// Copyright 2015 The Chromium Authors. All rights reserved.
// Use of this source code is governed by a BSD-style license that can be
// found in the LICENSE file.

#include "base/base64url.h"

#include "base/macros.h"
#include "testing/gtest/include/gtest/gtest.h"

namespace base {

namespace {

TEST(Base64UrlTest, EncodeIncludePaddingPolicy) {
  std::string output;
  Base64UrlEncode("hello?world", Base64UrlEncodePolicy::INCLUDE_PADDING,
                  &output);

  // Base64 version: aGVsbG8/d29ybGQ=
  EXPECT_EQ("aGVsbG8_d29ybGQ=", output);

  // Test for behavior for very short and empty strings.
  Base64UrlEncode("??", Base64UrlEncodePolicy::INCLUDE_PADDING, &output);
  EXPECT_EQ("Pz8=", output);

  Base64UrlEncode("", Base64UrlEncodePolicy::INCLUDE_PADDING, &output);
  EXPECT_EQ("", output);
}

TEST(Base64UrlTest, EncodeOmitPaddingPolicy) {
  std::string output;
  Base64UrlEncode("hello?world", Base64UrlEncodePolicy::OMIT_PADDING, &output);

  // base64 version: aGVsbG8/d29ybGQ=
  EXPECT_EQ("aGVsbG8_d29ybGQ", output);

  // Test for behavior for very short and empty strings.
  Base64UrlEncode("??", Base64UrlEncodePolicy::OMIT_PADDING, &output);
  EXPECT_EQ("Pz8", output);

  Base64UrlEncode("", Base64UrlEncodePolicy::OMIT_PADDING, &output);
  EXPECT_EQ("", output);
}

TEST(Base64UrlTest, DecodeRequirePaddingPolicy) {
  std::string output;
  ASSERT_TRUE(Base64UrlDecode("aGVsbG8_d29ybGQ=",
                              Base64UrlDecodePolicy::REQUIRE_PADDING, &output));

  EXPECT_EQ("hello?world", output);

  ASSERT_FALSE(Base64UrlDecode(
      "aGVsbG8_d29ybGQ", Base64UrlDecodePolicy::REQUIRE_PADDING, &output));

  // Test for behavior for very short and empty strings.
  ASSERT_TRUE(
      Base64UrlDecode("Pz8=", Base64UrlDecodePolicy::REQUIRE_PADDING, &output));
  EXPECT_EQ("??", output);

  ASSERT_TRUE(
      Base64UrlDecode("", Base64UrlDecodePolicy::REQUIRE_PADDING, &output));
  EXPECT_EQ("", output);
}

TEST(Base64UrlTest, DecodeIgnorePaddingPolicy) {
  std::string output;
  ASSERT_TRUE(Base64UrlDecode("aGVsbG8_d29ybGQ",
                              Base64UrlDecodePolicy::IGNORE_PADDING, &output));

  EXPECT_EQ("hello?world", output);

  // Including the padding is accepted as well.
  ASSERT_TRUE(Base64UrlDecode("aGVsbG8_d29ybGQ=",
                              Base64UrlDecodePolicy::IGNORE_PADDING, &output));

  EXPECT_EQ("hello?world", output);
}

TEST(Base64UrlTest, DecodeDisallowPaddingPolicy) {
  std::string output;
  ASSERT_FALSE(Base64UrlDecode(
      "aGVsbG8_d29ybGQ=", Base64UrlDecodePolicy::DISALLOW_PADDING, &output));

  // The policy will allow the input when padding has been omitted.
  ASSERT_TRUE(Base64UrlDecode(
      "aGVsbG8_d29ybGQ", Base64UrlDecodePolicy::DISALLOW_PADDING, &output));

  EXPECT_EQ("hello?world", output);
}

TEST(Base64UrlTest, DecodeDisallowsBase64Alphabet) {
  std::string output;

  // The "/" character is part of the conventional base64 alphabet, but has been
  // substituted with "_" in the base64url alphabet.
  ASSERT_FALSE(Base64UrlDecode(
      "aGVsbG8/d29ybGQ=", Base64UrlDecodePolicy::REQUIRE_PADDING, &output));
}

TEST(Base64UrlTest, DecodeDisallowsPaddingOnly) {
  std::string output;

  ASSERT_FALSE(Base64UrlDecode(
      "=", Base64UrlDecodePolicy::IGNORE_PADDING, &output));
  ASSERT_FALSE(Base64UrlDecode(
      "==", Base64UrlDecodePolicy::IGNORE_PADDING, &output));
  ASSERT_FALSE(Base64UrlDecode(
      "===", Base64UrlDecodePolicy::IGNORE_PADDING, &output));
  ASSERT_FALSE(Base64UrlDecode(
      "====", Base64UrlDecodePolicy::IGNORE_PADDING, &output));
}

}  // namespace

}  // namespace base