Ziele Untersuchung
mit Columbo Integrität von
Datenbanken Interaktion und
Portierbarkeit Ergonomie der
Schnittstellen

Angebot Produkte Projekt Beratung

Mittel Analytik Modellierung Sprachen Algebra Logik Hardware Denken Kreativität

Zusammenhänge Gesellschaft Wirtschaft Branche Firma


products/Sources/formale Sprachen/JAVA/Openclaw/src/shared/net/ (KI Agentensystem Version 22^©) Datei vom 26.3.2026 mit Größe 4 kB

Quelle ip.test.ts

Sprache: JAVA

import { describe, expect, it } from "vitest";
import { blockedIpv6MulticastLiterals } from "./ip-test-fixtures.js";
import {
  extractEmbeddedIpv4FromIpv6,
  isBlockedSpecialUseIpv4Address,
  isCanonicalDottedDecimalIPv4,
  isCarrierGradeNatIpv4Address,
  isIpInCidr,
  isIpv4Address,
  isIpv6Address,
  isLegacyIpv4Literal,
  isLoopbackIpAddress,
  isPrivateOrLoopbackIpAddress,
  isRfc1918Ipv4Address,
  normalizeIpAddress,
  parseCanonicalIpAddress,
  parseLooseIpAddress,
} from "./ip.js";

describe("shared ip helpers", () => {
  it("distinguishes canonical dotted IPv4 from legacy forms", () => {
    expect(isCanonicalDottedDecimalIPv4("127.0.0.1")).toBe(true);
    expect(isCanonicalDottedDecimalIPv4("0177.0.0.1")).toBe(false);
    expect(isLegacyIpv4Literal("0177.0.0.1")).toBe(true);
    expect(isLegacyIpv4Literal("127.1")).toBe(true);
    expect(isLegacyIpv4Literal("example.com")).toBe(false);
  });

  it("matches both IPv4 and IPv6 CIDRs", () => {
    expect(isIpInCidr("10.42.0.59", "10.42.0.0/24")).toBe(true);
    expect(isIpInCidr("10.43.0.59", "10.42.0.0/24")).toBe(false);
    expect(isIpInCidr("2001:db8::1234", "2001:db8::/32")).toBe(true);
    expect(isIpInCidr("2001:db9::1234", "2001:db8::/32")).toBe(false);
    expect(isIpInCidr("::ffff:127.0.0.1", "127.0.0.1")).toBe(true);
    expect(isIpInCidr("127.0.0.1", "::ffff:127.0.0.2")).toBe(false);
  });

  it("extracts embedded IPv4 for transition prefixes", () => {
    const cases = [
      ["::ffff:127.0.0.1", "127.0.0.1"],
      ["::127.0.0.1", "127.0.0.1"],
      ["64:ff9b::8.8.8.8", "8.8.8.8"],
      ["64:ff9b:1::10.0.0.1", "10.0.0.1"],
      ["2002:0808:0808::", "8.8.8.8"],
      ["2001::f7f7:f7f7", "8.8.8.8"],
      ["2001:4860:1::5efe:7f00:1", "127.0.0.1"],
    ] as const;
    for (const [ipv6Literal, expectedIpv4] of cases) {
      const parsed = parseCanonicalIpAddress(ipv6Literal);
      expect(parsed?.kind(), ipv6Literal).toBe("ipv6");
      if (!parsed || !isIpv6Address(parsed)) {
        continue;
      }
      expect(extractEmbeddedIpv4FromIpv6(parsed)?.toString(), ipv6Literal).toBe(expectedIpv4);
    }
  });

  it("treats blocked IPv6 classes as private/internal", () => {
    expect(isPrivateOrLoopbackIpAddress("fec0::1")).toBe(true);
    expect(isPrivateOrLoopbackIpAddress("2001:db8::1")).toBe(true);
    expect(isPrivateOrLoopbackIpAddress("2001:2::1")).toBe(true);
    expect(isPrivateOrLoopbackIpAddress("100::1")).toBe(true);
    expect(isPrivateOrLoopbackIpAddress("2001:20::1")).toBe(true);
    for (const literal of blockedIpv6MulticastLiterals) {
      expect(isPrivateOrLoopbackIpAddress(literal)).toBe(true);
    }
    expect(isPrivateOrLoopbackIpAddress("2001:4860:4860::8888")).toBe(false);
  });

  it("normalizes canonical IP strings and loopback detection", () => {
    expect(normalizeIpAddress("[::FFFF:127.0.0.1]")).toBe("127.0.0.1");
    expect(normalizeIpAddress("  [2001:DB8::1]  ")).toBe("2001:db8::1");
    expect(isLoopbackIpAddress("::ffff:127.0.0.1")).toBe(true);
    expect(isLoopbackIpAddress("198.18.0.1")).toBe(false);
  });

  it("parses loose legacy IPv4 literals that canonical parsing rejects", () => {
    expect(parseCanonicalIpAddress("0177.0.0.1")).toBeUndefined();
    expect(parseLooseIpAddress("0177.0.0.1")?.toString()).toBe("127.0.0.1");
    expect(parseLooseIpAddress("[::1]")?.toString()).toBe("::1");
  });

  it("classifies RFC1918 and carrier-grade-nat IPv4 ranges", () => {
    expect(isRfc1918Ipv4Address("10.42.0.59")).toBe(true);
    expect(isRfc1918Ipv4Address("100.64.0.1")).toBe(false);
    expect(isCarrierGradeNatIpv4Address("100.64.0.1")).toBe(true);
    expect(isCarrierGradeNatIpv4Address("10.42.0.59")).toBe(false);
  });

  it("blocks special-use IPv4 ranges while allowing optional RFC2544 benchmark addresses", () => {
    const loopback = parseCanonicalIpAddress("127.0.0.1");
    const benchmark = parseCanonicalIpAddress("198.18.0.1");

    expect(loopback?.kind()).toBe("ipv4");
    expect(benchmark?.kind()).toBe("ipv4");
    if (!loopback || !isIpv4Address(loopback) || !benchmark || !isIpv4Address(benchmark)) {
      throw new Error("expected ipv4 fixtures");
    }

    expect(isBlockedSpecialUseIpv4Address(loopback)).toBe(true);
    expect(isBlockedSpecialUseIpv4Address(benchmark)).toBe(true);
    expect(isBlockedSpecialUseIpv4Address(benchmark, { allowRfc2544BenchmarkRange: true })).toBe(
      false,
    );
  });
});

Messung V0.5 in Prozent

¤ Dauer der Verarbeitung: 0.4 Sekunden ¤

Wurzel

Suchen

Beweissystem der NASA

Beweissystem Isabelle

NIST Cobol Testsuite

Cephes Mathematical Library

Wiener Entwicklungsmethode

Haftungshinweis

Die Informationen auf dieser Webseite wurden nach bestem Wissen sorgfältig zusammengestellt. Es wird jedoch weder Vollständigkeit, noch Richtigkeit, noch Qualität der bereit gestellten Informationen zugesichert.