serializer::default();
let test_value: Value = msg.serialize(&mut ser)?;
assert!(test_value.validate(&schema), "test_value should validate");
assert!(
test_value.resolve(&schema).is_ok(),
"test_value should resolve"
);
Ok(())
}
#[test]
fn test_avro_3674_validate_no_namespace_resolution() -> TestResult {
avro_3674_with_or_without_namespace(false)
}
#[test]
fn test_avro_3674_validate_with_namespace_resolution() -> TestResult {
avro_3674_with_or_without_namespace(true)
}
fn avro_3688_schema_resolution_panic(set_field_b: bool) -> TestResult {
use crate::ser::Serializer;
use serde::{Deserialize, Serialize};
let schema_str = r#"{
"type": "record",
"name": "Message",
"fields": [
{
"name": "field_a",
"type": [
"null",
{
"name": "Inner",
"type": "record",
"fields": [
{
"name": "inner_a",
"type": "string"
}
]
}
],
"default": null
},
{
"name": "field_b",
"type": [
"null",
"Inner"
],
"default": null
}
]
}"#;
#[derive(Serialize, Deserialize)]
struct Inner {
inner_a: String,
}
#[derive(Serialize, Deserialize)]
struct Message {
field_a: Option<Inner>,
field_b: Option<Inner>,
}
let schema = Schema::parse_str(schema_str)?;
let msg = Message {
field_a: Some(Inner {
inner_a: "foo".to_string(),
}),
field_b: if set_field_b {
Some(Inner {
inner_a: "bar".to_string(),
})
} else {
None
},
};
let mut ser = Serializer::default();
let test_value: Value = msg.serialize(&mut ser)?;
assert!(test_value.validate(&schema), "test_value should validate");
assert!(
test_value.resolve(&schema).is_ok(),
"test_value should resolve"
);
Ok(())
}
#[test]
fn test_avro_3688_field_b_not_set() -> TestResult {
avro_3688_schema_resolution_panic(false)
}
#[test]
fn test_avro_3688_field_b_set() -> TestResult {
avro_3688_schema_resolution_panic(true)
}
#[test]
fn test_avro_3764_use_resolve_schemata() -> TestResult {
let referenced_schema =
r#"{"name": "enumForReference", "type": "enum", "symbols": ["A", "B"]}"#;
let main_schema = r#"{"name": "recordWithReference", "type": "record", "fields": [{"name": "reference", "type": "enumForReference"}]}"#;
let value: serde_json::Value = serde_json::from_str(
r#"
{
"reference": "A"
}
"#,
)?;
let avro_value = Value::from(value);
let schemas = Schema::parse_list(&[main_schema, referenced_schema])?;
let main_schema = schemas.get(0).unwrap();
let schemata: Vec<_> = schemas.iter().skip(1).collect();
let resolve_result = avro_value.clone().resolve_schemata(main_schema, schemata);
assert!(
resolve_result.is_ok(),
"result of resolving with schemata should be ok, got: {:?}",
resolve_result
);
let resolve_result = avro_value.resolve(main_schema);
assert!(
resolve_result.is_err(),
"result of resolving without schemata should be err, got: {:?}",
resolve_result
);
Ok(())
}
#[test]
fn test_avro_3767_union_resolve_complex_refs() -> TestResult {
let referenced_enum =
r#"{"name": "enumForReference", "type": "enum", "symbols": ["A", "B"]}"#;
let referenced_record = r#"{"name": "recordForReference", "type": "record", "fields": [{"name": "refInRecord", "type": "enumForReference"}]}"#;
let main_schema = r#"{"name": "recordWithReference", "type": "record", "fields": [{"name": "reference", "type": ["null", "recordForReference"]}]}"#;
let value: serde_json::Value = serde_json::from_str(
r#"
{
"reference": {
"refInRecord": "A"
}
}
"#,
)?;
let avro_value = Value::from(value);
let schemata = Schema::parse_list(&[referenced_enum, referenced_record, main_schema])?;
let main_schema = schemata.last().unwrap();
let other_schemata: Vec<&Schema> = schemata.iter().take(2).collect();
let resolve_result = avro_value.resolve_schemata(main_schema, other_schemata);
assert!(
resolve_result.is_ok(),
"result of resolving with schemata should be ok, got: {:?}",
resolve_result
);
assert!(
resolve_result?.validate_schemata(schemata.iter().collect()),
"result of validation with schemata should be true"
);
Ok(())
}
#[test]
fn test_avro_3782_incorrect_decimal_resolving() -> TestResult {
let schema = r#"{"name": "decimalSchema", "logicalType": "decimal", "type": "fixed", "precision": 8, "scale": 0, "size": 8}"#;
let avro_value = Value::Decimal(Decimal::from(
BigInt::from(12345678u32).to_signed_bytes_be(),
));
let schema = Schema::parse_str(schema)?;
let resolve_result = avro_value.resolve(&schema);
assert!(
resolve_result.is_ok(),
"resolve result must be ok, got: {resolve_result:?}"
);
Ok(())
}
}