@waku/proto/src/generated/light_push.ts

Protobuf definitions for Waku

/* eslint-disable import/export */
/* eslint-disable complexity */
/* eslint-disable @typescript-eslint/no-namespace */
/* eslint-disable @typescript-eslint/no-unnecessary-boolean-literal-compare */
/* eslint-disable @typescript-eslint/no-empty-interface */
/* eslint-disable import/consistent-type-specifier-style */
/* eslint-disable @typescript-eslint/no-unused-vars */

import { decodeMessage, encodeMessage, message } from 'protons-runtime'
import { alloc as uint8ArrayAlloc } from 'uint8arrays/alloc'
import type { Codec, DecodeOptions } from 'protons-runtime'
import type { Uint8ArrayList } from 'uint8arraylist'

export interface PushRequest {
  pubsubTopic: string
  message?: WakuMessage
}

export namespace PushRequest {
  let _codec: Codec<PushRequest>

  export const codec = (): Codec<PushRequest> => {
    if (_codec == null) {
      _codec = message<PushRequest>((obj, w, opts = {}) => {
        if (opts.lengthDelimited !== false) {
          w.fork()
        }

        if ((obj.pubsubTopic != null && obj.pubsubTopic !== '')) {
          w.uint32(10)
          w.string(obj.pubsubTopic)
        }

        if (obj.message != null) {
          w.uint32(18)
          WakuMessage.codec().encode(obj.message, w)
        }

        if (opts.lengthDelimited !== false) {
          w.ldelim()
        }
      }, (reader, length, opts = {}) => {
        const obj: any = {
          pubsubTopic: ''
        }

        const end = length == null ? reader.len : reader.pos + length

        while (reader.pos < end) {
          const tag = reader.uint32()

          switch (tag >>> 3) {
            case 1: {
              obj.pubsubTopic = reader.string()
              break
            }
            case 2: {
              obj.message = WakuMessage.codec().decode(reader, reader.uint32(), {
                limits: opts.limits?.message
              })
              break
            }
            default: {
              reader.skipType(tag & 7)
              break
            }
          }
        }

        return obj
      })
    }

    return _codec
  }

  export const encode = (obj: Partial<PushRequest>): Uint8Array => {
    return encodeMessage(obj, PushRequest.codec())
  }

  export const decode = (buf: Uint8Array | Uint8ArrayList, opts?: DecodeOptions<PushRequest>): PushRequest => {
    return decodeMessage(buf, PushRequest.codec(), opts)
  }
}

export interface PushResponse {
  isSuccess: boolean
  info?: string
  statusCode?: number
  statusDesc?: string
  relayPeerCount?: number
}

export namespace PushResponse {
  let _codec: Codec<PushResponse>

  export const codec = (): Codec<PushResponse> => {
    if (_codec == null) {
      _codec = message<PushResponse>((obj, w, opts = {}) => {
        if (opts.lengthDelimited !== false) {
          w.fork()
        }

        if ((obj.isSuccess != null && obj.isSuccess !== false)) {
          w.uint32(8)
          w.bool(obj.isSuccess)
        }

        if (obj.info != null) {
          w.uint32(18)
          w.string(obj.info)
        }

        if (obj.statusCode != null) {
          w.uint32(80)
          w.uint32(obj.statusCode)
        }

        if (obj.statusDesc != null) {
          w.uint32(90)
          w.string(obj.statusDesc)
        }

        if (obj.relayPeerCount != null) {
          w.uint32(96)
          w.uint32(obj.relayPeerCount)
        }

        if (opts.lengthDelimited !== false) {
          w.ldelim()
        }
      }, (reader, length, opts = {}) => {
        const obj: any = {
          isSuccess: false
        }

        const end = length == null ? reader.len : reader.pos + length

        while (reader.pos < end) {
          const tag = reader.uint32()

          switch (tag >>> 3) {
            case 1: {
              obj.isSuccess = reader.bool()
              break
            }
            case 2: {
              obj.info = reader.string()
              break
            }
            case 10: {
              obj.statusCode = reader.uint32()
              break
            }
            case 11: {
              obj.statusDesc = reader.string()
              break
            }
            case 12: {
              obj.relayPeerCount = reader.uint32()
              break
            }
            default: {
              reader.skipType(tag & 7)
              break
            }
          }
        }

        return obj
      })
    }

    return _codec
  }

  export const encode = (obj: Partial<PushResponse>): Uint8Array => {
    return encodeMessage(obj, PushResponse.codec())
  }

  export const decode = (buf: Uint8Array | Uint8ArrayList, opts?: DecodeOptions<PushResponse>): PushResponse => {
    return decodeMessage(buf, PushResponse.codec(), opts)
  }
}

export interface PushRpc {
  requestId: string
  request?: PushRequest
  response?: PushResponse
}

export namespace PushRpc {
  let _codec: Codec<PushRpc>

  export const codec = (): Codec<PushRpc> => {
    if (_codec == null) {
      _codec = message<PushRpc>((obj, w, opts = {}) => {
        if (opts.lengthDelimited !== false) {
          w.fork()
        }

        if ((obj.requestId != null && obj.requestId !== '')) {
          w.uint32(10)
          w.string(obj.requestId)
        }

        if (obj.request != null) {
          w.uint32(18)
          PushRequest.codec().encode(obj.request, w)
        }

        if (obj.response != null) {
          w.uint32(26)
          PushResponse.codec().encode(obj.response, w)
        }

        if (opts.lengthDelimited !== false) {
          w.ldelim()
        }
      }, (reader, length, opts = {}) => {
        const obj: any = {
          requestId: ''
        }

        const end = length == null ? reader.len : reader.pos + length

        while (reader.pos < end) {
          const tag = reader.uint32()

          switch (tag >>> 3) {
            case 1: {
              obj.requestId = reader.string()
              break
            }
            case 2: {
              obj.request = PushRequest.codec().decode(reader, reader.uint32(), {
                limits: opts.limits?.request
              })
              break
            }
            case 3: {
              obj.response = PushResponse.codec().decode(reader, reader.uint32(), {
                limits: opts.limits?.response
              })
              break
            }
            default: {
              reader.skipType(tag & 7)
              break
            }
          }
        }

        return obj
      })
    }

    return _codec
  }

  export const encode = (obj: Partial<PushRpc>): Uint8Array => {
    return encodeMessage(obj, PushRpc.codec())
  }

  export const decode = (buf: Uint8Array | Uint8ArrayList, opts?: DecodeOptions<PushRpc>): PushRpc => {
    return decodeMessage(buf, PushRpc.codec(), opts)
  }
}

export interface LightPushRequestV3 {
  requestId: string
  pubsubTopic?: string
  message?: WakuMessage
}

export namespace LightPushRequestV3 {
  let _codec: Codec<LightPushRequestV3>

  export const codec = (): Codec<LightPushRequestV3> => {
    if (_codec == null) {
      _codec = message<LightPushRequestV3>((obj, w, opts = {}) => {
        if (opts.lengthDelimited !== false) {
          w.fork()
        }

        if ((obj.requestId != null && obj.requestId !== '')) {
          w.uint32(10)
          w.string(obj.requestId)
        }

        if (obj.pubsubTopic != null) {
          w.uint32(162)
          w.string(obj.pubsubTopic)
        }

        if (obj.message != null) {
          w.uint32(170)
          WakuMessage.codec().encode(obj.message, w)
        }

        if (opts.lengthDelimited !== false) {
          w.ldelim()
        }
      }, (reader, length, opts = {}) => {
        const obj: any = {
          requestId: ''
        }

        const end = length == null ? reader.len : reader.pos + length

        while (reader.pos < end) {
          const tag = reader.uint32()

          switch (tag >>> 3) {
            case 1: {
              obj.requestId = reader.string()
              break
            }
            case 20: {
              obj.pubsubTopic = reader.string()
              break
            }
            case 21: {
              obj.message = WakuMessage.codec().decode(reader, reader.uint32(), {
                limits: opts.limits?.message
              })
              break
            }
            default: {
              reader.skipType(tag & 7)
              break
            }
          }
        }

        return obj
      })
    }

    return _codec
  }

  export const encode = (obj: Partial<LightPushRequestV3>): Uint8Array => {
    return encodeMessage(obj, LightPushRequestV3.codec())
  }

  export const decode = (buf: Uint8Array | Uint8ArrayList, opts?: DecodeOptions<LightPushRequestV3>): LightPushRequestV3 => {
    return decodeMessage(buf, LightPushRequestV3.codec(), opts)
  }
}

export interface LightPushResponseV3 {
  requestId: string
  statusCode: number
  statusDesc?: string
  relayPeerCount?: number
}

export namespace LightPushResponseV3 {
  let _codec: Codec<LightPushResponseV3>

  export const codec = (): Codec<LightPushResponseV3> => {
    if (_codec == null) {
      _codec = message<LightPushResponseV3>((obj, w, opts = {}) => {
        if (opts.lengthDelimited !== false) {
          w.fork()
        }

        if ((obj.requestId != null && obj.requestId !== '')) {
          w.uint32(10)
          w.string(obj.requestId)
        }

        if ((obj.statusCode != null && obj.statusCode !== 0)) {
          w.uint32(80)
          w.uint32(obj.statusCode)
        }

        if (obj.statusDesc != null) {
          w.uint32(90)
          w.string(obj.statusDesc)
        }

        if (obj.relayPeerCount != null) {
          w.uint32(96)
          w.uint32(obj.relayPeerCount)
        }

        if (opts.lengthDelimited !== false) {
          w.ldelim()
        }
      }, (reader, length, opts = {}) => {
        const obj: any = {
          requestId: '',
          statusCode: 0
        }

        const end = length == null ? reader.len : reader.pos + length

        while (reader.pos < end) {
          const tag = reader.uint32()

          switch (tag >>> 3) {
            case 1: {
              obj.requestId = reader.string()
              break
            }
            case 10: {
              obj.statusCode = reader.uint32()
              break
            }
            case 11: {
              obj.statusDesc = reader.string()
              break
            }
            case 12: {
              obj.relayPeerCount = reader.uint32()
              break
            }
            default: {
              reader.skipType(tag & 7)
              break
            }
          }
        }

        return obj
      })
    }

    return _codec
  }

  export const encode = (obj: Partial<LightPushResponseV3>): Uint8Array => {
    return encodeMessage(obj, LightPushResponseV3.codec())
  }

  export const decode = (buf: Uint8Array | Uint8ArrayList, opts?: DecodeOptions<LightPushResponseV3>): LightPushResponseV3 => {
    return decodeMessage(buf, LightPushResponseV3.codec(), opts)
  }
}

export interface RateLimitProof {
  proof: Uint8Array
  merkleRoot: Uint8Array
  epoch: Uint8Array
  shareX: Uint8Array
  shareY: Uint8Array
  nullifier: Uint8Array
  rlnIdentifier: Uint8Array
}

export namespace RateLimitProof {
  let _codec: Codec<RateLimitProof>

  export const codec = (): Codec<RateLimitProof> => {
    if (_codec == null) {
      _codec = message<RateLimitProof>((obj, w, opts = {}) => {
        if (opts.lengthDelimited !== false) {
          w.fork()
        }

        if ((obj.proof != null && obj.proof.byteLength > 0)) {
          w.uint32(10)
          w.bytes(obj.proof)
        }

        if ((obj.merkleRoot != null && obj.merkleRoot.byteLength > 0)) {
          w.uint32(18)
          w.bytes(obj.merkleRoot)
        }

        if ((obj.epoch != null && obj.epoch.byteLength > 0)) {
          w.uint32(26)
          w.bytes(obj.epoch)
        }

        if ((obj.shareX != null && obj.shareX.byteLength > 0)) {
          w.uint32(34)
          w.bytes(obj.shareX)
        }

        if ((obj.shareY != null && obj.shareY.byteLength > 0)) {
          w.uint32(42)
          w.bytes(obj.shareY)
        }

        if ((obj.nullifier != null && obj.nullifier.byteLength > 0)) {
          w.uint32(50)
          w.bytes(obj.nullifier)
        }

        if ((obj.rlnIdentifier != null && obj.rlnIdentifier.byteLength > 0)) {
          w.uint32(58)
          w.bytes(obj.rlnIdentifier)
        }

        if (opts.lengthDelimited !== false) {
          w.ldelim()
        }
      }, (reader, length, opts = {}) => {
        const obj: any = {
          proof: uint8ArrayAlloc(0),
          merkleRoot: uint8ArrayAlloc(0),
          epoch: uint8ArrayAlloc(0),
          shareX: uint8ArrayAlloc(0),
          shareY: uint8ArrayAlloc(0),
          nullifier: uint8ArrayAlloc(0),
          rlnIdentifier: uint8ArrayAlloc(0)
        }

        const end = length == null ? reader.len : reader.pos + length

        while (reader.pos < end) {
          const tag = reader.uint32()

          switch (tag >>> 3) {
            case 1: {
              obj.proof = reader.bytes()
              break
            }
            case 2: {
              obj.merkleRoot = reader.bytes()
              break
            }
            case 3: {
              obj.epoch = reader.bytes()
              break
            }
            case 4: {
              obj.shareX = reader.bytes()
              break
            }
            case 5: {
              obj.shareY = reader.bytes()
              break
            }
            case 6: {
              obj.nullifier = reader.bytes()
              break
            }
            case 7: {
              obj.rlnIdentifier = reader.bytes()
              break
            }
            default: {
              reader.skipType(tag & 7)
              break
            }
          }
        }

        return obj
      })
    }

    return _codec
  }

  export const encode = (obj: Partial<RateLimitProof>): Uint8Array => {
    return encodeMessage(obj, RateLimitProof.codec())
  }

  export const decode = (buf: Uint8Array | Uint8ArrayList, opts?: DecodeOptions<RateLimitProof>): RateLimitProof => {
    return decodeMessage(buf, RateLimitProof.codec(), opts)
  }
}

export interface WakuMessage {
  payload: Uint8Array
  contentTopic: string
  version?: number
  timestamp?: bigint
  meta?: Uint8Array
  rateLimitProof?: RateLimitProof
  ephemeral?: boolean
}

export namespace WakuMessage {
  let _codec: Codec<WakuMessage>

  export const codec = (): Codec<WakuMessage> => {
    if (_codec == null) {
      _codec = message<WakuMessage>((obj, w, opts = {}) => {
        if (opts.lengthDelimited !== false) {
          w.fork()
        }

        if ((obj.payload != null && obj.payload.byteLength > 0)) {
          w.uint32(10)
          w.bytes(obj.payload)
        }

        if ((obj.contentTopic != null && obj.contentTopic !== '')) {
          w.uint32(18)
          w.string(obj.contentTopic)
        }

        if (obj.version != null) {
          w.uint32(24)
          w.uint32(obj.version)
        }

        if (obj.timestamp != null) {
          w.uint32(80)
          w.sint64(obj.timestamp)
        }

        if (obj.meta != null) {
          w.uint32(90)
          w.bytes(obj.meta)
        }

        if (obj.rateLimitProof != null) {
          w.uint32(170)
          RateLimitProof.codec().encode(obj.rateLimitProof, w)
        }

        if (obj.ephemeral != null) {
          w.uint32(248)
          w.bool(obj.ephemeral)
        }

        if (opts.lengthDelimited !== false) {
          w.ldelim()
        }
      }, (reader, length, opts = {}) => {
        const obj: any = {
          payload: uint8ArrayAlloc(0),
          contentTopic: ''
        }

        const end = length == null ? reader.len : reader.pos + length

        while (reader.pos < end) {
          const tag = reader.uint32()

          switch (tag >>> 3) {
            case 1: {
              obj.payload = reader.bytes()
              break
            }
            case 2: {
              obj.contentTopic = reader.string()
              break
            }
            case 3: {
              obj.version = reader.uint32()
              break
            }
            case 10: {
              obj.timestamp = reader.sint64()
              break
            }
            case 11: {
              obj.meta = reader.bytes()
              break
            }
            case 21: {
              obj.rateLimitProof = RateLimitProof.codec().decode(reader, reader.uint32(), {
                limits: opts.limits?.rateLimitProof
              })
              break
            }
            case 31: {
              obj.ephemeral = reader.bool()
              break
            }
            default: {
              reader.skipType(tag & 7)
              break
            }
          }
        }

        return obj
      })
    }

    return _codec
  }

  export const encode = (obj: Partial<WakuMessage>): Uint8Array => {
    return encodeMessage(obj, WakuMessage.codec())
  }

  export const decode = (buf: Uint8Array | Uint8ArrayList, opts?: DecodeOptions<WakuMessage>): WakuMessage => {
    return decodeMessage(buf, WakuMessage.codec(), opts)
  }
}