wappalyzer/src/wappalyzer.js

'use strict'

function toArray(value) {
  return Array.isArray(value) ? value : [value]
}

const benchmarkEnabled =
  typeof process !== 'undefined' ? !!process.env.WAPPALYZER_BENCHMARK : false

let benchmarks = []

function benchmark(duration, pattern, value = '', technology) {
  if (!benchmarkEnabled) {
    return
  }

  benchmarks.push({
    duration,
    pattern: String(pattern.regex),
    value: String(value).slice(0, 100),
    valueLength: value.length,
    technology: technology.name,
  })
}

function benchmarkSummary() {
  if (!benchmarkEnabled) {
    return
  }

  const totalPatterns = Object.values(benchmarks).length
  const totalDuration = Object.values(benchmarks).reduce(
    (sum, { duration }) => sum + duration,
    0
  )

  // eslint-disable-next-line no-console
  console.log({
    totalPatterns,
    totalDuration,
    averageDuration: Math.round(totalDuration / totalPatterns),
    slowestTechnologies: Object.values(
      benchmarks.reduce((benchmarks, { duration, technology }) => {
        if (benchmarks[technology]) {
          benchmarks[technology].duration += duration
        } else {
          benchmarks[technology] = { technology, duration }
        }

        return benchmarks
      }, {})
    )
      .sort(({ duration: a }, { duration: b }) => (a > b ? -1 : 1))
      .filter(({ duration }) => duration)
      .slice(0, 5)
      .reduce(
        (technologies, { technology, duration }) => ({
          ...technologies,
          [technology]: duration,
        }),
        {}
      ),
    slowestPatterns: Object.values(benchmarks)
      .sort(({ duration: a }, { duration: b }) => (a > b ? -1 : 1))
      .filter(({ duration }) => duration)
      .slice(0, 5),
  })
}

const Wappalyzer = {
  technologies: [],
  categories: [],
  requires: [],
  categoryRequires: [],

  slugify: (string) =>
    string
      .toLowerCase()
      .replace(/[^a-z0-9-]/g, '-')
      .replace(/--+/g, '-')
      .replace(/(?:^-|-$)/g, ''),

  getTechnology: (name) =>
    [
      ...Wappalyzer.technologies,
      ...Wappalyzer.requires.map(({ technologies }) => technologies).flat(),
      ...Wappalyzer.categoryRequires
        .map(({ technologies }) => technologies)
        .flat(),
    ].find(({ name: _name }) => name === _name),

  getCategory: (id) => Wappalyzer.categories.find(({ id: _id }) => id === _id),

  /**
   * Resolve promises for implied technology.
   * @param {Array} detections
   */
  resolve(detections = []) {
    const resolved = detections.reduce((resolved, { technology, lastUrl }) => {
      if (
        resolved.findIndex(
          ({ technology: { name } }) => name === technology.name
        ) === -1
      ) {
        let version = ''
        let confidence = 0
        let rootPath

        detections
          .filter(
            ({ technology: _technology }) =>
              _technology && _technology.name === technology.name
          )
          .forEach(
            ({
              technology: { name },
              pattern,
              version: _version = '',
              rootPath: _rootPath,
            }) => {
              confidence = Math.min(100, confidence + pattern.confidence)
              version =
                _version.length > version.length &&
                _version.length <= 15 &&
                (parseInt(_version, 10) || 0) < 10000 // Ignore long numeric strings like timestamps
                  ? _version
                  : version
              rootPath = rootPath || _rootPath || undefined
            }
          )

        resolved.push({ technology, confidence, version, rootPath, lastUrl })
      }

      return resolved
    }, [])

    Wappalyzer.resolveExcludes(resolved)
    Wappalyzer.resolveImplies(resolved)

    const priority = ({ technology: { categories } }) =>
      categories.reduce(
        (max, id) => Math.max(max, Wappalyzer.getCategory(id).priority),
        0
      )

    return resolved
      .sort((a, b) => (priority(a) > priority(b) ? 1 : -1))
      .map(
        ({
          technology: {
            name,
            description,
            slug,
            categories,
            icon,
            website,
            pricing,
            cpe,
          },
          confidence,
          version,
          rootPath,
          lastUrl,
        }) => ({
          name,
          description,
          slug,
          categories: categories.map((id) => Wappalyzer.getCategory(id)),
          confidence,
          version,
          icon,
          website,
          pricing,
          cpe,
          rootPath,
          lastUrl,
        })
      )
  },

  /**
   * Resolve promises for version of technology.
   * @param {Promise} resolved
   * @param match
   */
  resolveVersion({ version, regex }, match) {
    let resolved = version

    if (version) {
      const matches = regex.exec(match)

      if (matches) {
        matches.forEach((match, index) => {
          if (String(match).length > 10) {
            return
          }

          // Parse ternary operator
          const ternary = new RegExp(`\\\\${index}\\?([^:]+):(.*)$`).exec(
            version
          )

          if (ternary && ternary.length === 3) {
            resolved = version.replace(
              ternary[0],
              match ? ternary[1] : ternary[2]
            )
          }

          // Replace back references
          resolved = resolved
            .trim()
            .replace(new RegExp(`\\\\${index}`, 'g'), match || '')
        })
      }
    }

    return resolved
  },

  /**
   * Resolve promises for excluded technology.
   * @param {Promise} resolved
   */
  resolveExcludes(resolved) {
    resolved.forEach(({ technology }) => {
      technology.excludes.forEach(({ name }) => {
        const excluded = Wappalyzer.getTechnology(name)

        if (!excluded) {
          throw new Error(`Excluded technology does not exist: ${name}`)
        }

        let index

        do {
          index = resolved.findIndex(
            ({ technology: { name } }) => name === excluded.name
          )

          if (index !== -1) {
            resolved.splice(index, 1)
          }
        } while (index !== -1)
      })
    })
  },

  /**
   * Resolve promises for implied technology.
   * @param {Promise} resolved
   */
  resolveImplies(resolved) {
    let done = false

    do {
      done = true

      resolved.forEach(({ technology, confidence, lastUrl }) => {
        technology.implies.forEach(
          ({ name, confidence: _confidence, version }) => {
            const implied = Wappalyzer.getTechnology(name)

            if (!implied) {
              throw new Error(`Implied technology does not exist: ${name}`)
            }

            if (
              resolved.findIndex(
                ({ technology: { name } }) => name === implied.name
              ) === -1
            ) {
              resolved.push({
                technology: implied,
                confidence: Math.min(confidence, _confidence),
                version: version || '',
                lastUrl,
              })

              done = false
            }
          }
        )
      })
    } while (resolved.length && !done)
  },

  /**
   * Initialize analyzation.
   * @param {*} param0
   */
  analyze(items, technologies = Wappalyzer.technologies) {
    benchmarks = []

    const oo = Wappalyzer.analyzeOneToOne
    const om = Wappalyzer.analyzeOneToMany
    const mm = Wappalyzer.analyzeManyToMany

    const relations = {
      url: oo,
      xhr: oo,
      html: oo,
      text: oo,
      scripts: oo,
      css: oo,
      robots: oo,
      certIssuer: oo,
      scriptSrc: om,
      cookies: mm,
      meta: mm,
      headers: mm,
      dns: mm,
    }

    try {
      const detections = technologies
        .map((technology) =>
          Object.keys(relations)
            .map(
              (type) =>
                items[type] && relations[type](technology, type, items[type])
            )
            .flat()
        )
        .flat()
        .filter((technology) => technology)

      benchmarkSummary()

      return detections
    } catch (error) {
      throw new Error(error.message || error.toString())
    }
  },

  /**
   * Extract technologies from data collected.
   * @param {object} data
   */
  setTechnologies(data) {
    const transform = Wappalyzer.transformPatterns

    Wappalyzer.technologies = Object.keys(data).reduce((technologies, name) => {
      const {
        cats,
        description,
        url,
        xhr,
        dom,
        html,
        text,
        scripts,
        css,
        robots,
        meta,
        headers,
        dns,
        certIssuer,
        cookies,
        scriptSrc,
        js,
        implies,
        excludes,
        requires,
        requiresCategory,
        icon,
        website,
        pricing,
        cpe,
      } = data[name]

      technologies.push({
        name,
        description: description || null,
        categories: cats || [],
        slug: Wappalyzer.slugify(name),
        url: transform(url),
        xhr: transform(xhr),
        headers: transform(headers),
        dns: transform(dns),
        cookies: transform(cookies),
        dom: transform(
          typeof dom === 'string' || Array.isArray(dom)
            ? toArray(dom).reduce(
                (dom, selector) => ({
                  ...dom,
                  [selector]: { exists: '' },
                }),
                {}
              )
            : dom,
          true,
          false
        ),
        html: transform(html),
        text: transform(text),
        scripts: transform(scripts),
        css: transform(css),
        certIssuer: transform(certIssuer),
        robots: transform(robots),
        meta: transform(meta),
        scriptSrc: transform(scriptSrc),
        js: transform(js, true),
        implies: transform(implies).map(({ value, confidence, version }) => ({
          name: value,
          confidence,
          version,
        })),
        excludes: transform(excludes).map(({ value }) => ({
          name: value,
        })),
        requires: transform(requires).map(({ value }) => ({
          name: value,
        })),
        requiresCategory: transform(requiresCategory).map(({ value }) => ({
          id: value,
        })),
        icon: icon || 'default.svg',
        website: website || null,
        pricing: pricing || [],
        cpe: cpe || null,
      })

      return technologies
    }, [])

    Wappalyzer.technologies
      .filter(({ requires }) => requires.length)
      .forEach((technology) =>
        technology.requires.forEach(({ name }) => {
          if (!Wappalyzer.getTechnology(name)) {
            throw new Error(`Required technology does not exist: ${name}`)
          }

          Wappalyzer.requires[name] = Wappalyzer.requires[name] || []

          Wappalyzer.requires[name].push(technology)
        })
      )

    Wappalyzer.requires = Object.keys(Wappalyzer.requires).map((name) => ({
      name,
      technologies: Wappalyzer.requires[name],
    }))

    Wappalyzer.technologies
      .filter(({ requiresCategory }) => requiresCategory.length)
      .forEach((technology) =>
        technology.requiresCategory.forEach(({ id }) => {
          Wappalyzer.categoryRequires[id] =
            Wappalyzer.categoryRequires[id] || []

          Wappalyzer.categoryRequires[id].push(technology)
        })
      )

    Wappalyzer.categoryRequires = Object.keys(Wappalyzer.categoryRequires).map(
      (id) => ({
        categoryId: parseInt(id, 10),
        technologies: Wappalyzer.categoryRequires[id],
      })
    )

    Wappalyzer.technologies = Wappalyzer.technologies.filter(
      ({ requires, requiresCategory }) =>
        !requires.length && !requiresCategory.length
    )
  },

  /**
   * Assign categories for data.
   * @param {Object} data
   */
  setCategories(data) {
    Wappalyzer.categories = Object.keys(data)
      .reduce((categories, id) => {
        const category = data[id]

        categories.push({
          id: parseInt(id, 10),
          slug: Wappalyzer.slugify(category.name),
          ...category,
        })

        return categories
      }, [])
      .sort(({ priority: a }, { priority: b }) => (a > b ? -1 : 0))
  },

  /**
   * Transform patterns for internal use.
   * @param {string|array} patterns
   * @param {boolean} caseSensitive
   */
  transformPatterns(patterns, caseSensitive = false, isRegex = true) {
    if (!patterns) {
      return []
    }

    if (
      typeof patterns === 'string' ||
      typeof patterns === 'number' ||
      Array.isArray(patterns)
    ) {
      patterns = { main: patterns }
    }

    const parsed = Object.keys(patterns).reduce((parsed, key) => {
      parsed[caseSensitive ? key : key.toLowerCase()] = toArray(
        patterns[key]
      ).map((pattern) => Wappalyzer.parsePattern(pattern, isRegex))

      return parsed
    }, {})

    return 'main' in parsed ? parsed.main : parsed
  },

  /**
   * Extract information from regex pattern.
   * @param {string|object} pattern
   */
  parsePattern(pattern, isRegex = true) {
    if (typeof pattern === 'object') {
      return Object.keys(pattern).reduce(
        (parsed, key) => ({
          ...parsed,
          [key]: Wappalyzer.parsePattern(pattern[key]),
        }),
        {}
      )
    } else {
      const { value, regex, confidence, version } = pattern
        .toString()
        .split('\\;')
        .reduce((attrs, attr, i) => {
          if (i) {
            // Key value pairs
            attr = attr.split(':')

            if (attr.length > 1) {
              attrs[attr.shift()] = attr.join(':')
            }
          } else {
            attrs.value = typeof pattern === 'number' ? pattern : attr

            attrs.regex = new RegExp(
              isRegex
                ? attr
                    // Escape slashes
                    .replace(/\//g, '\\/')
                    // Optimise quantifiers for long strings
                    .replace(/\\\+/g, '__escapedPlus__')
                    .replace(/\+/g, '{1,250}')
                    .replace(/\*/g, '{0,250}')
                    .replace(/__escapedPlus__/g, '\\+')
                : '',
              'i'
            )
          }

          return attrs
        }, {})

      return {
        value,
        regex,
        confidence: parseInt(confidence || 100, 10),
        version: version || '',
      }
    }
  },

  /**
   * @todo describe
   * @param {Object} technology
   * @param {String} type
   * @param {String} value
   */
  analyzeOneToOne(technology, type, value) {
    return technology[type].reduce((technologies, pattern) => {
      const startTime = Date.now()

      const matches = pattern.regex.exec(value)

      if (matches) {
        technologies.push({
          technology,
          pattern: {
            ...pattern,
            type,
            value,
            match: matches[0],
          },
          version: Wappalyzer.resolveVersion(pattern, value),
        })
      }

      benchmark(Date.now() - startTime, pattern, value, technology)

      return technologies
    }, [])
  },

  /**
   * @todo update
   * @param {Object} technology
   * @param {String} type
   * @param {Array} items
   */
  analyzeOneToMany(technology, type, items = []) {
    return items.reduce((technologies, value) => {
      const patterns = technology[type] || []

      patterns.forEach((pattern) => {
        const startTime = Date.now()

        const matches = pattern.regex.exec(value)

        if (matches) {
          technologies.push({
            technology,
            pattern: {
              ...pattern,
              type,
              value,
              match: matches[0],
            },
            version: Wappalyzer.resolveVersion(pattern, value),
          })
        }

        benchmark(Date.now() - startTime, pattern, value, technology)
      })

      return technologies
    }, [])
  },

  /**
   *
   * @param {Object} technology
   * @param {string} types
   * @param {Array} items
   */
  analyzeManyToMany(technology, types, items = {}) {
    const [type, ...subtypes] = types.split('.')

    return Object.keys(technology[type]).reduce((technologies, key) => {
      const patterns = technology[type][key] || []
      const values = items[key] || []

      patterns.forEach((_pattern) => {
        const pattern = (subtypes || []).reduce(
          (pattern, subtype) => pattern[subtype] || {},
          _pattern
        )

        values.forEach((value) => {
          const startTime = Date.now()

          const matches = pattern.regex.exec(value)

          if (matches) {
            technologies.push({
              technology,
              pattern: {
                ...pattern,
                type,
                value,
                match: matches[0],
              },
              version: Wappalyzer.resolveVersion(pattern, value),
            })
          }

          benchmark(Date.now() - startTime, pattern, value, technology)
        })
      })

      return technologies
    }, [])
  },
}

if (typeof module !== 'undefined') {
  module.exports = Wappalyzer
}