Green Sky
aae086cc65
b03b571272 fix: flaky tcp test This only fixes the symptoms, not the real problem. Sometimes or consistently on some platforms a socket might need a moment before it can be written to. 32e67ab4c2 cleanup: use typedef for private message ID's in callback 7b1db6adc1 feat: add message IDs to private group messages 99e0bcc27d refactor: Observers/ignored peers can now send and receive custom packets b3c3c49d26 fix: Disable IPv6 in Windows cross-compilation tests e742deddff feat: Check hashes of Windows dependencies when cross-compiling dfb9a0b02b fix: Test the current Windows Dockerfile, not an old Dockerhub image 14de93ccec chore: Use WineHQ's Wine as Debian Bookworm's crashes ed37616249 docs: Update the Windows cross-compilation section 9bb79c174f cleanup: Remove a couple of unnecessary misc_tools dependencies 19475adb70 chore: Statically link OpenMP into the cracker fun util on Windows 1be311e51f feat: Build the fun utils when cross-compiling to Windows 88133f8446 chore: Strip Windows binaries 3cc0ae7535 refactor: Copy over all of the required static dependencies c4fa8f7fb1 feat: Generate .def, .exp and .lib files when building for Windows 74bbac5363 feat: Let CMake create the dll instead of doing so ourselves 246642e9ae feat: Harden Windows cross-compilation 8d431c0d11 chore: Bump Windows build dependency versions e519f7998b fix: Remove unnecessary wsock32 dependency on Windows ed2b60c217 chore: Use a specific non-broken slimcc version. d7f21010a1 chore: Update github actions. e71a68b7f2 docs: Update the list of CMake options 77e08876ff chore: Remove mod and founder from group API naming scheme 12bc042767 docs: add the experimental api build option to INSTALL.md e1fa5cae96 refactor: Rename Queries to Query to align with other enums. be82a3ea30 fix: Correct type for conference offline peer numbers. 0627c36716 test: Add pkgsrc build. 92578afe4b test: Add FreeBSD VM action on GitHub. 52ece0f57b test: Build toxcore on NetBSD (VM). 3fe8ee2c11 chore: Only install tox_private.h on request. 9a8dfa06ab fix: save_compatibility_test failing on big-endian systems 86f5e55578 fix: Don't serve files from websockify. 710eb674a5 fix: Correctly pass extended public keys to group moderation code. 021db7031c refactor: Use `struct`s for extended public/secret keys. a1e999fd80 chore: Compile libsodium reference implementation with compcert. fbe3c19cf5 cleanup: correct a few nullable annotations 623e3ee5c3 cleanup: Don't use `memcpy` to cast arbitrary `struct`s to `uint8_t[]`. c71567dc18 fix: Pass array, not array pointer, to `memcmp`. 9b46a08144 cleanup: Never pass `void*` directly to `memcpy`. 5d7b7a7bbc refactor: Use tox rng to seed the keypair generation. 961891d568 cleanup: Small improvements found by PVS Studio. 8201019f0d chore: Disable NGC saving by default, enable through Tox_Options. 5dd9ee3f65 cleanup: Replace pointer arithmetic with explicit `&arr[i]`. ca4606d49d refactor: Use strong typedef for NGC peer id. 442213b722 cleanup: Simplify custom packet length check in NGC. 08d3393def fix: Correct a few potential null derefs in bootstrap daemon. b9877b32b0 fix: Add missing memunlock of local variable when it goes out of scope. dab5fe44b9 fix: Zero out stack-allocated secret key before return. f058103299 refactor: Make prune_gc_sanctions_list more obviously correct. 3ba7a0dec9 docs: Add static analysis tool list to README. 8d0811a0f3 docs: Run prettier-markdown on markdown files. 969e3a2bfc refactor: Fix network test not using the strong typedef 93c83fbc7c refactor: Use strong typedef instead of struct for `Socket`. 9fe18b176f fix: Fix some false positive from PVS Studio. 7c44379ccb cleanup: Check that WINXP macro exists before comparing it. 5c93231bef refactor: Make tox mutex non-recursive. aacff73939 docs: Fix up doxyfile. d55fc85ff5 docs: Add more documentation to crypto_core. 5bdaaaedb6 refactor: Remove `Tox *` from `tox_dispatch`. e202341e76 refactor: Don't rely on tox_dispatch passing tox in tests. 34df938f52 chore: Use C++ mode for clang-tidy. 8b05296a78 chore: Check that both gtest and gmock exist for tests. 42010660e1 test: Add slimcc compiler compatibility test. b473630321 chore: Add some comments to the astyle config. b7404f24f6 cleanup: Remove implicit bool conversions. 4e2dba4d9f chore: Reformat sources with astyle. 4359e3a6bc chore: Rename C++ headers to .hh suffixes. 0c05566e58 cleanup: Further `#include` cleanups. 8d29935b7a chore: Only check the bootstrap daemon checksum on release. f70e588bc6 cleanup: Add more `const` where possible. 511bfe39c8 cleanup: Use Bazel modules to enforce proper `#include` hygiene. 1710a0d091 refactor: Move pack/unpack `IP_Port` from DHT into network module. a975943564 chore: Really fix coverage docker image build. c08409390f chore: Fix post-submit coverage image. 39aadf8922 fix: Don't use `memcmp` to compare `IP_Port`s. d94246a906 fix: partially fix a bug that prevented group part messages from sending. eeaa039222 chore: Fix rpm build; add a CI check for it. 8328449c1a chore: Speed up docker builds a bit by reducing layer count. d6d67d56f3 cleanup: Add `const` where possible in auto tests. 6aa9e6850d cleanup: Minor cleanup of event unpack code. bdf460a3a9 refactor: Rename `system_{memory,...}` to `os_{memory,...}`. 203e1af81e fix: a few off by one errors in group autotests 5c093c4888 cleanup: Remove all uses of `SIZEOF_VLA`. 662c2140f3 test: Add goblint static analyser. 8f07755834 cleanup: Use `memzero(x, s)` instead of `memset(x, 0, s)`. a7258e40cf cleanup: Use explicit 0 instead of `PACKET_ID_PADDING`. 6370d0f15d cleanup: Expand the `Tox_Options` accessor macros. 14a1a0b9bd cleanup: Remove plan9 support. a05dccad13 test: Add a simple new/delete test for Tox. 1cdcf938b9 cleanup: Add comment after every `#endif`. ba99d4dc4b test: Fix comment I broke in the events test PR. e07248debb refactor: Migrate auto_tests to new events API. bdd42b5452 refactor: Add common msgpack array packer with callback. 3c659f5288 cleanup: Rename group to conference in groupav documentation. 89957be230 cleanup: Ensure handler params are named after callback params. c650d9d345 refactor: Pass `this` pointer as first param to s11n callbacks. e7fb91ddb8 refactor: Allow NULL pointers for byte arrays in events. 5e2c8cabc1 cleanup: make some improvements to group moderation test 259de4867e cleanup: Remove `bin_pack_{new,free}`. 21a8ff5895 cleanup: skip a do_gc iteration before removing peers marked for deletion 16809dc36e feat: Add dht_get_nodes_response event to the events system. git-subtree-dir: external/toxcore/c-toxcore git-subtree-split: b03b5712720de9a9901ea12fd741f177327a7021
380 lines
13 KiB
C++
380 lines
13 KiB
C++
#include "DHT.h"
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#include <gmock/gmock.h>
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#include <gtest/gtest.h>
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#include <algorithm>
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#include <array>
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#include <cstring>
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#include <random>
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#include "DHT_test_util.hh"
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#include "crypto_core.h"
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#include "crypto_core_test_util.hh"
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#include "logger.h"
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#include "mem_test_util.hh"
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#include "mono_time.h"
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#include "network.h"
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#include "network_test_util.hh"
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#include "test_util.hh"
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namespace {
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using ::testing::Each;
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using ::testing::ElementsAre;
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using ::testing::Eq;
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using ::testing::PrintToString;
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using ::testing::UnorderedElementsAre;
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using SecretKey = std::array<uint8_t, CRYPTO_SECRET_KEY_SIZE>;
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struct KeyPair {
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PublicKey pk;
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SecretKey sk;
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explicit KeyPair(const Random *rng) { crypto_new_keypair(rng, pk.data(), sk.data()); }
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};
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TEST(IdClosest, KeyIsClosestToItself)
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{
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Test_Random rng;
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PublicKey pk0 = random_pk(rng);
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PublicKey pk1;
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do {
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// Get a random key that's not the same as pk0.
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pk1 = random_pk(rng);
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} while (pk0 == pk1);
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EXPECT_EQ(id_closest(pk0.data(), pk0.data(), pk1.data()), 1);
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}
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TEST(IdClosest, IdenticalKeysAreSameDistance)
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{
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Test_Random rng;
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PublicKey pk0 = random_pk(rng);
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PublicKey pk1 = random_pk(rng);
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EXPECT_EQ(id_closest(pk0.data(), pk1.data(), pk1.data()), 0);
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}
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TEST(IdClosest, DistanceIsCommutative)
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{
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Test_Random rng;
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PublicKey pk0 = random_pk(rng);
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PublicKey pk1 = random_pk(rng);
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PublicKey pk2 = random_pk(rng);
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ASSERT_NE(pk1, pk2); // RNG can't produce the same random key twice
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// Two non-equal keys can't have the same distance from any given key.
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EXPECT_NE(id_closest(pk0.data(), pk1.data(), pk2.data()), 0);
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if (id_closest(pk0.data(), pk1.data(), pk2.data()) == 1) {
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EXPECT_EQ(id_closest(pk0.data(), pk2.data(), pk1.data()), 2);
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}
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if (id_closest(pk0.data(), pk1.data(), pk2.data()) == 2) {
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EXPECT_EQ(id_closest(pk0.data(), pk2.data(), pk1.data()), 1);
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}
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}
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TEST(IdClosest, SmallXorDistanceIsCloser)
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{
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PublicKey const pk0 = {0xaa};
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PublicKey const pk1 = {0xa0};
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PublicKey const pk2 = {0x0a};
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EXPECT_EQ(id_closest(pk0.data(), pk1.data(), pk2.data()), 1);
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}
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TEST(IdClosest, DistinctKeysCannotHaveTheSameDistance)
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{
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PublicKey const pk0 = {0x06};
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PublicKey const pk1 = {0x00};
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PublicKey pk2 = {0x00};
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for (uint8_t i = 1; i < 0xff; ++i) {
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pk2[0] = i;
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EXPECT_NE(id_closest(pk0.data(), pk1.data(), pk2.data()), 0);
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}
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}
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TEST(AddToList, OverridesKeysWithCloserKeys)
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{
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PublicKey const self_pk = {0xaa};
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PublicKey const keys[] = {
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{0xa0}, // closest
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{0x0a}, //
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{0x0b}, //
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{0x0c}, //
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{0x0d}, //
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{0xa1}, // closer than the 4 keys above
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};
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std::array<Node_format, 4> nodes{};
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IP_Port ip_port = {0};
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EXPECT_TRUE(add_to_list(nodes.data(), nodes.size(), keys[0].data(), &ip_port, self_pk.data()));
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EXPECT_TRUE(add_to_list(nodes.data(), nodes.size(), keys[1].data(), &ip_port, self_pk.data()));
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EXPECT_TRUE(add_to_list(nodes.data(), nodes.size(), keys[2].data(), &ip_port, self_pk.data()));
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EXPECT_TRUE(add_to_list(nodes.data(), nodes.size(), keys[3].data(), &ip_port, self_pk.data()));
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EXPECT_EQ(to_array(nodes[0].public_key), keys[0]);
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EXPECT_EQ(to_array(nodes[1].public_key), keys[1]);
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EXPECT_EQ(to_array(nodes[2].public_key), keys[2]);
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EXPECT_EQ(to_array(nodes[3].public_key), keys[3]);
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// key 4 is less close than keys 0-3
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EXPECT_FALSE(add_to_list(nodes.data(), nodes.size(), keys[4].data(), &ip_port, self_pk.data()));
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// 5 is closer than all except key 0
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EXPECT_TRUE(add_to_list(nodes.data(), nodes.size(), keys[5].data(), &ip_port, self_pk.data()));
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EXPECT_EQ(to_array(nodes[0].public_key), keys[0]);
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EXPECT_EQ(to_array(nodes[1].public_key), keys[5]);
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EXPECT_EQ(to_array(nodes[2].public_key), keys[1]);
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EXPECT_EQ(to_array(nodes[3].public_key), keys[2]);
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}
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Node_format fill(Node_format v, PublicKey const &pk, IP_Port const &ip_port)
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{
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std::copy(pk.begin(), pk.end(), v.public_key);
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v.ip_port = ip_port;
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return v;
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}
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TEST(AddToList, AddsFirstKeysInOrder)
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{
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Test_Random rng;
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// Make cmp_key the furthest away from 00000... as possible, so all initial inserts succeed.
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PublicKey const cmp_pk{0xff, 0xff, 0xff, 0xff};
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// Generate a bunch of other keys, sorted by distance from cmp_pk.
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auto const keys
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= sorted(array_of<20>(random_pk, rng), [&cmp_pk](auto const &pk1, auto const &pk2) {
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return id_closest(cmp_pk.data(), pk1.data(), pk2.data()) == 1;
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});
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auto const ips = array_of<20>(increasing_ip_port(0, rng));
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std::vector<Node_format> nodes(4);
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// Add a bunch of nodes.
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ASSERT_TRUE(add_to_list(nodes.data(), nodes.size(), keys[2].data(), &ips[2], cmp_pk.data()))
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<< "failed to insert\n"
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<< " cmp_pk = " << cmp_pk << "\n"
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<< " pk = " << keys[2] << "\n"
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<< " nodes_list = " << PrintToString(nodes);
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ASSERT_TRUE(add_to_list(nodes.data(), nodes.size(), keys[5].data(), &ips[5], cmp_pk.data()))
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<< "failed to insert\n"
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<< " cmp_pk = " << cmp_pk << "\n"
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<< " pk = " << keys[5] << "\n"
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<< " nodes_list = " << PrintToString(nodes);
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ASSERT_TRUE(add_to_list(nodes.data(), nodes.size(), keys[7].data(), &ips[7], cmp_pk.data()))
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<< "failed to insert\n"
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<< " cmp_pk = " << cmp_pk << "\n"
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<< " pk = " << keys[7] << "\n"
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<< " nodes_list = " << PrintToString(nodes);
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ASSERT_TRUE(add_to_list(nodes.data(), nodes.size(), keys[9].data(), &ips[9], cmp_pk.data()))
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<< "failed to insert\n"
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<< " cmp_pk = " << cmp_pk << "\n"
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<< " pk = " << keys[9] << "\n"
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<< " nodes_list = " << PrintToString(nodes);
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// They should all appear in order.
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EXPECT_THAT(nodes,
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ElementsAre( //
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fill(Node_format{}, keys[2], ips[2]), //
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fill(Node_format{}, keys[5], ips[5]), //
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fill(Node_format{}, keys[7], ips[7]), //
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fill(Node_format{}, keys[9], ips[9])));
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// Adding another node that's further away will not happen.
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ASSERT_FALSE(add_to_list(nodes.data(), nodes.size(), keys[10].data(), &ips[10], cmp_pk.data()))
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<< "incorrectly inserted\n"
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<< " cmp_pk = " << cmp_pk << "\n"
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<< " pk = " << keys[10] << "\n"
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<< " nodes_list = " << PrintToString(nodes);
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// Now shuffle each time we add a node, which should work fine.
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std::mt19937 mt_rng;
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// Adding one that's closer will happen.
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std::shuffle(nodes.begin(), nodes.end(), mt_rng);
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ASSERT_TRUE(add_to_list(nodes.data(), nodes.size(), keys[8].data(), &ips[8], cmp_pk.data()))
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<< "failed to insert\n"
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<< " cmp_pk = " << cmp_pk << "\n"
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<< " pk = " << keys[8] << "\n"
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<< " nodes_list = " << PrintToString(nodes);
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EXPECT_THAT(nodes,
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UnorderedElementsAre( //
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fill(Node_format{}, keys[2], ips[2]), //
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fill(Node_format{}, keys[5], ips[5]), //
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fill(Node_format{}, keys[7], ips[7]), //
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fill(Node_format{}, keys[8], ips[8])));
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// Adding one that's closer than almost all of them will happen.
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std::shuffle(nodes.begin(), nodes.end(), mt_rng);
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ASSERT_TRUE(add_to_list(nodes.data(), nodes.size(), keys[4].data(), &ips[4], cmp_pk.data()))
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<< "failed to insert\n"
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<< " cmp_pk = " << cmp_pk << "\n"
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<< " pk = " << keys[4] << "\n"
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<< " nodes_list = " << PrintToString(nodes);
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EXPECT_THAT(nodes,
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UnorderedElementsAre( //
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fill(Node_format{}, keys[2], ips[2]), //
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fill(Node_format{}, keys[4], ips[4]), //
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fill(Node_format{}, keys[5], ips[5]), //
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fill(Node_format{}, keys[7], ips[7])));
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// Adding one that's closer than all of them will happen.
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std::shuffle(nodes.begin(), nodes.end(), mt_rng);
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ASSERT_TRUE(add_to_list(nodes.data(), nodes.size(), keys[1].data(), &ips[1], cmp_pk.data()))
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<< "failed to insert\n"
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<< " cmp_pk = " << cmp_pk << "\n"
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<< " pk = " << keys[1] << "\n"
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<< " nodes_list = " << PrintToString(nodes);
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EXPECT_THAT(nodes,
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UnorderedElementsAre( //
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fill(Node_format{}, keys[1], ips[1]), //
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fill(Node_format{}, keys[2], ips[2]), //
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fill(Node_format{}, keys[4], ips[4]), //
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fill(Node_format{}, keys[5], ips[5])));
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}
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TEST(AddToList, KeepsKeysInOrder)
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{
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Test_Random rng;
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// Any random cmp_pk should work, as well as the smallest or (approximately) largest pk.
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for (PublicKey const cmp_pk : {random_pk(rng), PublicKey{0x00}, PublicKey{0xff, 0xff}}) {
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auto const by_distance = [&cmp_pk](auto const &node1, auto const &node2) {
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return id_closest(cmp_pk.data(), node1.public_key, node2.public_key) == 1;
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};
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// Generate a bunch of other keys, not sorted.
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auto const nodes = vector_of(16, random_node_format, rng);
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std::vector<Node_format> node_list(4);
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// Add all of them.
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for (Node_format const &node : nodes) {
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add_to_list(
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node_list.data(), node_list.size(), node.public_key, &node.ip_port, cmp_pk.data());
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// Nodes should always be sorted.
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EXPECT_THAT(node_list, Eq(sorted(node_list, by_distance)));
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}
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}
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}
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TEST(Request, CreateAndParse)
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{
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Test_Random rng;
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// Peers.
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const KeyPair sender(rng);
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const KeyPair receiver(rng);
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const uint8_t sent_pkt_id = CRYPTO_PACKET_FRIEND_REQ;
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// Encoded packet.
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std::array<uint8_t, MAX_CRYPTO_REQUEST_SIZE> packet;
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// Received components.
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PublicKey pk;
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std::array<uint8_t, MAX_CRYPTO_REQUEST_SIZE> incoming;
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uint8_t recvd_pkt_id;
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// Request data: maximum payload is 918 bytes, so create a payload 1 byte larger than max.
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std::vector<uint8_t> outgoing(919);
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random_bytes(rng, outgoing.data(), outgoing.size());
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EXPECT_LT(create_request(rng, sender.pk.data(), sender.sk.data(), packet.data(),
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receiver.pk.data(), outgoing.data(), outgoing.size(), sent_pkt_id),
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0);
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// Pop one element so the payload is 918 bytes. Packing should now succeed.
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outgoing.pop_back();
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const int max_sent_length = create_request(rng, sender.pk.data(), sender.sk.data(),
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packet.data(), receiver.pk.data(), outgoing.data(), outgoing.size(), sent_pkt_id);
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ASSERT_GT(max_sent_length, 0); // success.
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// Check that handle_request rejects packets larger than the maximum created packet size.
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EXPECT_LT(handle_request(receiver.pk.data(), receiver.sk.data(), pk.data(), incoming.data(),
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&recvd_pkt_id, packet.data(), max_sent_length + 1),
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0);
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// Now try all possible packet sizes from max (918) to 0.
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while (!outgoing.empty()) {
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// Pack:
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const int sent_length = create_request(rng, sender.pk.data(), sender.sk.data(),
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packet.data(), receiver.pk.data(), outgoing.data(), outgoing.size(), sent_pkt_id);
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ASSERT_GT(sent_length, 0);
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// Unpack:
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const int recvd_length = handle_request(receiver.pk.data(), receiver.sk.data(), pk.data(),
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incoming.data(), &recvd_pkt_id, packet.data(), sent_length);
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ASSERT_GE(recvd_length, 0);
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EXPECT_EQ(
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std::vector<uint8_t>(incoming.begin(), incoming.begin() + recvd_length), outgoing);
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outgoing.pop_back();
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}
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}
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TEST(AnnounceNodes, SetAndTest)
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{
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Test_Random rng;
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Test_Memory mem;
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Test_Network ns;
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Logger *log = logger_new();
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ASSERT_NE(log, nullptr);
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Mono_Time *mono_time = mono_time_new(mem, nullptr, nullptr);
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ASSERT_NE(mono_time, nullptr);
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Ptr<Networking_Core> net(new_networking_no_udp(log, mem, ns));
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ASSERT_NE(net, nullptr);
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Ptr<DHT> dht(new_dht(log, mem, rng, ns, mono_time, net.get(), true, true));
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ASSERT_NE(dht, nullptr);
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uint8_t pk_data[CRYPTO_PUBLIC_KEY_SIZE];
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memcpy(pk_data, dht_get_self_public_key(dht.get()), sizeof(pk_data));
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PublicKey self_pk(to_array(pk_data));
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PublicKey pk1 = random_pk(rng);
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ASSERT_NE(pk1, self_pk);
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// Test with maximally close key to self
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pk_data[CRYPTO_PUBLIC_KEY_SIZE - 1] = ~pk_data[CRYPTO_PUBLIC_KEY_SIZE - 1];
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PublicKey pk2(to_array(pk_data));
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ASSERT_NE(pk2, pk1);
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IP_Port ip_port = {0};
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ip_port.ip.family = net_family_ipv4();
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set_announce_node(dht.get(), pk1.data());
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set_announce_node(dht.get(), pk2.data());
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EXPECT_TRUE(addto_lists(dht.get(), &ip_port, pk1.data()));
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EXPECT_TRUE(addto_lists(dht.get(), &ip_port, pk2.data()));
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Node_format nodes[MAX_SENT_NODES];
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EXPECT_EQ(
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0, get_close_nodes(dht.get(), self_pk.data(), nodes, net_family_unspec(), true, true));
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set_announce_node(dht.get(), pk1.data());
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set_announce_node(dht.get(), pk2.data());
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EXPECT_EQ(
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2, get_close_nodes(dht.get(), self_pk.data(), nodes, net_family_unspec(), true, true));
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mono_time_free(mem, mono_time);
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logger_kill(log);
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}
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} // namespace
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