nim-codex/codex/utils/json.nim


import std/json except `%`, `%*`
import std/macros
import std/options
import std/strutils
import std/strformat
import std/tables
import std/typetraits
import pkg/chronicles
from pkg/libp2p import Cid, init
import pkg/contractabi
import pkg/stew/byteutils
import pkg/stint
import pkg/questionable/results
import ../errors

export json except `%`, `%*`

logScope:
  topics = "json serialization"

type
  SerializationError = object of CodexError
  UnexpectedKindError = object of SerializationError

template serialize* {.pragma.}

proc newUnexpectedKindError(
  expectedType: type,
  expectedKinds: string,
  json: JsonNode
): ref UnexpectedKindError =
  let kind = if json.isNil: "nil"
             else: $json.kind
  newException(UnexpectedKindError,
    &"deserialization to {$expectedType} failed: expected {expectedKinds} " &
    &"but got {kind}")

proc newUnexpectedKindError(
  expectedType: type,
  expectedKinds: set[JsonNodeKind],
  json: JsonNode
): ref UnexpectedKindError =
  newUnexpectedKindError(expectedType, $expectedKinds, json)

proc newUnexpectedKindError(
  expectedType: type,
  expectedKind: JsonNodeKind,
  json: JsonNode
): ref UnexpectedKindError =
  newUnexpectedKindError(expectedType, {expectedKind}, json)

template expectJsonKind(
  expectedType: type,
  expectedKinds: set[JsonNodeKind],
  json: JsonNode
) =
  if json.isNil or json.kind notin expectedKinds:
    return failure(newUnexpectedKindError(expectedType, expectedKinds, json))

template expectJsonKind(
  expectedType: type,
  expectedKind: JsonNodeKind,
  json: JsonNode
) =
  expectJsonKind(expectedType, {expectedKind}, json)

proc fromJson*(
  _: type string,
  json: JsonNode
): ?!string =
  if json.isNil:
    let err = newException(ValueError, "'json' expected, but was nil")
    return failure(err)
  elif json.kind == JNull:
    return success("null")
  elif json.isNil or json.kind != JString:
    return failure(newUnexpectedKindError(string, JString, json))
  catch json.getStr

proc fromJson*(
  _: type bool,
  json: JsonNode
): ?!bool =
  expectJsonKind(bool, JBool, json)
  catch json.getBool

proc fromJson*(
  _: type int,
  json: JsonNode
): ?!int =
  expectJsonKind(int, JInt, json)
  catch json.getInt

proc fromJson*[T: SomeInteger](
  _: type T,
  json: JsonNode
): ?!T =
  when T is uint|uint64 or (not defined(js) and int.sizeof == 4):
    expectJsonKind(T, {JInt, JString}, json)
    case json.kind
    of JString:
      let x = parseBiggestUInt(json.str)
      return success cast[T](x)
    else:
      return success T(json.num)
  else:
    expectJsonKind(T, {JInt}, json)
    return success cast[T](json.num)

proc fromJson*[T: SomeFloat](
  _: type T,
  json: JsonNode
): ?!T =
  expectJsonKind(T, {JInt, JFloat, JString}, json)
  if json.kind == JString:
    case json.str
    of "nan":
      let b = NaN
      return success T(b)
      # dst = NaN # would fail some tests because range conversions would cause CT error
      # in some cases; but this is not a hot-spot inside this branch and backend can optimize this.
    of "inf":
      let b = Inf
      return success T(b)
    of "-inf":
      let b = -Inf
      return success T(b)
    else:
      let err = newUnexpectedKindError(T, "'nan|inf|-inf'", json)
      return failure(err)
  else:
    if json.kind == JFloat:
      return success T(json.fnum)
    else:
      return success T(json.num)

proc fromJson*(
  _: type seq[byte],
  json: JsonNode
): ?!seq[byte] =
  expectJsonKind(seq[byte], JString, json)
  hexToSeqByte(json.getStr).catch

proc fromJson*[N: static[int], T: array[N, byte]](
  _: type T,
  json: JsonNode
): ?!T =
  expectJsonKind(T, JString, json)
  T.fromHex(json.getStr).catch

proc fromJson*[T: distinct](
  _: type T,
  json: JsonNode
): ?!T =
  success T(? T.distinctBase.fromJson(json))

proc fromJson*[N: static[int], T: StUint[N]](
  _: type T,
  json: JsonNode
): ?!T =
  expectJsonKind(T, JString, json)
  catch parse(json.getStr, T)

proc fromJson*[T](
  _: type Option[T],
  json: JsonNode
): ?! Option[T] =
  if json.isNil or json.kind == JNull:
    return success(none T)
  without val =? T.fromJson(json), error:
    return failure(error)
  success(val.some)

proc fromJson*(
  _: type Cid,
  json: JsonNode
): ?!Cid =
  expectJsonKind(Cid, JString, json)
  Cid.init($json).mapFailure

proc fromJson*[T](
  _: type seq[T],
  json: JsonNode
): ?! seq[T] =
  expectJsonKind(seq[T], JArray, json)
  var arr: seq[T] = @[]
  for elem in json.elems:
    arr.add(? T.fromJson(elem))
  success arr

proc fromJson*[T: object](
  _: type T,
  json: JsonNode
): ?!T =
  expectJsonKind(T, JObject, json)
  var res = T.default
  # Leave this in, it's good for debugging:
  # trace "deserializing object", to = $T, json
  for name, value in fieldPairs(res):
    if json{name} != nil:
      without parsed =? type(value).fromJson(json{name}), e:
        error "error deserializing field",
          field = $T & "." & name,
          json = json{name},
          error = e.msg
        return failure(e)
      value = parsed
  success(res)

proc fromJson*[T: ref object](
  _: type T,
  json: JsonNode
): ?!T =
  expectJsonKind(T, JObject, json)
  var res = T.new()
  # Leave this in, it's good for debugging:
  # trace "deserializing object", to = $T, json
  for name, value in fieldPairs(res[]):
    if json{name} != nil:
      without parsed =? type(value).fromJson(json{name}), e:
        error "error deserializing field",
          field = $T & "." & name,
          json = json{name},
          error = e.msg
        return failure(e)
      value = parsed
  success(res)

proc fromJson*[T: object](
  _: type T,
  bytes: seq[byte]
): ?!T =
  let json = ?catch parseJson(string.fromBytes(bytes))
  T.fromJson(json)

func `%`*(s: string): JsonNode = newJString(s)

func `%`*(n: uint): JsonNode =
  if n > cast[uint](int.high):
    newJString($n)
  else:
    newJInt(BiggestInt(n))

func `%`*(n: int): JsonNode = newJInt(n)

func `%`*(n: BiggestUInt): JsonNode =
  if n > cast[BiggestUInt](BiggestInt.high):
    newJString($n)
  else:
    newJInt(BiggestInt(n))

func `%`*(n: BiggestInt): JsonNode = newJInt(n)

func `%`*(n: float): JsonNode =
  if n != n: newJString("nan")
  elif n == Inf: newJString("inf")
  elif n == -Inf: newJString("-inf")
  else: newJFloat(n)

func `%`*(b: bool): JsonNode = newJBool(b)

func `%`*(keyVals: openArray[tuple[key: string, val: JsonNode]]): JsonNode =
  if keyVals.len == 0: return newJArray()
  let jObj = newJObject()
  for key, val in items(keyVals): jObj.fields[key] = val
  jObj

template `%`*(j: JsonNode): JsonNode = j

func `%`*[T](table: Table[string, T]|OrderedTable[string, T]): JsonNode =
  let jObj = newJObject()
  for k, v in table: jObj[k] = ? %v
  jObj

func `%`*[T](opt: Option[T]): JsonNode =
  if opt.isSome: %(opt.get) else: newJNull()

func `%`*[T: object](obj: T): JsonNode =
  let jsonObj = newJObject()
  for name, value in obj.fieldPairs:
    when value.hasCustomPragma(serialize):
      jsonObj[name] = %value
  jsonObj

func `%`*[T: ref object](obj: T): JsonNode =
  let jsonObj = newJObject()
  for name, value in obj[].fieldPairs:
    when value.hasCustomPragma(serialize):
      jsonObj[name] = %(value)
  jsonObj

proc `%`*(o: enum): JsonNode = % $o

func `%`*(stint: StInt|StUint): JsonNode = %stint.toString

func `%`*(cstr: cstring): JsonNode = % $cstr

func `%`*(arr: openArray[byte]): JsonNode = % arr.to0xHex

func `%`*[T](elements: openArray[T]): JsonNode =
  let jObj = newJArray()
  for elem in elements: jObj.add(%elem)
  jObj

func `%`*[T: distinct](id: T): JsonNode =
  type baseType = T.distinctBase
  % baseType(id)

proc toJsnImpl(x: NimNode): NimNode =
  case x.kind
  of nnkBracket: # array
    if x.len == 0: return newCall(bindSym"newJArray")
    result = newNimNode(nnkBracket)
    for i in 0 ..< x.len:
      result.add(toJsnImpl(x[i]))
    result = newCall(bindSym("%", brOpen), result)
  of nnkTableConstr: # object
    if x.len == 0: return newCall(bindSym"newJObject")
    result = newNimNode(nnkTableConstr)
    for i in 0 ..< x.len:
      x[i].expectKind nnkExprColonExpr
      result.add newTree(nnkExprColonExpr, x[i][0], toJsnImpl(x[i][1]))
    result = newCall(bindSym("%", brOpen), result)
  of nnkCurly: # empty object
    x.expectLen(0)
    result = newCall(bindSym"newJObject")
  of nnkNilLit:
    result = newCall(bindSym"newJNull")
  of nnkPar:
    if x.len == 1: result = toJsnImpl(x[0])
    else: result = newCall(bindSym("%", brOpen), x)
  else:
    result = newCall(bindSym("%", brOpen), x)

macro `%*`*(x: untyped): JsonNode =
  ## Convert an expression to a JsonNode directly, without having to specify
  ## `%` for every element.
  result = toJsnImpl(x)
Improve integration testing client (CodexClient) and json serialization (#514) * Improve integration testing client (CodexClient) and json serialization The current client used for integration testing against the REST endpoints for Codex accepts and passes primitive types. This caused a hard to diagnose bug where a `uint` was not being deserialized correctly. In addition, the json de/serializing done between the CodexClient and REST client was not easy to read and was not tested. These changes bring non-primitive types to most of the CodexClient functions, allowing us to lean on the compiler to ensure we're providing correct typings. More importantly, a json de/serialization util was created as a drop-in replacement for the std/json lib, with the main two differences being that field serialization is opt-in (instead of opt-out as in the case of json_serialization) and serialization errors are captured and logged, making debugging serialization issues much easier. * Update integration test to use nodes=2 and tolerance=1 * clean up 2023-09-01 05:44:41 +00:00
			import std/json except `%`, `%*`
			`import std/macros`
			`import std/options`
			`import std/strutils`
			`import std/strformat`
			`import std/tables`
			`import std/typetraits`
			`import pkg/chronicles`
			`from pkg/libp2p import Cid, init`
			`import pkg/contractabi`
			`import pkg/stew/byteutils`
			`import pkg/stint`
			`import pkg/questionable/results`
			`import ../errors`

			export json except `%`, `%*`

			`logScope:`
			`topics = "json serialization"`

			`type`
			`SerializationError = object of CodexError`
			`UnexpectedKindError = object of SerializationError`

			`template serialize* {.pragma.}`

			`proc newUnexpectedKindError(`
			`expectedType: type,`
			`expectedKinds: string,`
			`json: JsonNode`
			`): ref UnexpectedKindError =`
			`let kind = if json.isNil: "nil"`
			`else: $json.kind`
			`newException(UnexpectedKindError,`
			`&"deserialization to {$expectedType} failed: expected {expectedKinds} " &`
			`&"but got {kind}")`

			`proc newUnexpectedKindError(`
			`expectedType: type,`
			`expectedKinds: set[JsonNodeKind],`
			`json: JsonNode`
			`): ref UnexpectedKindError =`
			`newUnexpectedKindError(expectedType, $expectedKinds, json)`

			`proc newUnexpectedKindError(`
			`expectedType: type,`
			`expectedKind: JsonNodeKind,`
			`json: JsonNode`
			`): ref UnexpectedKindError =`
			`newUnexpectedKindError(expectedType, {expectedKind}, json)`

			`template expectJsonKind(`
			`expectedType: type,`
			`expectedKinds: set[JsonNodeKind],`
			`json: JsonNode`
			`) =`
			`if json.isNil or json.kind notin expectedKinds:`
			`return failure(newUnexpectedKindError(expectedType, expectedKinds, json))`

			`template expectJsonKind(`
			`expectedType: type,`
			`expectedKind: JsonNodeKind,`
			`json: JsonNode`
			`) =`
			`expectJsonKind(expectedType, {expectedKind}, json)`

			`proc fromJson*(`
			`_: type string,`
			`json: JsonNode`
			`): ?!string =`
			`if json.isNil:`
			`let err = newException(ValueError, "'json' expected, but was nil")`
			`return failure(err)`
			`elif json.kind == JNull:`
			`return success("null")`
			`elif json.isNil or json.kind != JString:`
			`return failure(newUnexpectedKindError(string, JString, json))`
			`catch json.getStr`

			`proc fromJson*(`
			`_: type bool,`
			`json: JsonNode`
			`): ?!bool =`
			`expectJsonKind(bool, JBool, json)`
			`catch json.getBool`

			`proc fromJson*(`
			`_: type int,`
			`json: JsonNode`
			`): ?!int =`
			`expectJsonKind(int, JInt, json)`
			`catch json.getInt`

			`proc fromJson*[T: SomeInteger](`
			`_: type T,`
			`json: JsonNode`
			`): ?!T =`
			`when T is uint\|uint64 or (not defined(js) and int.sizeof == 4):`
			`expectJsonKind(T, {JInt, JString}, json)`
			`case json.kind`
			`of JString:`
			`let x = parseBiggestUInt(json.str)`
			`return success cast[T](x)`
			`else:`
			`return success T(json.num)`
			`else:`
			`expectJsonKind(T, {JInt}, json)`
			`return success cast[T](json.num)`

			`proc fromJson*[T: SomeFloat](`
			`_: type T,`
			`json: JsonNode`
			`): ?!T =`
			`expectJsonKind(T, {JInt, JFloat, JString}, json)`
			`if json.kind == JString:`
			`case json.str`
			`of "nan":`
			`let b = NaN`
			`return success T(b)`
			`# dst = NaN # would fail some tests because range conversions would cause CT error`
			`# in some cases; but this is not a hot-spot inside this branch and backend can optimize this.`
			`of "inf":`
			`let b = Inf`
			`return success T(b)`
			`of "-inf":`
			`let b = -Inf`
			`return success T(b)`
			`else:`
			`let err = newUnexpectedKindError(T, "'nan\|inf\|-inf'", json)`
			`return failure(err)`
			`else:`
			`if json.kind == JFloat:`
			`return success T(json.fnum)`
			`else:`
			`return success T(json.num)`

			`proc fromJson*(`
			`_: type seq[byte],`
			`json: JsonNode`
			`): ?!seq[byte] =`
			`expectJsonKind(seq[byte], JString, json)`
			`hexToSeqByte(json.getStr).catch`

			`proc fromJson*[N: static[int], T: array[N, byte]](`
			`_: type T,`
			`json: JsonNode`
			`): ?!T =`
			`expectJsonKind(T, JString, json)`
			`T.fromHex(json.getStr).catch`

			`proc fromJson*[T: distinct](`
			`_: type T,`
			`json: JsonNode`
			`): ?!T =`
			`success T(? T.distinctBase.fromJson(json))`

			`proc fromJson*[N: static[int], T: StUint[N]](`
			`_: type T,`
			`json: JsonNode`
			`): ?!T =`
			`expectJsonKind(T, JString, json)`
			`catch parse(json.getStr, T)`

			`proc fromJson*[T](`
			`_: type Option[T],`
			`json: JsonNode`
			`): ?! Option[T] =`
			`if json.isNil or json.kind == JNull:`
			`return success(none T)`
			`without val =? T.fromJson(json), error:`
			`return failure(error)`
			`success(val.some)`

			`proc fromJson*(`
			`_: type Cid,`
			`json: JsonNode`
			`): ?!Cid =`
			`expectJsonKind(Cid, JString, json)`
			`Cid.init($json).mapFailure`

			`proc fromJson*[T](`
			`_: type seq[T],`
			`json: JsonNode`
			`): ?! seq[T] =`
			`expectJsonKind(seq[T], JArray, json)`
			`var arr: seq[T] = @[]`
			`for elem in json.elems:`
			`arr.add(? T.fromJson(elem))`
			`success arr`

			`proc fromJson*[T: object](`
			`_: type T,`
			`json: JsonNode`
			`): ?!T =`
			`expectJsonKind(T, JObject, json)`
			`var res = T.default`
			`# Leave this in, it's good for debugging:`
			`# trace "deserializing object", to = $T, json`
			`for name, value in fieldPairs(res):`
			`if json{name} != nil:`
			`without parsed =? type(value).fromJson(json{name}), e:`
			`error "error deserializing field",`
			`field = $T & "." & name,`
			`json = json{name},`
			`error = e.msg`
			`return failure(e)`
			`value = parsed`
			`success(res)`

			`proc fromJson*[T: ref object](`
			`_: type T,`
			`json: JsonNode`
			`): ?!T =`
			`expectJsonKind(T, JObject, json)`
			`var res = T.new()`
			`# Leave this in, it's good for debugging:`
			`# trace "deserializing object", to = $T, json`
			`for name, value in fieldPairs(res[]):`
			`if json{name} != nil:`
			`without parsed =? type(value).fromJson(json{name}), e:`
			`error "error deserializing field",`
			`field = $T & "." & name,`
			`json = json{name},`
			`error = e.msg`
			`return failure(e)`
			`value = parsed`
			`success(res)`

			`proc fromJson*[T: object](`
			`_: type T,`
			`bytes: seq[byte]`
			`): ?!T =`
			`let json = ?catch parseJson(string.fromBytes(bytes))`
			`T.fromJson(json)`

			func `%`*(s: string): JsonNode = newJString(s)

			func `%`*(n: uint): JsonNode =
			`if n > cast[uint](int.high):`
			`newJString($n)`
			`else:`
			`newJInt(BiggestInt(n))`

			func `%`*(n: int): JsonNode = newJInt(n)

			func `%`*(n: BiggestUInt): JsonNode =
			`if n > cast[BiggestUInt](BiggestInt.high):`
			`newJString($n)`
			`else:`
			`newJInt(BiggestInt(n))`

			func `%`*(n: BiggestInt): JsonNode = newJInt(n)

			func `%`*(n: float): JsonNode =
			`if n != n: newJString("nan")`
			`elif n == Inf: newJString("inf")`
			`elif n == -Inf: newJString("-inf")`
			`else: newJFloat(n)`

			func `%`*(b: bool): JsonNode = newJBool(b)

			func `%`*(keyVals: openArray[tuple[key: string, val: JsonNode]]): JsonNode =
			`if keyVals.len == 0: return newJArray()`
			`let jObj = newJObject()`
			`for key, val in items(keyVals): jObj.fields[key] = val`
			`jObj`

			template `%`*(j: JsonNode): JsonNode = j

			func `%`*[T](table: Table[string, T]\|OrderedTable[string, T]): JsonNode =
			`let jObj = newJObject()`
			`for k, v in table: jObj[k] = ? %v`
			`jObj`

			func `%`*[T](opt: Option[T]): JsonNode =
			`if opt.isSome: %(opt.get) else: newJNull()`

			func `%`*[T: object](obj: T): JsonNode =
			`let jsonObj = newJObject()`
			`for name, value in obj.fieldPairs:`
			`when value.hasCustomPragma(serialize):`
			`jsonObj[name] = %value`
			`jsonObj`

			func `%`*[T: ref object](obj: T): JsonNode =
			`let jsonObj = newJObject()`
			`for name, value in obj[].fieldPairs:`
			`when value.hasCustomPragma(serialize):`
			`jsonObj[name] = %(value)`
			`jsonObj`

			proc `%`*(o: enum): JsonNode = % $o

			func `%`*(stint: StInt\|StUint): JsonNode = %stint.toString

			func `%`*(cstr: cstring): JsonNode = % $cstr

			func `%`*(arr: openArray[byte]): JsonNode = % arr.to0xHex

			func `%`*[T](elements: openArray[T]): JsonNode =
			`let jObj = newJArray()`
			`for elem in elements: jObj.add(%elem)`
			`jObj`

			func `%`*[T: distinct](id: T): JsonNode =
			`type baseType = T.distinctBase`
			`% baseType(id)`

			`proc toJsnImpl(x: NimNode): NimNode =`
			`case x.kind`
			`of nnkBracket: # array`
			`if x.len == 0: return newCall(bindSym"newJArray")`
			`result = newNimNode(nnkBracket)`
			`for i in 0 ..< x.len:`
			`result.add(toJsnImpl(x[i]))`
			`result = newCall(bindSym("%", brOpen), result)`
			`of nnkTableConstr: # object`
			`if x.len == 0: return newCall(bindSym"newJObject")`
			`result = newNimNode(nnkTableConstr)`
			`for i in 0 ..< x.len:`
			`x[i].expectKind nnkExprColonExpr`
			`result.add newTree(nnkExprColonExpr, x[i][0], toJsnImpl(x[i][1]))`
			`result = newCall(bindSym("%", brOpen), result)`
			`of nnkCurly: # empty object`
			`x.expectLen(0)`
			`result = newCall(bindSym"newJObject")`
			`of nnkNilLit:`
			`result = newCall(bindSym"newJNull")`
			`of nnkPar:`
			`if x.len == 1: result = toJsnImpl(x[0])`
			`else: result = newCall(bindSym("%", brOpen), x)`
			`else:`
			`result = newCall(bindSym("%", brOpen), x)`

			macro `%`(x: untyped): JsonNode =
			`## Convert an expression to a JsonNode directly, without having to specify`
			## `%` for every element.
			`result = toJsnImpl(x)`