denoland-deno/js/os.ts

// Copyright 2018 the Deno authors. All rights reserved. MIT license.
import { ModuleInfo } from "./types";
import { deno as fbs } from "gen/msg_generated";
import { assert } from "./util";
import * as util from "./util";
import { maybeThrowError } from "./errors";
import { flatbuffers } from "flatbuffers";
import { libdeno } from "./libdeno";

export function exit(exitCode = 0): never {
  const builder = new flatbuffers.Builder();
  fbs.Exit.startExit(builder);
  fbs.Exit.addCode(builder, exitCode);
  const msg = fbs.Exit.endExit(builder);
  fbs.Base.startBase(builder);
  fbs.Base.addMsg(builder, msg);
  fbs.Base.addMsgType(builder, fbs.Any.Exit);
  builder.finish(fbs.Base.endBase(builder));
  libdeno.send(builder.asUint8Array());
  return util.unreachable();
}

export function codeFetch(
  moduleSpecifier: string,
  containingFile: string
): ModuleInfo {
  util.log("os.ts codeFetch", moduleSpecifier, containingFile);
  // Send CodeFetch message
  const builder = new flatbuffers.Builder();
  const moduleSpecifier_ = builder.createString(moduleSpecifier);
  const containingFile_ = builder.createString(containingFile);
  fbs.CodeFetch.startCodeFetch(builder);
  fbs.CodeFetch.addModuleSpecifier(builder, moduleSpecifier_);
  fbs.CodeFetch.addContainingFile(builder, containingFile_);
  const msg = fbs.CodeFetch.endCodeFetch(builder);
  fbs.Base.startBase(builder);
  fbs.Base.addMsg(builder, msg);
  fbs.Base.addMsgType(builder, fbs.Any.CodeFetch);
  builder.finish(fbs.Base.endBase(builder));
  const resBuf = libdeno.send(builder.asUint8Array());
  assert(resBuf != null);
  // Process CodeFetchRes
  // TypeScript does not track `assert` from a CFA perspective, therefore not
  // null assertion `!`
  const bb = new flatbuffers.ByteBuffer(new Uint8Array(resBuf!));
  const baseRes = fbs.Base.getRootAsBase(bb);
  maybeThrowError(baseRes);
  assert(fbs.Any.CodeFetchRes === baseRes.msgType());
  const codeFetchRes = new fbs.CodeFetchRes();
  assert(baseRes.msg(codeFetchRes) != null);
  const r = {
    moduleName: codeFetchRes.moduleName(),
    filename: codeFetchRes.filename(),
    sourceCode: codeFetchRes.sourceCode(),
    outputCode: codeFetchRes.outputCode()
  };
  return r;
}

export function codeCache(
  filename: string,
  sourceCode: string,
  outputCode: string
): void {
  util.log("os.ts codeCache", filename, sourceCode, outputCode);
  const builder = new flatbuffers.Builder();
  const filename_ = builder.createString(filename);
  const sourceCode_ = builder.createString(sourceCode);
  const outputCode_ = builder.createString(outputCode);
  fbs.CodeCache.startCodeCache(builder);
  fbs.CodeCache.addFilename(builder, filename_);
  fbs.CodeCache.addSourceCode(builder, sourceCode_);
  fbs.CodeCache.addOutputCode(builder, outputCode_);
  const msg = fbs.CodeCache.endCodeCache(builder);
  fbs.Base.startBase(builder);
  fbs.Base.addMsg(builder, msg);
  fbs.Base.addMsgType(builder, fbs.Any.CodeCache);
  builder.finish(fbs.Base.endBase(builder));
  const resBuf = libdeno.send(builder.asUint8Array());
  // Expect null or error.
  if (resBuf != null) {
    const bb = new flatbuffers.ByteBuffer(new Uint8Array(resBuf));
    const baseRes = fbs.Base.getRootAsBase(bb);
    maybeThrowError(baseRes);
  }
}

export function readFileSync(filename: string): Uint8Array {
  /* Ideally we could write
  const res = send({
    command: fbs.Command.READ_FILE_SYNC,
    readFileSyncFilename: filename
  });
  return res.readFileSyncData;
  */
  const builder = new flatbuffers.Builder();
  const filename_ = builder.createString(filename);
  fbs.ReadFileSync.startReadFileSync(builder);
  fbs.ReadFileSync.addFilename(builder, filename_);
  const msg = fbs.ReadFileSync.endReadFileSync(builder);
  fbs.Base.startBase(builder);
  fbs.Base.addMsg(builder, msg);
  fbs.Base.addMsgType(builder, fbs.Any.ReadFileSync);
  builder.finish(fbs.Base.endBase(builder));
  const resBuf = libdeno.send(builder.asUint8Array());
  assert(resBuf != null);
  // TypeScript does not track `assert` from a CFA perspective, therefore not
  // null assertion `!`
  const bb = new flatbuffers.ByteBuffer(new Uint8Array(resBuf!));
  const baseRes = fbs.Base.getRootAsBase(bb);
  maybeThrowError(baseRes);
  assert(fbs.Any.ReadFileSyncRes === baseRes.msgType());
  const res = new fbs.ReadFileSyncRes();
  assert(baseRes.msg(res) != null);
  const dataArray = res.dataArray();
  assert(dataArray != null);
  // TypeScript cannot track assertion above, therefore not null assertion
  return new Uint8Array(dataArray!);
}

export function writeFileSync(
  filename: string,
  data: Uint8Array,
  perm = 0o666
): void {
  /* Ideally we could write:
  const res = send({
    command: fbs.Command.WRITE_FILE_SYNC,
    writeFileSyncFilename: filename,
    writeFileSyncData: data,
    writeFileSyncPerm: perm
  });
  */
  const builder = new flatbuffers.Builder();
  const filename_ = builder.createString(filename);
  const dataOffset = fbs.WriteFileSync.createDataVector(builder, data);
  fbs.WriteFileSync.startWriteFileSync(builder);
  fbs.WriteFileSync.addFilename(builder, filename_);
  fbs.WriteFileSync.addData(builder, dataOffset);
  fbs.WriteFileSync.addPerm(builder, perm);
  const msg = fbs.WriteFileSync.endWriteFileSync(builder);
  fbs.Base.startBase(builder);
  fbs.Base.addMsg(builder, msg);
  fbs.Base.addMsgType(builder, fbs.Any.WriteFileSync);
  builder.finish(fbs.Base.endBase(builder));
  const resBuf = libdeno.send(builder.asUint8Array());
  if (resBuf != null) {
    const bb = new flatbuffers.ByteBuffer(new Uint8Array(resBuf!));
    const baseRes = fbs.Base.getRootAsBase(bb);
    maybeThrowError(baseRes);
  }
}