"use strict"; Object.defineProperty(exports, "__esModule", { value: true }); exports.parseMLSxDate = exports.transformList = exports.parseLine = exports.testLine = void 0; const FileInfo_1 = require("./FileInfo"); function parseSize(value, info) { info.size = parseInt(value, 10); } /** * Parsers for MLSD facts. */ const factHandlersByName = { "size": parseSize, // File size "sizd": parseSize, // Directory size "unique": (value, info) => { info.uniqueID = value; }, "modify": (value, info) => { info.modifiedAt = parseMLSxDate(value); info.rawModifiedAt = info.modifiedAt.toISOString(); }, "type": (value, info) => { // There seems to be confusion on how to handle symbolic links for Unix. RFC 3659 doesn't describe // this but mentions some examples using the syntax `type=OS.unix=slink:<target>`. But according to // an entry in the Errata (https://www.rfc-editor.org/errata/eid1500) this syntax can't be valid. // Instead it proposes to use `type=OS.unix=symlink` and to then list the actual target of the // symbolic link as another entry in the directory listing. The unique identifiers can then be used // to derive the connection between link(s) and target. We'll have to handle both cases as there // are differing opinions on how to deal with this. Here are some links on this topic: // - ProFTPD source: https://github.com/proftpd/proftpd/blob/56e6dfa598cbd4ef5c6cba439bcbcd53a63e3b21/modules/mod_facts.c#L531 // - ProFTPD bug: http://bugs.proftpd.org/show_bug.cgi?id=3318 // - ProFTPD statement: http://www.proftpd.org/docs/modules/mod_facts.html // – FileZilla bug: https://trac.filezilla-project.org/ticket/9310 if (value.startsWith("OS.unix=slink")) { info.type = FileInfo_1.FileType.SymbolicLink; info.link = value.substr(value.indexOf(":") + 1); return 1 /* FactHandlerResult.Continue */; } switch (value) { case "file": info.type = FileInfo_1.FileType.File; break; case "dir": info.type = FileInfo_1.FileType.Directory; break; case "OS.unix=symlink": info.type = FileInfo_1.FileType.SymbolicLink; // The target of the symbolic link might be defined in another line in the directory listing. // We'll handle this in `transformList()` below. break; case "cdir": // Current directory being listed case "pdir": // Parent directory return 2 /* FactHandlerResult.IgnoreFile */; // Don't include these entries in the listing default: info.type = FileInfo_1.FileType.Unknown; } return 1 /* FactHandlerResult.Continue */; }, "unix.mode": (value, info) => { const digits = value.substr(-3); info.permissions = { user: parseInt(digits[0], 10), group: parseInt(digits[1], 10), world: parseInt(digits[2], 10) }; }, "unix.ownername": (value, info) => { info.user = value; }, "unix.owner": (value, info) => { if (info.user === undefined) info.user = value; }, get "unix.uid"() { return this["unix.owner"]; }, "unix.groupname": (value, info) => { info.group = value; }, "unix.group": (value, info) => { if (info.group === undefined) info.group = value; }, get "unix.gid"() { return this["unix.group"]; } // Regarding the fact "perm": // We don't handle permission information stored in "perm" because its information is conceptually // different from what users of FTP clients usually associate with "permissions". Those that have // some expectations (and probably want to edit them with a SITE command) often unknowingly expect // the Unix permission system. The information passed by "perm" describes what FTP commands can be // executed with a file/directory. But even this can be either incomplete or just meant as a "guide" // as the spec mentions. From https://tools.ietf.org/html/rfc3659#section-7.5.5: "The permissions are // described here as they apply to FTP commands. They may not map easily into particular permissions // available on the server's operating system." The parser by Apache Commons tries to translate these // to Unix permissions – this is misleading users and might not even be correct. }; /** * Split a string once at the first position of a delimiter. For example * `splitStringOnce("a b c d", " ")` returns `["a", "b c d"]`. */ function splitStringOnce(str, delimiter) { const pos = str.indexOf(delimiter); const a = str.substr(0, pos); const b = str.substr(pos + delimiter.length); return [a, b]; } /** * Returns true if a given line might be part of an MLSD listing. * * - Example 1: `size=15227;type=dir;perm=el;modify=20190419065730; test one` * - Example 2: ` file name` (leading space) */ function testLine(line) { return /^\S+=\S+;/.test(line) || line.startsWith(" "); } exports.testLine = testLine; /** * Parse single line as MLSD listing, see specification at https://tools.ietf.org/html/rfc3659#section-7. */ function parseLine(line) { const [packedFacts, name] = splitStringOnce(line, " "); if (name === "" || name === "." || name === "..") { return undefined; } const info = new FileInfo_1.FileInfo(name); const facts = packedFacts.split(";"); for (const fact of facts) { const [factName, factValue] = splitStringOnce(fact, "="); if (!factValue) { continue; } const factHandler = factHandlersByName[factName.toLowerCase()]; if (!factHandler) { continue; } const result = factHandler(factValue, info); if (result === 2 /* FactHandlerResult.IgnoreFile */) { return undefined; } } return info; } exports.parseLine = parseLine; function transformList(files) { // Create a map of all files that are not symbolic links by their unique ID const nonLinksByID = new Map(); for (const file of files) { if (!file.isSymbolicLink && file.uniqueID !== undefined) { nonLinksByID.set(file.uniqueID, file); } } const resolvedFiles = []; for (const file of files) { // Try to associate unresolved symbolic links with a target file/directory. if (file.isSymbolicLink && file.uniqueID !== undefined && file.link === undefined) { const target = nonLinksByID.get(file.uniqueID); if (target !== undefined) { file.link = target.name; } } // The target of a symbolic link is listed as an entry in the directory listing but might // have a path pointing outside of this directory. In that case we don't want this entry // to be part of the listing. We generally don't want these kind of entries at all. const isPartOfDirectory = !file.name.includes("/"); if (isPartOfDirectory) { resolvedFiles.push(file); } } return resolvedFiles; } exports.transformList = transformList; /** * Parse date as specified in https://tools.ietf.org/html/rfc3659#section-2.3. * * Message contains response code and modified time in the format: YYYYMMDDHHMMSS[.sss] * For example `19991005213102` or `19980615100045.014`. */ function parseMLSxDate(fact) { return new Date(Date.UTC(+fact.slice(0, 4), // Year +fact.slice(4, 6) - 1, // Month +fact.slice(6, 8), // Date +fact.slice(8, 10), // Hours +fact.slice(10, 12), // Minutes +fact.slice(12, 14), // Seconds +fact.slice(15, 18) // Milliseconds )); } exports.parseMLSxDate = parseMLSxDate;