tomato-testing/toxcore/group_moderation_test.cc

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#include "group_moderation.h"
#include <gtest/gtest.h>
#include <algorithm>
#include <array>
#include <vector>
#include "crypto_core.h"
#include "logger.h"
#include "util.h"
namespace {
using ExtPublicKey = std::array<uint8_t, EXT_PUBLIC_KEY_SIZE>;
using ExtSecretKey = std::array<uint8_t, EXT_SECRET_KEY_SIZE>;
using ModerationHash = std::array<uint8_t, MOD_MODERATION_HASH_SIZE>;
TEST(ModList, PackedSizeOfEmptyModListIsZero)
{
Moderation mods{system_memory()};
EXPECT_EQ(mod_list_packed_size(&mods), 0);
uint8_t byte = 1;
mod_list_pack(&mods, &byte);
EXPECT_EQ(byte, 1);
}
TEST(ModList, UnpackingZeroSizeArrayIsNoop)
{
Moderation mods{system_memory()};
const uint8_t byte = 1;
EXPECT_EQ(mod_list_unpack(&mods, &byte, 0, 0), 0);
}
TEST(ModList, AddRemoveMultipleMods)
{
Moderation mods{system_memory()};
uint8_t sig_pk1[32] = {1};
uint8_t sig_pk2[32] = {2};
EXPECT_TRUE(mod_list_add_entry(&mods, sig_pk1));
EXPECT_TRUE(mod_list_add_entry(&mods, sig_pk2));
EXPECT_TRUE(mod_list_remove_entry(&mods, sig_pk1));
EXPECT_TRUE(mod_list_remove_entry(&mods, sig_pk2));
}
TEST(ModList, PackingAndUnpackingList)
{
using ModListEntry = std::array<uint8_t, MOD_LIST_ENTRY_SIZE>;
Moderation mods{system_memory()};
EXPECT_TRUE(mod_list_add_entry(&mods, ModListEntry{}.data()));
std::vector<uint8_t> packed(mod_list_packed_size(&mods));
mod_list_pack(&mods, packed.data());
EXPECT_TRUE(mod_list_remove_entry(&mods, ModListEntry{}.data()));
Moderation mods2{system_memory()};
EXPECT_EQ(mod_list_unpack(&mods2, packed.data(), packed.size(), 1), packed.size());
EXPECT_TRUE(mod_list_remove_entry(&mods2, ModListEntry{}.data()));
}
TEST(ModList, UnpackingTooManyModsFails)
{
using ModListEntry = std::array<uint8_t, MOD_LIST_ENTRY_SIZE>;
Moderation mods{system_memory()};
EXPECT_TRUE(mod_list_add_entry(&mods, ModListEntry{}.data()));
std::vector<uint8_t> packed(mod_list_packed_size(&mods));
mod_list_pack(&mods, packed.data());
Moderation mods2{system_memory()};
EXPECT_EQ(mod_list_unpack(&mods2, packed.data(), packed.size(), 2), -1);
EXPECT_TRUE(mod_list_remove_entry(&mods, ModListEntry{}.data()));
}
TEST(ModList, UnpackingFromEmptyBufferFails)
{
std::vector<uint8_t> packed(1);
Moderation mods{system_memory()};
EXPECT_EQ(mod_list_unpack(&mods, packed.end().base(), 0, 1), -1);
}
TEST(ModList, HashOfEmptyModListZeroesOutBuffer)
{
const Random *rng = system_random();
ASSERT_NE(rng, nullptr);
Moderation mods{system_memory()};
// Fill with random data, check that it's zeroed.
ModerationHash hash;
random_bytes(rng, hash.data(), hash.size());
EXPECT_TRUE(mod_list_make_hash(&mods, hash.data()));
EXPECT_EQ(hash, ModerationHash{});
}
TEST(ModList, RemoveIndexFromEmptyModListFails)
{
Moderation mods{system_memory()};
EXPECT_FALSE(mod_list_remove_index(&mods, 0));
EXPECT_FALSE(mod_list_remove_index(&mods, UINT16_MAX));
}
TEST(ModList, RemoveEntryFromEmptyModListFails)
{
Moderation mods{system_memory()};
uint8_t sig_pk[32] = {0};
EXPECT_FALSE(mod_list_remove_entry(&mods, sig_pk));
}
TEST(ModList, ModListRemoveIndex)
{
Moderation mods{system_memory()};
uint8_t sig_pk[32] = {1};
EXPECT_TRUE(mod_list_add_entry(&mods, sig_pk));
EXPECT_TRUE(mod_list_remove_index(&mods, 0));
}
TEST(ModList, CleanupOnEmptyModsIsNoop)
{
Moderation mods{system_memory()};
mod_list_cleanup(&mods);
}
TEST(ModList, EmptyModListCannotVerifyAnySigPk)
{
Moderation mods{system_memory()};
uint8_t sig_pk[32] = {1};
EXPECT_FALSE(mod_list_verify_sig_pk(&mods, sig_pk));
}
TEST(ModList, ModListAddVerifyRemoveSigPK)
{
Moderation mods{system_memory()};
uint8_t sig_pk[32] = {1};
EXPECT_TRUE(mod_list_add_entry(&mods, sig_pk));
EXPECT_TRUE(mod_list_verify_sig_pk(&mods, sig_pk));
EXPECT_TRUE(mod_list_remove_entry(&mods, sig_pk));
EXPECT_FALSE(mod_list_verify_sig_pk(&mods, sig_pk));
}
TEST(ModList, ModListHashCheck)
{
Moderation mods1{system_memory()};
uint8_t sig_pk1[32] = {1};
std::array<uint8_t, MOD_MODERATION_HASH_SIZE> hash1;
EXPECT_TRUE(mod_list_add_entry(&mods1, sig_pk1));
EXPECT_TRUE(mod_list_make_hash(&mods1, hash1.data()));
EXPECT_TRUE(mod_list_remove_entry(&mods1, sig_pk1));
}
TEST(SanctionsList, PackingIntoUndersizedBufferFails)
{
Mod_Sanction sanctions[1] = {};
std::array<uint8_t, 1> packed;
EXPECT_EQ(sanctions_list_pack(packed.data(), packed.size(), sanctions, 1, nullptr), -1);
uint16_t length = sanctions_list_packed_size(1) - 1;
std::vector<uint8_t> packed2(length);
EXPECT_EQ(sanctions_list_pack(packed2.data(), packed2.size(), sanctions, 1, nullptr), -1);
}
TEST(SanctionsList, PackUnpackSanctionsCreds)
{
Moderation mod{system_memory()};
std::array<uint8_t, MOD_SANCTIONS_CREDS_SIZE> packed;
EXPECT_EQ(sanctions_creds_pack(&mod.sanctions_creds, packed.data()), MOD_SANCTIONS_CREDS_SIZE);
EXPECT_EQ(
sanctions_creds_unpack(&mod.sanctions_creds, packed.data()), MOD_SANCTIONS_CREDS_SIZE);
}
struct SanctionsListMod : ::testing::Test {
protected:
ExtPublicKey pk;
ExtSecretKey sk;
Logger *log = logger_new();
Moderation mod{system_memory()};
Mod_Sanction sanctions[2] = {};
const uint8_t sanctioned_pk1[32] = {1};
const uint8_t sanctioned_pk2[32] = {2};
void SetUp() override
{
ASSERT_TRUE(create_extended_keypair(pk.data(), sk.data()));
mod.log = log;
memcpy(mod.self_public_sig_key, get_sig_pk(pk.data()), SIG_PUBLIC_KEY_SIZE);
memcpy(mod.self_secret_sig_key, get_sig_sk(sk.data()), SIG_SECRET_KEY_SIZE);
ASSERT_TRUE(mod_list_add_entry(&mod, get_sig_pk(pk.data())));
EXPECT_FALSE(sanctions_list_check_integrity(&mod, &mod.sanctions_creds, &sanctions[0], 0));
EXPECT_FALSE(sanctions_list_check_integrity(&mod, &mod.sanctions_creds, &sanctions[0], 1));
EXPECT_FALSE(
sanctions_list_check_integrity(&mod, &mod.sanctions_creds, &sanctions[0], UINT16_MAX));
EXPECT_TRUE(sanctions_list_make_entry(&mod, sanctioned_pk1, &sanctions[0], SA_OBSERVER));
EXPECT_TRUE(sanctions_list_check_integrity(
&mod, &mod.sanctions_creds, sanctions, mod.num_sanctions));
EXPECT_TRUE(sanctions_list_make_entry(&mod, sanctioned_pk2, &sanctions[1], SA_OBSERVER));
EXPECT_TRUE(sanctions_list_check_integrity(
&mod, &mod.sanctions_creds, sanctions, mod.num_sanctions));
}
~SanctionsListMod() override
{
EXPECT_TRUE(sanctions_list_remove_observer(&mod, sanctioned_pk1, nullptr));
EXPECT_TRUE(sanctions_list_remove_observer(&mod, sanctioned_pk2, nullptr));
EXPECT_FALSE(sanctions_list_entry_exists(&mod, &sanctions[0]));
EXPECT_FALSE(sanctions_list_entry_exists(&mod, &sanctions[1]));
EXPECT_TRUE(mod_list_remove_entry(&mod, get_sig_pk(pk.data())));
logger_kill(log);
}
};
// TODO(JFreegman): Split this up into smaller subtests
TEST_F(SanctionsListMod, PackUnpackSanction)
{
std::vector<uint8_t> packed(sanctions_list_packed_size(2));
EXPECT_EQ(
sanctions_list_pack(packed.data(), packed.size(), sanctions, 2, nullptr), packed.size());
Mod_Sanction unpacked_sanctions[2] = {};
uint16_t processed_data_len = 0;
EXPECT_EQ(sanctions_list_unpack(unpacked_sanctions, &mod.sanctions_creds, 2, packed.data(),
packed.size(), &processed_data_len),
2);
EXPECT_EQ(processed_data_len, packed.size());
EXPECT_TRUE(sanctions_list_check_integrity(
&mod, &mod.sanctions_creds, unpacked_sanctions, mod.num_sanctions));
EXPECT_TRUE(sanctions_list_entry_exists(&mod, &unpacked_sanctions[0]));
EXPECT_TRUE(sanctions_list_entry_exists(&mod, &unpacked_sanctions[1]));
}
TEST_F(SanctionsListMod, ReplaceSanctionSignatures)
{
EXPECT_EQ(sanctions_list_replace_sig(&mod, mod.self_public_sig_key), mod.num_sanctions);
EXPECT_TRUE(
sanctions_list_check_integrity(&mod, &mod.sanctions_creds, sanctions, mod.num_sanctions));
}
} // namespace