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denoland-deno/js/os.ts
2018-09-04 15:57:18 -04:00

364 lines
12 KiB
TypeScript

// 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 { flatbuffers } from "flatbuffers";
import { send } from "./fbs_util";
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);
send(builder, fbs.Any.Exit, msg);
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);
const baseRes = send(builder, fbs.Any.CodeFetch, msg);
assert(baseRes != null);
assert(fbs.Any.CodeFetchRes === baseRes!.msgType());
const codeFetchRes = new fbs.CodeFetchRes();
assert(baseRes!.msg(codeFetchRes) != null);
return {
moduleName: codeFetchRes.moduleName(),
filename: codeFetchRes.filename(),
sourceCode: codeFetchRes.sourceCode(),
outputCode: codeFetchRes.outputCode()
};
}
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);
const baseRes = send(builder, fbs.Any.CodeCache, msg);
assert(baseRes == null); // Expect null or error.
}
/**
* makeTempDirSync creates a new temporary directory in the directory `dir`, its
* name beginning with `prefix` and ending with `suffix`.
* It returns the full path to the newly created directory.
* If `dir` is unspecified, tempDir uses the default directory for temporary
* files. Multiple programs calling tempDir simultaneously will not choose the
* same directory. It is the caller's responsibility to remove the directory
* when no longer needed.
*/
export interface MakeTempDirOptions {
dir?: string;
prefix?: string;
suffix?: string;
}
export function makeTempDirSync({
dir,
prefix,
suffix
}: MakeTempDirOptions = {}): string {
const builder = new flatbuffers.Builder();
const fbDir = dir == null ? -1 : builder.createString(dir);
const fbPrefix = prefix == null ? -1 : builder.createString(prefix);
const fbSuffix = suffix == null ? -1 : builder.createString(suffix);
fbs.MakeTempDir.startMakeTempDir(builder);
if (dir != null) {
fbs.MakeTempDir.addDir(builder, fbDir);
}
if (prefix != null) {
fbs.MakeTempDir.addPrefix(builder, fbPrefix);
}
if (suffix != null) {
fbs.MakeTempDir.addSuffix(builder, fbSuffix);
}
const msg = fbs.MakeTempDir.endMakeTempDir(builder);
const baseRes = send(builder, fbs.Any.MakeTempDir, msg);
assert(baseRes != null);
assert(fbs.Any.MakeTempDirRes === baseRes!.msgType());
const res = new fbs.MakeTempDirRes();
assert(baseRes!.msg(res) != null);
const path = res.path();
assert(path != null);
return path!;
}
// mkdir creates a new directory with the specified name
// and permission bits (before umask).
export function mkdirSync(path: string, mode = 0o777): void {
/* Ideally we could write:
const res = send({
command: fbs.Command.MKDIR_SYNC,
mkdirSyncPath: path,
mkdirSyncMode: mode,
});
*/
const builder = new flatbuffers.Builder();
const path_ = builder.createString(path);
fbs.MkdirSync.startMkdirSync(builder);
fbs.MkdirSync.addPath(builder, path_);
fbs.MkdirSync.addMode(builder, mode);
const msg = fbs.MkdirSync.endMkdirSync(builder);
send(builder, fbs.Any.MkdirSync, msg);
}
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);
const baseRes = send(builder, fbs.Any.ReadFileSync, msg);
assert(baseRes != null);
assert(fbs.Any.ReadFileSyncRes === baseRes!.msgType());
const res = new fbs.ReadFileSyncRes();
assert(baseRes!.msg(res) != null);
const dataArray = res.dataArray();
assert(dataArray != null);
return new Uint8Array(dataArray!);
}
function createEnv(_msg: fbs.EnvironRes): { [index: string]: string } {
const env: { [index: string]: string } = {};
for (let i = 0; i < _msg.mapLength(); i++) {
const item = _msg.map(i)!;
env[item.key()!] = item.value()!;
}
return new Proxy(env, {
set(obj, prop: string, value: string | number) {
setEnv(prop, value.toString());
return Reflect.set(obj, prop, value);
}
});
}
function setEnv(key: string, value: string): void {
const builder = new flatbuffers.Builder();
const _key = builder.createString(key);
const _value = builder.createString(value);
fbs.SetEnv.startSetEnv(builder);
fbs.SetEnv.addKey(builder, _key);
fbs.SetEnv.addValue(builder, _value);
const msg = fbs.SetEnv.endSetEnv(builder);
send(builder, fbs.Any.SetEnv, msg);
}
/**
* Returns a snapshot of the environment variables at invocation. Mutating a
* property in the object will set that variable in the environment for
* the process. The environment object will only accept `string`s or `number`s
* as values.
* import { env } from "deno";
* const env = deno.env();
* console.log(env.SHELL)
* env.TEST_VAR = "HELLO";
*
* const newEnv = deno.env();
* console.log(env.TEST_VAR == newEnv.TEST_VAR);
*/
export function env(): { [index: string]: string } {
/* Ideally we could write
const res = send({
command: fbs.Command.ENV,
});
*/
const builder = new flatbuffers.Builder();
fbs.Environ.startEnviron(builder);
const msg = fbs.Environ.endEnviron(builder);
const baseRes = send(builder, fbs.Any.Environ, msg)!;
assert(fbs.Any.EnvironRes === baseRes.msgType());
const res = new fbs.EnvironRes();
assert(baseRes.msg(res) != null);
// TypeScript cannot track assertion above, therefore not null assertion
return createEnv(res);
}
/**
* A FileInfo describes a file and is returned by `stat`, `lstat`,
* `statSync`, `lstatSync`.
*/
export class FileInfo {
private readonly _isFile: boolean;
private readonly _isSymlink: boolean;
/** The size of the file, in bytes. */
len: number;
/**
* The last modification time of the file. This corresponds to the `mtime`
* field from `stat` on Unix and `ftLastWriteTime` on Windows. This may not
* be available on all platforms.
*/
modified: number | null;
/**
* The last access time of the file. This corresponds to the `atime`
* field from `stat` on Unix and `ftLastAccessTime` on Windows. This may not
* be available on all platforms.
*/
accessed: number | null;
/**
* The last access time of the file. This corresponds to the `birthtime`
* field from `stat` on Unix and `ftCreationTime` on Windows. This may not
* be available on all platforms.
*/
created: number | null;
/* @internal */
constructor(private _msg: fbs.StatSyncRes) {
const modified = this._msg.modified().toFloat64();
const accessed = this._msg.accessed().toFloat64();
const created = this._msg.created().toFloat64();
this._isFile = this._msg.isFile();
this._isSymlink = this._msg.isSymlink();
this.len = this._msg.len().toFloat64();
this.modified = modified ? modified : null;
this.accessed = accessed ? accessed : null;
this.created = created ? created : null;
}
/**
* Returns whether this is info for a regular file. This result is mutually
* exclusive to `FileInfo.isDirectory` and `FileInfo.isSymlink`.
*/
isFile() {
return this._isFile;
}
/**
* Returns whether this is info for a regular directory. This result is
* mutually exclusive to `FileInfo.isFile` and `FileInfo.isSymlink`.
*/
isDirectory() {
return !this._isFile && !this._isSymlink;
}
/**
* Returns whether this is info for a symlink. This result is
* mutually exclusive to `FileInfo.isFile` and `FileInfo.isDirectory`.
*/
isSymlink() {
return this._isSymlink;
}
}
/**
* Queries the file system for information on the path provided.
* If the given path is a symlink information about the symlink will
* be returned.
* @returns FileInfo
*/
export function lstatSync(filename: string): FileInfo {
return statSyncInner(filename, true);
}
/**
* Queries the file system for information on the path provided.
* `statSync` Will always follow symlinks.
* @returns FileInfo
*/
export function statSync(filename: string): FileInfo {
return statSyncInner(filename, false);
}
function statSyncInner(filename: string, lstat: boolean): FileInfo {
/* Ideally we could write
const res = send({
command: fbs.Command.STAT_FILE_SYNC,
StatFilename: filename,
StatLStat: lstat,
});
return new FileInfo(res);
*/
const builder = new flatbuffers.Builder();
const filename_ = builder.createString(filename);
fbs.StatSync.startStatSync(builder);
fbs.StatSync.addFilename(builder, filename_);
fbs.StatSync.addLstat(builder, lstat);
const msg = fbs.StatSync.endStatSync(builder);
const baseRes = send(builder, fbs.Any.StatSync, msg);
assert(baseRes != null);
assert(fbs.Any.StatSyncRes === baseRes!.msgType());
const res = new fbs.StatSyncRes();
assert(baseRes!.msg(res) != null);
return new FileInfo(res);
}
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);
send(builder, fbs.Any.WriteFileSync, msg);
}
/**
* Renames (moves) oldpath to newpath.
* import { renameSync } from "deno";
* const oldpath = 'from/path';
* const newpath = 'to/path';
*
* renameSync(oldpath, newpath);
*/
export function renameSync(oldpath: string, newpath: string): void {
/* Ideally we could write:
const res = send({
command: fbs.Command.RENAME_SYNC,
renameOldPath: oldpath,
renameNewPath: newpath
});
*/
const builder = new flatbuffers.Builder();
const _oldpath = builder.createString(oldpath);
const _newpath = builder.createString(newpath);
fbs.RenameSync.startRenameSync(builder);
fbs.RenameSync.addOldpath(builder, _oldpath);
fbs.RenameSync.addNewpath(builder, _newpath);
const msg = fbs.RenameSync.endRenameSync(builder);
send(builder, fbs.Any.RenameSync, msg);
}