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feat: Create file-based DataAccessor

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Joachim Van Herwegen 2020-09-28 16:59:34 +02:00
parent 6ad40763f9
commit 9a857b7581
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331
src/storage/accessors/FileDataAccessor.ts Normal file
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import type { Stats } from 'fs';
import { createWriteStream, createReadStream, promises as fsPromises } from 'fs';
import { posix } from 'path';
import type { Readable } from 'stream';
import { DataFactory } from 'n3';
import type { NamedNode, Quad } from 'rdf-js';
import type { Representation } from '../../ldp/representation/Representation';
import { RepresentationMetadata } from '../../ldp/representation/RepresentationMetadata';
import type { ResourceIdentifier } from '../../ldp/representation/ResourceIdentifier';
import { ConflictHttpError } from '../../util/errors/ConflictHttpError';
import { NotFoundHttpError } from '../../util/errors/NotFoundHttpError';
import { isSystemError } from '../../util/errors/SystemError';
import { UnsupportedMediaTypeHttpError } from '../../util/errors/UnsupportedMediaTypeHttpError';
import type { MetadataController } from '../../util/MetadataController';
import { CONTENT_TYPE, DCTERMS, POSIX, RDF, XSD } from '../../util/UriConstants';
import { toNamedNode, toTypedLiteral } from '../../util/UriUtil';
import { pushQuad } from '../../util/Util';
import type { ExtensionBasedMapper } from '../ExtensionBasedMapper';
import type { ResourceLink } from '../FileIdentifierMapper';
import type { DataAccessor } from './DataAccessor';
const { join: joinPath } = posix;
/**
* DataAccessor that uses the file system to store data resources as files and containers as folders.
*/
export class FileDataAccessor implements DataAccessor {
private readonly resourceMapper: ExtensionBasedMapper;
private readonly metadataController: MetadataController;
public constructor(resourceMapper: ExtensionBasedMapper, metadataController: MetadataController) {
this.resourceMapper = resourceMapper;
this.metadataController = metadataController;
}
/**
* Only binary data can be directly stored as files so will error on non-binary data.
*/
public async canHandle(representation: Representation): Promise<void> {
if (!representation.binary) {
throw new UnsupportedMediaTypeHttpError('Only binary data is supported.');
}
}
/**
* Will return data stream directly to the file corresponding to the resource.
* Will throw NotFoundHttpError if the input is a container.
*/
public async getData(identifier: ResourceIdentifier): Promise<Readable> {
const link = await this.resourceMapper.mapUrlToFilePath(identifier);
const stats = await this.getStats(link.filePath);
if (stats.isFile()) {
return createReadStream(link.filePath);
}
throw new NotFoundHttpError();
}
/**
* Will return corresponding metadata by reading the metadata file (if it exists)
* and adding file system specific metadata elements.
*/
public async getMetadata(identifier: ResourceIdentifier): Promise<RepresentationMetadata> {
const link = await this.resourceMapper.mapUrlToFilePath(identifier);
const stats = await this.getStats(link.filePath);
if (!identifier.path.endsWith('/') && stats.isFile()) {
return this.getFileMetadata(link, stats);
}
if (identifier.path.endsWith('/') && stats.isDirectory()) {
return this.getDirectoryMetadata(link, stats);
}
throw new NotFoundHttpError();
}
/**
* Writes the given data as a file (and potential metadata as additional file).
* The metadata file will be written first and will be deleted if something goes wrong writing the actual data.
*/
public async writeDocument(identifier: ResourceIdentifier, data: Readable, metadata: RepresentationMetadata):
Promise<void> {
const link = await this.resourceMapper
.mapUrlToFilePath(identifier, metadata.contentType);
if (this.isMetadataPath(link.filePath)) {
throw new ConflictHttpError('Not allowed to create files with the metadata extension.');
}
const wroteMetadata = await this.writeMetadata(link, metadata);
try {
await this.writeDataFile(link.filePath, data);
} catch (error: unknown) {
// Delete the metadata if there was an error writing the file
if (wroteMetadata) {
await fsPromises.unlink(this.getMetadataPath(link.filePath));
}
throw error;
}
}
/**
* Creates corresponding folder if necessary and writes metadata to metadata file if necessary.
*/
public async writeContainer(identifier: ResourceIdentifier, metadata: RepresentationMetadata): Promise<void> {
const link = await this.resourceMapper.mapUrlToFilePath(identifier);
try {
await fsPromises.mkdir(link.filePath);
} catch (error: unknown) {
// Don't throw if directory already exists
if (!isSystemError(error) || error.code !== 'EEXIST') {
throw error;
}
}
await this.writeMetadata(link, metadata);
}
/**
* Removes the corresponding file/folder (and metadata file).
*/
public async deleteResource(identifier: ResourceIdentifier): Promise<void> {
const link = await this.resourceMapper.mapUrlToFilePath(identifier);
const stats = await this.getStats(link.filePath);
try {
await fsPromises.unlink(this.getMetadataPath(link.filePath));
} catch (error: unknown) {
// Ignore if it doesn't exist
if (!isSystemError(error) || error.code !== 'ENOENT') {
throw error;
}
}
if (!identifier.path.endsWith('/') && stats.isFile()) {
await fsPromises.unlink(link.filePath);
} else if (identifier.path.endsWith('/') && stats.isDirectory()) {
await fsPromises.rmdir(link.filePath);
} else {
throw new NotFoundHttpError();
}
}
/**
* Gets the Stats object corresponding to the given file path.
* @param path - File path to get info from.
*
* @throws NotFoundHttpError
* If the file/folder doesn't exist.
*/
private async getStats(path: string): Promise<Stats> {
try {
return await fsPromises.lstat(path);
} catch (error: unknown) {
if (isSystemError(error) && error.code === 'ENOENT') {
throw new NotFoundHttpError();
}
throw error;
}
}
/**
* Generates file path that corresponds to the metadata file of the given file path.
*/
private getMetadataPath(path: string): string {
return `${path}.meta`;
}
/**
* Checks if the given file path is a metadata path.
*/
private isMetadataPath(path: string): boolean {
return path.endsWith('.meta');
}
/**
* Reads and generates all metadata relevant for the given file,
* ingesting it into a RepresentationMetadata object.
*
* @param link - Path related metadata.
* @param stats - Stats object of the corresponding file.
*/
private async getFileMetadata(link: ResourceLink, stats: Stats):
Promise<RepresentationMetadata> {
return (await this.getBaseMetadata(link, stats, false))
.set(CONTENT_TYPE, link.contentType);
}
/**
* Reads and generates all metadata relevant for the given directory,
* ingesting it into a RepresentationMetadata object.
*
* @param link - Path related metadata.
* @param stats - Stats object of the corresponding directory.
*/
private async getDirectoryMetadata(link: ResourceLink, stats: Stats):
Promise<RepresentationMetadata> {
return (await this.getBaseMetadata(link, stats, true))
.addQuads(await this.getChildMetadataQuads(link));
}
/**
* Writes the metadata of the resource to a meta file.
* @param link - Path related metadata of the resource.
* @param metadata - Metadata to write.
*
* @returns True if data was written to a file.
*/
private async writeMetadata(link: ResourceLink, metadata: RepresentationMetadata): Promise<boolean> {
// These are stored by file system conventions
metadata.removeAll(RDF.type);
metadata.removeAll(CONTENT_TYPE);
const quads = metadata.quads();
if (quads.length > 0) {
const serializedMetadata = this.metadataController.serializeQuads(quads);
await this.writeDataFile(this.getMetadataPath(link.filePath), serializedMetadata);
return true;
}
return false;
}
/**
* Generates metadata relevant for any resources stored by this accessor.
* @param link - Path related metadata.
* @param stats - Stats objects of the corresponding directory.
* @param isContainer - If the path points to a container (directory) or not.
*/
private async getBaseMetadata(link: ResourceLink, stats: Stats, isContainer: boolean):
Promise<RepresentationMetadata> {
const metadata = new RepresentationMetadata(link.identifier.path)
.addQuads(await this.getRawMetadata(link.filePath));
metadata.addQuads(this.metadataController.generateResourceQuads(metadata.identifier as NamedNode, isContainer));
metadata.addQuads(this.generatePosixQuads(metadata.identifier as NamedNode, stats));
return metadata;
}
/**
* Reads the metadata from the corresponding metadata file.
* Returns an empty array if there is no metadata file.
*
* @param path - File path of the resource (not the metadata!).
*/
private async getRawMetadata(path: string): Promise<Quad[]> {
try {
// Check if the metadata file exists first
await fsPromises.lstat(this.getMetadataPath(path));
const readMetadataStream = createReadStream(this.getMetadataPath(path));
return await this.metadataController.parseQuads(readMetadataStream);
} catch (error: unknown) {
// Metadata file doesn't exist so lets keep `rawMetaData` an empty array.
if (!isSystemError(error) || error.code !== 'ENOENT') {
throw error;
}
return [];
}
}
/**
* Generate all containment related triples for a container.
* These include the actual containment triples and specific triples for every child resource.
*
* @param link - Path related metadata.
*/
private async getChildMetadataQuads(link: ResourceLink): Promise<Quad[]> {
const quads: Quad[] = [];
const childURIs: string[] = [];
const files = await fsPromises.readdir(link.filePath);
// For every child in the container we want to generate specific metadata
for (const childName of files) {
// Hide metadata files from containment triples
if (this.isMetadataPath(childName)) {
continue;
}
// Ignore non-file/directory entries in the folder
const childStats = await fsPromises.lstat(joinPath(link.filePath, childName));
if (!childStats.isFile() && !childStats.isDirectory()) {
continue;
}
// Generate the URI corresponding to the child resource
const childLink = await this.resourceMapper
.mapFilePathToUrl(joinPath(link.filePath, childName), childStats.isDirectory());
// Generate metadata of this specific child
const subject = DataFactory.namedNode(childLink.identifier.path);
quads.push(...this.metadataController.generateResourceQuads(subject, childStats.isDirectory()));
quads.push(...this.generatePosixQuads(subject, childStats));
childURIs.push(childLink.identifier.path);
}
// Generate containment metadata
const containsQuads = this.metadataController.generateContainerContainsResourceQuads(
DataFactory.namedNode(link.identifier.path), childURIs,
);
return quads.concat(containsQuads);
}
/**
* Helper function to add file system related metadata.
* @param subject - Subject for the new quads.
* @param stats - Stats of the file/directory corresponding to the resource.
*/
private generatePosixQuads(subject: NamedNode, stats: Stats): Quad[] {
const quads: Quad[] = [];
pushQuad(quads, subject, toNamedNode(POSIX.size), toTypedLiteral(stats.size, XSD.integer));
pushQuad(quads, subject, toNamedNode(DCTERMS.modified), toTypedLiteral(stats.mtime.toISOString(), XSD.dateTime));
pushQuad(quads, subject, toNamedNode(POSIX.mtime), toTypedLiteral(
Math.floor(stats.mtime.getTime() / 1000), XSD.integer,
));
return quads;
}
/**
* Helper function without extra validation checking to create a data file.
* @param path - The filepath of the file to be created.
* @param data - The data to be put in the file.
*/
private async writeDataFile(path: string, data: Readable): Promise<void> {
return new Promise((resolve, reject): any => {
const writeStream = createWriteStream(path);
data.pipe(writeStream);
data.on('error', reject);
writeStream.on('error', reject);
writeStream.on('finish', resolve);
});
}
}

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test/unit/storage/accessors/FileDataAccessor.test.ts Normal file
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import streamifyArray from 'streamify-array';
import type { Representation } from '../../../../src/ldp/representation/Representation';
import { RepresentationMetadata } from '../../../../src/ldp/representation/RepresentationMetadata';
import { FileDataAccessor } from '../../../../src/storage/accessors/FileDataAccessor';
import { ExtensionBasedMapper } from '../../../../src/storage/ExtensionBasedMapper';
import { APPLICATION_OCTET_STREAM } from '../../../../src/util/ContentTypes';
import { ConflictHttpError } from '../../../../src/util/errors/ConflictHttpError';
import { NotFoundHttpError } from '../../../../src/util/errors/NotFoundHttpError';
import { UnsupportedMediaTypeHttpError } from '../../../../src/util/errors/UnsupportedMediaTypeHttpError';
import { MetadataController } from '../../../../src/util/MetadataController';
import { CONTENT_TYPE, DCTERMS, LDP, POSIX, RDF, XSD } from '../../../../src/util/UriConstants';
import { toNamedNode, toTypedLiteral } from '../../../../src/util/UriUtil';
import { readableToString } from '../../../../src/util/Util';
import { mockFs } from '../../../util/Util';
jest.mock('fs');
const rootFilePath = 'uploads';
const now = new Date();
describe('A FileDataAccessor', (): void => {
const base = 'http://test.com/';
let accessor: FileDataAccessor;
let cache: { data: any };
let metadata: RepresentationMetadata;
beforeEach(async(): Promise<void> => {
cache = mockFs(rootFilePath, now);
accessor = new FileDataAccessor(
new ExtensionBasedMapper(base, rootFilePath),
new MetadataController(),
);
metadata = new RepresentationMetadata({ [CONTENT_TYPE]: APPLICATION_OCTET_STREAM });
});
it('can only handle binary data.', async(): Promise<void> => {
await expect(accessor.canHandle({ binary: true } as Representation)).resolves.toBeUndefined();
await expect(accessor.canHandle({ binary: false } as Representation)).rejects
.toThrow(new UnsupportedMediaTypeHttpError('Only binary data is supported.'));
});
describe('getting data', (): void => {
it('throws a 404 if the identifier does not start with the base.', async(): Promise<void> => {
await expect(accessor.getData({ path: 'badpath' })).rejects.toThrow(NotFoundHttpError);
});
it('throws a 404 if the identifier does not match an existing file.', async(): Promise<void> => {
await expect(accessor.getData({ path: `${base}resource` })).rejects.toThrow(NotFoundHttpError);
});
it('throws a 404 if the identifier matches a directory.', async(): Promise<void> => {
cache.data = { resource: {}};
await expect(accessor.getData({ path: `${base}resource` })).rejects.toThrow(NotFoundHttpError);
});
it('returns the corresponding data.', async(): Promise<void> => {
cache.data = { resource: 'data' };
const stream = await accessor.getData({ path: `${base}resource` });
await expect(readableToString(stream)).resolves.toBe('data');
});
});
describe('getting metadata', (): void => {
it('throws a 404 if the identifier does not start with the base.', async(): Promise<void> => {
await expect(accessor.getMetadata({ path: 'badpath' })).rejects.toThrow(NotFoundHttpError);
});
it('throws a 404 if the identifier does not match an existing file.', async(): Promise<void> => {
await expect(accessor.getMetadata({ path: `${base}container/` })).rejects.toThrow(NotFoundHttpError);
});
it('throws a 404 if it matches something that is no file or directory.', async(): Promise<void> => {
cache.data = { resource: 5 };
await expect(accessor.getMetadata({ path: `${base}resource` })).rejects.toThrow(NotFoundHttpError);
});
it('throws an error if something else went wrong.', async(): Promise<void> => {
jest.requireMock('fs').promises.lstat = (): any => {
throw new Error('error');
};
await expect(accessor.getMetadata({ path: base })).rejects.toThrow(new Error('error'));
});
it('throws a 404 if the trailing slash does not match its type.', async(): Promise<void> => {
cache.data = { resource: 'data' };
await expect(accessor.getMetadata({ path: `${base}resource/` })).rejects.toThrow(NotFoundHttpError);
cache.data = { container: {}};
await expect(accessor.getMetadata({ path: `${base}container` })).rejects.toThrow(NotFoundHttpError);
});
it('generates the metadata for a resource.', async(): Promise<void> => {
cache.data = { 'resource.ttl': 'data' };
metadata = await accessor.getMetadata({ path: `${base}resource.ttl` });
expect(metadata.identifier.value).toBe(`${base}resource.ttl`);
expect(metadata.contentType).toBe('text/turtle');
expect(metadata.get(RDF.type)?.value).toBe(LDP.Resource);
expect(metadata.get(POSIX.size)).toEqualRdfTerm(toTypedLiteral('data'.length, XSD.integer));
expect(metadata.get(DCTERMS.modified)).toEqualRdfTerm(toTypedLiteral(now.toISOString(), XSD.dateTime));
expect(metadata.get(POSIX.mtime)).toEqualRdfTerm(toTypedLiteral(Math.floor(now.getTime() / 1000), XSD.integer));
});
it('generates the metadata for a container and its non-meta children.', async(): Promise<void> => {
cache.data = { container: { resource: 'data', 'resource.meta': 'metadata', notAFile: 5, container2: {}}};
metadata = await accessor.getMetadata({ path: `${base}container/` });
expect(metadata.identifier.value).toBe(`${base}container/`);
expect(metadata.getAll(RDF.type)).toEqualRdfTermArray(
[ toNamedNode(LDP.Container), toNamedNode(LDP.BasicContainer), toNamedNode(LDP.Resource) ],
);
expect(metadata.get(POSIX.size)).toEqualRdfTerm(toTypedLiteral(0, XSD.integer));
expect(metadata.get(DCTERMS.modified)).toEqualRdfTerm(toTypedLiteral(now.toISOString(), XSD.dateTime));
expect(metadata.get(POSIX.mtime)).toEqualRdfTerm(toTypedLiteral(Math.floor(now.getTime() / 1000), XSD.integer));
expect(metadata.getAll(LDP.contains)).toEqualRdfTermArray(
[ toNamedNode(`${base}container/resource`), toNamedNode(`${base}container/container2/`) ],
);
const childQuads = metadata.quads().filter((quad): boolean =>
quad.subject.value === `${base}container/resource`);
const childMetadata = new RepresentationMetadata(`${base}container/resource`).addQuads(childQuads);
expect(childMetadata.get(RDF.type)?.value).toBe(LDP.Resource);
expect(childMetadata.get(POSIX.size)).toEqualRdfTerm(toTypedLiteral('data'.length, XSD.integer));
expect(childMetadata.get(DCTERMS.modified)).toEqualRdfTerm(toTypedLiteral(now.toISOString(), XSD.dateTime));
expect(childMetadata.get(POSIX.mtime)).toEqualRdfTerm(toTypedLiteral(Math.floor(now.getTime() / 1000),
XSD.integer));
});
it('adds stored metadata when requesting metadata.', async(): Promise<void> => {
cache.data = { resource: 'data', 'resource.meta': '<this> <is> <metadata>.' };
metadata = await accessor.getMetadata({ path: `${base}resource` });
expect(metadata.quads().some((quad): boolean => quad.subject.value === 'this'));
cache.data = { container: { '.meta': '<this> <is> <metadata>.' }};
metadata = await accessor.getMetadata({ path: `${base}container/` });
expect(metadata.quads().some((quad): boolean => quad.subject.value === 'this'));
});
it('throws an error if there is a problem with the internal metadata.', async(): Promise<void> => {
cache.data = { resource: 'data', 'resource.meta': 'invalid metadata!.' };
await expect(accessor.getMetadata({ path: `${base}resource` })).rejects.toThrow();
});
});
describe('writing a data resource', (): void => {
it('throws a 404 if the identifier does not start with the base.', async(): Promise<void> => {
await expect(accessor.writeDocument({ path: 'badpath' }, streamifyArray([]), metadata))
.rejects.toThrow(NotFoundHttpError);
});
it('throws an error when writing to a metadata path.', async(): Promise<void> => {
await expect(accessor.writeDocument({ path: `${base}resource.meta` }, streamifyArray([]), metadata))
.rejects.toThrow(new ConflictHttpError('Not allowed to create files with the metadata extension.'));
});
it('writes the data to the corresponding file.', async(): Promise<void> => {
const data = streamifyArray([ 'data' ]);
await expect(accessor.writeDocument({ path: `${base}resource` }, data, metadata)).resolves.toBeUndefined();
expect(cache.data.resource).toBe('data');
});
it('writes metadata to the corresponding metadata file.', async(): Promise<void> => {
const data = streamifyArray([ 'data' ]);
metadata = new RepresentationMetadata(`${base}res.ttl`, { [CONTENT_TYPE]: 'text/turtle', likes: 'apples' });
await expect(accessor.writeDocument({ path: `${base}res.ttl` }, data, metadata)).resolves.toBeUndefined();
expect(cache.data['res.ttl']).toBe('data');
expect(cache.data['res.ttl.meta']).toMatch(`<${base}res.ttl> <likes> "apples".`);
});
it('does not write metadata that is stored by the file system.', async(): Promise<void> => {
const data = streamifyArray([ 'data' ]);
metadata.add(RDF.type, toNamedNode(LDP.Resource));
await expect(accessor.writeDocument({ path: `${base}resource` }, data, metadata)).resolves.toBeUndefined();
expect(cache.data.resource).toBe('data');
expect(cache.data['resource.meta']).toBeUndefined();
});
it('throws if something went wrong writing a file.', async(): Promise<void> => {
const data = streamifyArray([ 'data' ]);
data.read = (): any => {
data.emit('error', new Error('error'));
return null;
};
await expect(accessor.writeDocument({ path: `${base}resource` }, data, metadata))
.rejects.toThrow(new Error('error'));
});
it('deletes the metadata file if something went wrong writing the file.', async(): Promise<void> => {
const data = streamifyArray([ 'data' ]);
data.read = (): any => {
data.emit('error', new Error('error'));
return null;
};
metadata.add('likes', 'apples');
await expect(accessor.writeDocument({ path: `${base}resource` }, data, metadata))
.rejects.toThrow(new Error('error'));
expect(cache.data['resource.meta']).toBeUndefined();
});
});
describe('writing a container', (): void => {
it('throws a 404 if the identifier does not start with the base.', async(): Promise<void> => {
await expect(accessor.writeContainer({ path: 'badpath' }, metadata)).rejects.toThrow(NotFoundHttpError);
});
it('creates the corresponding directory.', async(): Promise<void> => {
await expect(accessor.writeContainer({ path: `${base}container/` }, metadata)).resolves.toBeUndefined();
expect(cache.data.container).toEqual({});
});
it('can handle the directory already existing.', async(): Promise<void> => {
cache.data.container = {};
await expect(accessor.writeContainer({ path: `${base}container/` }, metadata)).resolves.toBeUndefined();
expect(cache.data.container).toEqual({});
});
it('throws other errors when making a directory.', async(): Promise<void> => {
jest.requireMock('fs').promises.mkdir = (): any => {
throw new Error('error');
};
await expect(accessor.writeContainer({ path: base }, metadata)).rejects.toThrow(new Error('error'));
});
it('writes metadata to the corresponding metadata file.', async(): Promise<void> => {
metadata = new RepresentationMetadata(`${base}container/`, { likes: 'apples' });
await expect(accessor.writeContainer({ path: `${base}container/` }, metadata)).resolves.toBeUndefined();
expect(cache.data.container).toEqual({ '.meta': expect.stringMatching(`<${base}container/> <likes> "apples".`) });
});
it('overwrites existing metadata.', async(): Promise<void> => {
cache.data.container = { '.meta': `<${base}container/> <likes> "pears".` };
metadata = new RepresentationMetadata(`${base}container/`, { likes: 'apples' });
await expect(accessor.writeContainer({ path: `${base}container/` }, metadata)).resolves.toBeUndefined();
expect(cache.data.container).toEqual({ '.meta': expect.stringMatching(`<${base}container/> <likes> "apples".`) });
});
it('does not write metadata that is stored by the file system.', async(): Promise<void> => {
metadata = new RepresentationMetadata(
`${base}container/`,
{ [RDF.type]: [ toNamedNode(LDP.BasicContainer), toNamedNode(LDP.Resource) ]},
);
await expect(accessor.writeContainer({ path: `${base}container/` }, metadata)).resolves.toBeUndefined();
expect(cache.data.container).toEqual({});
});
});
describe('deleting a resource', (): void => {
it('throws a 404 if the identifier does not start with the base.', async(): Promise<void> => {
await expect(accessor.deleteResource({ path: 'badpath' })).rejects.toThrow(NotFoundHttpError);
});
it('throws a 404 if the identifier does not match an existing entry.', async(): Promise<void> => {
await expect(accessor.deleteResource({ path: `${base}resource` })).rejects.toThrow(NotFoundHttpError);
});
it('throws a 404 if it matches something that is no file or directory.', async(): Promise<void> => {
cache.data = { resource: 5 };
await expect(accessor.deleteResource({ path: `${base}resource` })).rejects.toThrow(NotFoundHttpError);
});
it('throws a 404 if the trailing slash does not match its type.', async(): Promise<void> => {
cache.data = { resource: 'apple', container: {}};
await expect(accessor.deleteResource({ path: `${base}resource/` })).rejects.toThrow(NotFoundHttpError);
await expect(accessor.deleteResource({ path: `${base}container` })).rejects.toThrow(NotFoundHttpError);
});
it('deletes the corresponding file for data resources.', async(): Promise<void> => {
cache.data = { resource: 'apple' };
await expect(accessor.deleteResource({ path: `${base}resource` })).resolves.toBeUndefined();
expect(cache.data.resource).toBeUndefined();
});
it('throws error if there is a problem with deleting existing metadata.', async(): Promise<void> => {
cache.data = { resource: 'apple', 'resource.meta': {}};
await expect(accessor.deleteResource({ path: `${base}resource` })).rejects.toThrow();
});
it('removes the corresponding folder for containers.', async(): Promise<void> => {
cache.data = { container: {}};
await expect(accessor.deleteResource({ path: `${base}container/` })).resolves.toBeUndefined();
expect(cache.data.container).toBeUndefined();
});
it('removes the corresponding metadata.', async(): Promise<void> => {
cache.data = { container: { resource: 'apple', 'resource.meta': 'metaApple', '.meta': 'metadata' }};
await expect(accessor.deleteResource({ path: `${base}container/resource` })).resolves.toBeUndefined();
expect(cache.data.container.resource).toBeUndefined();
expect(cache.data.container['resource.meta']).toBeUndefined();
await expect(accessor.deleteResource({ path: `${base}container/` })).resolves.toBeUndefined();
expect(cache.data.container).toBeUndefined();
});
});
});