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metamask-extension/development/build/transforms/remove-fenced-code.js
Olaf Tomalka 95c37e1ba3
feat: add yaml feature management (#18125)
* feat: add yaml feature management

Add yaml feature file per build type.
Also add method to parse yaml and set
enabled features env to true. The build
process will then replace any process.env[feature]
that exists on the config by its value

* chore: add example for desktop

* Added initial draft of build features

* [TMP] Sync between computers

* Is able to succesfully build stable extension with snaps feature

* Removing var context from builds.yml

* Add asssets to builds.yml

* Minor bug fixes and removing debug logs

* [WIP] Test changes

* Removed TODOs

* Fix regession bug

Also
* remove debug logs
* merge Variables.set and Variables.setMany with an overload

* Fix build, lint and a bunch of issues

* Update LavaMoat policies

* Re-add desktop build type

* Fix some tests

* Fix desktop build

* Define some env variables used by MV3

* Fix lint

* Fix remove-fenced-code tests

* Fix README typo

* Move new code

* Fix missing asset copy

* Move Jest env setup

* Fix path for test after rebase

* Fix code fences

* Fix fencing and LavaMoat policies

* Fix MMI code-fencing after rebase

* Fix MMI code fencing after merge

* Fix more MMI code fencing

---------

Co-authored-by: cryptotavares <joao.tavares@consensys.net>
Co-authored-by: Frederik Bolding <frederik.bolding@gmail.com>
Co-authored-by: Brad Decker <bhdecker84@gmail.com>
2023-04-25 16:32:51 +02:00

492 lines
16 KiB
JavaScript

const path = require('path');
const { PassThrough, Transform } = require('stream');
const { lintTransformedFile } = require('./utils');
const hasKey = (obj, key) => Reflect.hasOwnProperty.call(obj, key);
module.exports = {
createRemoveFencedCodeTransform,
removeFencedCode,
};
class RemoveFencedCodeTransform extends Transform {
/**
* A transform stream that calls {@link removeFencedCode} on the complete
* string contents of the file read by Browserify.
*
* Optionally lints the file if it was modified.
*
* @param {string} filePath - The path to the file being transformed.
* @param {import('./remove-fenced-code').Features} features - Features that are currently enabled.
* @param {boolean} shouldLintTransformedFiles - Whether the file should be
* linted if modified by the transform.
*/
constructor(filePath, features, shouldLintTransformedFiles) {
super();
this.filePath = filePath;
this.features = features;
this.shouldLintTransformedFiles = shouldLintTransformedFiles;
this._fileBuffers = [];
}
// This function is called whenever data is written to the stream.
// It concatenates all buffers for the current file into a single buffer.
_transform(buffer, _encoding, next) {
this._fileBuffers.push(buffer);
next();
}
// "flush" is called when all data has been written to the
// stream, immediately before the "end" event is emitted.
// It applies the transform to the concatenated file contents.
_flush(end) {
let fileContent, didModify;
try {
[fileContent, didModify] = removeFencedCode(
this.filePath,
this.features,
Buffer.concat(this._fileBuffers).toString('utf8'),
);
} catch (error) {
return end(error);
}
const pushAndEnd = () => {
this.push(fileContent);
end();
};
if (this.shouldLintTransformedFiles && didModify) {
return lintTransformedFile(fileContent, this.filePath)
.then(pushAndEnd)
.catch((error) => end(error));
}
return pushAndEnd();
}
}
/**
* A factory for a Browserify transform that removes fenced code from all
* JavaScript source files. The transform is applied to files with the following
* extensions:
* - `.js`
* - `.cjs`
* - `.mjs`
*
* For details on how the transform mutates source files, see
* {@link removeFencedCode} and the documentation.
*
* If specified (and by default), the transform will call ESLint on the text
* contents of any file that it modifies. The transform will error if such a
* file is ignored by ESLint, since linting is our first line of defense against
* making un-syntactic modifications to files using code fences.
*
* @param {import('./remove-fenced-code').Features} features - Features that are currently enabled.
* @param {boolean} shouldLintTransformedFiles - Whether to lint transformed files.
* @returns {(filePath: string) => Transform} The transform function.
*/
function createRemoveFencedCodeTransform(
features,
shouldLintTransformedFiles = true,
) {
// Browserify transforms are functions that receive a file name and return a
// duplex stream. The stream receives the file contents piecemeal in the form
// of Buffers.
// To apply our code fencing transform, we concatenate all buffers and convert
// them to a single string, then apply the actual transform function on that
// string.
/**
* Returns a transform stream that removes fenced code from JavaScript/TypeScript files. For non-JavaScript
* files, a pass-through stream is returned.
*
* @param filePath - The file path to transform.
* @returns {Transform} The transform stream.
*/
return function removeFencedCodeTransform(filePath) {
if (!['.js', '.cjs', '.mjs', '.ts'].includes(path.extname(filePath))) {
return new PassThrough();
}
return new RemoveFencedCodeTransform(
filePath,
features,
shouldLintTransformedFiles,
);
};
}
const DirectiveTerminuses = {
BEGIN: 'BEGIN',
END: 'END',
};
const DirectiveCommands = {
ONLY_INCLUDE_IN: 'ONLY_INCLUDE_IN',
};
/**
* Factory function for command validators.
*
* @param {{ features: import('./remove-fenced-code').Features }} config - Configuration required for validation.
* @returns A mapping of command -> validator function.
*/
function CommandValidators({ features }) {
return {
[DirectiveCommands.ONLY_INCLUDE_IN]: (params, filePath) => {
if (!params || params.length === 0) {
throw new Error(
getInvalidParamsMessage(
filePath,
DirectiveCommands.ONLY_INCLUDE_IN,
`No params specified.`,
),
);
}
for (const param of params) {
if (!features.all.has(param)) {
throw new Error(
getInvalidParamsMessage(
filePath,
DirectiveCommands.ONLY_INCLUDE_IN,
`"${param}" is not a declared build feature.`,
),
);
}
}
},
};
}
// Matches lines starting with "///:", and any preceding whitespace, except
// newlines. We except newlines to avoid eating blank lines preceding a fenced
// line.
// Double-negative RegEx credit: https://stackoverflow.com/a/3469155
const linesWithFenceRegex = /^[^\S\r\n]*\/\/\/:.*$/gmu;
// Matches the first "///:" in a string, and any preceding whitespace
const fenceSentinelRegex = /^\s*\/\/\/:/u;
// Breaks a fence directive into its constituent components
// At this stage of parsing, we are looking for one of:
// - TERMINUS:COMMAND(PARAMS)
// - TERMINUS:COMMAND
const directiveParsingRegex =
/^([A-Z]+):([A-Z_]+)(?:\(((?:\w[-\w]*,)*\w[-\w]*)\))?$/u;
/**
* Removes fenced code from the given JavaScript source string. "Fenced code"
* includes the entire fence lines, including their trailing newlines, and the
* lines that they surround.
*
* A valid fence consists of two well-formed fence lines, separated by one or
* more lines that should be excluded. The first line must contain a `BEGIN`
* directive, and the second most contain an `END` directive. Both directives
* must specify the same command.
*
* Here's an example of a valid fence:
*
* ```javascript
* ///: BEGIN:ONLY_INCLUDE_IN(build-flask)
* console.log('I am Flask.');
* ///: END:ONLY_INCLUDE_IN
* ```
*
* For details, please see the documentation.
*
* @param {string} filePath - The path to the file being transformed.
* @param {import('./remove-fenced-code').Features} features - Features that are currently active.
* @param {string} fileContent - The contents of the file being transformed.
* @returns {[string, modified]} A tuple of the post-transform file contents and
* a boolean indicating whether they were modified.
*/
function removeFencedCode(filePath, features, fileContent) {
// Do not modify the file if we detect an inline sourcemap. For reasons
// yet to be determined, the transform receives every file twice while in
// watch mode, the second after Babel has transpiled the file. Babel adds
// inline source maps to the file, something we will never do in our own
// source files, so we use the existence of inline source maps to determine
// whether we should ignore the file.
if (/^\/\/# sourceMappingURL=/gmu.test(fileContent)) {
return [fileContent, false];
}
// If we didn't match any lines, return the unmodified file contents.
const matchedLines = [...fileContent.matchAll(linesWithFenceRegex)];
if (matchedLines.length === 0) {
return [fileContent, false];
}
// Parse fence lines
const parsedDirectives = matchedLines.map((matchArray) => {
const line = matchArray[0];
/* istanbul ignore next: should be impossible */
if (!fenceSentinelRegex.test(line)) {
throw new Error(
getInvalidFenceLineMessage(
filePath,
line,
`Fence sentinel may only appear at the start of a line, optionally preceded by whitespace.`,
),
);
}
// Store the start and end indices of each line
// Increment the end index by 1 to including the trailing newline when
// performing string operations.
const indices = [matchArray.index, matchArray.index + line.length + 1];
const lineWithoutSentinel = line.replace(fenceSentinelRegex, '');
if (!/^ \w\w+/u.test(lineWithoutSentinel)) {
throw new Error(
getInvalidFenceLineMessage(
filePath,
line,
`Fence sentinel must be followed by a single space and an alphabetical string of two or more characters.`,
),
);
}
const directiveMatches = lineWithoutSentinel
.trim()
.match(directiveParsingRegex);
if (!directiveMatches) {
throw new Error(
getInvalidFenceLineMessage(
filePath,
line,
`Failed to parse fence directive.`,
),
);
}
// The first element of a RegEx match array is the input
const [, terminus, command, parameters] = directiveMatches;
if (!hasKey(DirectiveTerminuses, terminus)) {
throw new Error(
getInvalidFenceLineMessage(
filePath,
line,
`Line contains invalid directive terminus "${terminus}".`,
),
);
}
if (!hasKey(DirectiveCommands, command)) {
throw new Error(
getInvalidFenceLineMessage(
filePath,
line,
`Line contains invalid directive command "${command}".`,
),
);
}
const parsed = {
line,
indices,
terminus,
command,
};
if (parameters !== undefined) {
parsed.parameters = parameters.split(',');
}
return parsed;
});
if (parsedDirectives.length % 2 !== 0) {
throw new Error(
getInvalidFenceStructureMessage(
filePath,
`A valid fence consists of two fence lines, but the file contains an uneven number, "${parsedDirectives.length}", of fence lines.`,
),
);
}
// The below for-loop iterates over the parsed fence directives and performs
// the following work:
// - Ensures that the array of parsed directives consists of valid directive
// pairs, as specified in the documentation.
// - For each directive pair, determines whether their fenced lines should be
// removed for the current build, and if so, stores the indices we will use
// to splice the file content string.
const splicingIndices = [];
let shouldSplice = false;
let currentCommand;
const commandValidators = CommandValidators({ features });
for (let i = 0; i < parsedDirectives.length; i++) {
const { line, indices, terminus, command, parameters } =
parsedDirectives[i];
if (i % 2 === 0) {
if (terminus !== DirectiveTerminuses.BEGIN) {
throw new Error(
getInvalidFencePairMessage(
filePath,
line,
`The first directive of a pair must be a "BEGIN" directive.`,
),
);
}
currentCommand = command;
// Throws an error if the command parameters are invalid
commandValidators[command](parameters, filePath);
const blockIsActive = parameters.some((param) =>
features.active.has(param),
);
if (blockIsActive) {
shouldSplice = false;
} else {
shouldSplice = true;
// Add start index of BEGIN directive line to splicing indices
splicingIndices.push(indices[0]);
}
} else {
if (terminus !== DirectiveTerminuses.END) {
throw new Error(
getInvalidFencePairMessage(
filePath,
line,
`The second directive of a pair must be an "END" directive.`,
),
);
}
/* istanbul ignore next: impossible until there's more than one command */
if (command !== currentCommand) {
throw new Error(
getInvalidFencePairMessage(
filePath,
line,
`Expected "END" directive to have command "${currentCommand}" but found "${command}".`,
),
);
}
// Forbid empty fences
const { line: previousLine, indices: previousIndices } =
parsedDirectives[i - 1];
if (fileContent.substring(previousIndices[1], indices[0]).trim() === '') {
throw new Error(
`Empty fence found in file "${filePath}":\n${previousLine}\n${line}\n`,
);
}
if (shouldSplice) {
// Add end index of END directive line to splicing indices
splicingIndices.push(indices[1]);
}
}
}
// This indicates that the present build type should include all fenced code,
// and so we just returned the unmodified file contents.
if (splicingIndices.length === 0) {
return [fileContent, false];
}
/* istanbul ignore next: should be impossible */
if (splicingIndices.length % 2 !== 0) {
throw new Error(
`Internal error while transforming file "${filePath}":\nCollected an uneven number of splicing indices: "${splicingIndices.length}"`,
);
}
return [multiSplice(fileContent, splicingIndices), true];
}
/**
* Returns a copy of the given string, without the character ranges specified
* by the splicing indices array.
*
* The splicing indices must be a non-empty, even-length array of non-negative
* integers, specifying the character ranges to remove from the given string, as
* follows:
*
* `[ start, end, start, end, start, end, ... ]`
*
* @param {string} toSplice - The string to splice.
* @param {number[]} splicingIndices - Indices to splice at.
* @returns {string} The spliced string.
*/
function multiSplice(toSplice, splicingIndices) {
const retainedSubstrings = [];
// Get the first part to be included
// The substring() call returns an empty string if splicingIndices[0] is 0,
// which is exactly what we want in that case.
retainedSubstrings.push(toSplice.substring(0, splicingIndices[0]));
// This loop gets us all parts of the string that should be retained, except
// the first and the last.
// It iterates over all "end" indices of the array except the last one, and
// pushes the substring between each "end" index and the next "begin" index
// to the array of retained substrings.
if (splicingIndices.length > 2) {
// Note the boundary index of "splicingIndices.length - 1". This loop must
// not iterate over the last element of the array.
for (let i = 1; i < splicingIndices.length - 1; i += 2) {
retainedSubstrings.push(
toSplice.substring(splicingIndices[i], splicingIndices[i + 1]),
);
}
}
// Get the last part to be included
retainedSubstrings.push(
toSplice.substring(splicingIndices[splicingIndices.length - 1]),
);
return retainedSubstrings.join('');
}
/**
* @param {string} filePath - The path to the file that caused the error.
* @param {string} line - The contents of the line with the error.
* @param {string} details - An explanation of the error.
* @returns The error message.
*/
function getInvalidFenceLineMessage(filePath, line, details) {
return `Invalid fence line in file "${filePath}": "${line}":\n${details}`;
}
/**
* @param {string} filePath - The path to the file that caused the error.
* @param {string} details - An explanation of the error.
* @returns The error message.
*/
function getInvalidFenceStructureMessage(filePath, details) {
return `Invalid fence structure in file "${filePath}":\n${details}`;
}
/**
* @param {string} filePath - The path to the file that caused the error.
* @param {string} line - The contents of the line with the error.
* @param {string} details - An explanation of the error.
* @returns The error message.
*/
function getInvalidFencePairMessage(filePath, line, details) {
return `Invalid fence pair in file "${filePath}" due to line "${line}":\n${details}`;
}
/**
* @param {string} filePath - The path to the file that caused the error.
* @param {string} command - The command of the directive with the invalid
* parameters.
* @param {string} details - An explanation of the error.
* @returns The error message.
*/
function getInvalidParamsMessage(filePath, command, details) {
return `Invalid code fence parameters in file "${filePath}" for command "${command}":\n${details}`;
}