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authormoneromooo-monero <moneromooo-monero@users.noreply.github.com>2020-09-03 16:22:19 +0000
committermoneromooo-monero <moneromooo-monero@users.noreply.github.com>2021-02-09 11:58:21 +0000
commit19b228393fdc0899104934538edfb0cfd665cdf0 (patch)
tree7df2203e564b32e456395b125bb1c5e6d1e23a9d /tests/unit_tests
parentMerge pull request #7260 (diff)
downloadmonero-19b228393fdc0899104934538edfb0cfd665cdf0.tar.xz
New add_aux_pow RPC to support merge mining
Diffstat (limited to 'tests/unit_tests')
-rw-r--r--tests/unit_tests/crypto.cpp213
1 files changed, 213 insertions, 0 deletions
diff --git a/tests/unit_tests/crypto.cpp b/tests/unit_tests/crypto.cpp
index 7ac87ca7c..b550b35b0 100644
--- a/tests/unit_tests/crypto.cpp
+++ b/tests/unit_tests/crypto.cpp
@@ -33,6 +33,7 @@
#include <string>
#include "cryptonote_basic/cryptonote_basic_impl.h"
+#include "cryptonote_basic/merge_mining.h"
namespace
{
@@ -99,3 +100,215 @@ TEST(Crypto, verify_32)
}
}
}
+
+TEST(Crypto, tree_branch)
+{
+ crypto::hash inputs[6];
+ crypto::hash branch[8];
+ crypto::hash root, root2;
+ size_t depth;
+ uint32_t path, path2;
+
+ auto hasher = [](const crypto::hash &h0, const crypto::hash &h1) -> crypto::hash
+ {
+ char buffer[64];
+ memcpy(buffer, &h0, 32);
+ memcpy(buffer + 32, &h1, 32);
+ crypto::hash res;
+ cn_fast_hash(buffer, 64, res);
+ return res;
+ };
+
+ for (int n = 0; n < 6; ++n)
+ {
+ memset(&inputs[n], 0, 32);
+ inputs[n].data[0] = n + 1;
+ }
+
+ // empty
+ ASSERT_FALSE(crypto::tree_branch((const char(*)[32])inputs, 0, crypto::null_hash.data, (char(*)[32])branch, &depth, &path));
+
+ // one, matching
+ ASSERT_TRUE(crypto::tree_branch((const char(*)[32])inputs, 1, inputs[0].data, (char(*)[32])branch, &depth, &path));
+ ASSERT_EQ(depth, 0);
+ ASSERT_EQ(path, 0);
+ ASSERT_TRUE(crypto::tree_path(1, 0, &path2));
+ ASSERT_EQ(path, path2);
+ crypto::tree_hash((const char(*)[32])inputs, 1, root.data);
+ ASSERT_EQ(root, inputs[0]);
+ ASSERT_TRUE(crypto::is_branch_in_tree(inputs[0].data, root.data, (const char(*)[32])branch, depth, path));
+ ASSERT_FALSE(crypto::is_branch_in_tree(inputs[1].data, root.data, (const char(*)[32])branch, depth, path));
+ ASSERT_FALSE(crypto::is_branch_in_tree(crypto::null_hash.data, root.data, (const char(*)[32])branch, depth, path));
+
+ // one, not found
+ ASSERT_FALSE(crypto::tree_branch((const char(*)[32])inputs, 1, inputs[1].data, (char(*)[32])branch, &depth, &path));
+
+ // two, index 0
+ ASSERT_TRUE(crypto::tree_branch((const char(*)[32])inputs, 2, inputs[0].data, (char(*)[32])branch, &depth, &path));
+ ASSERT_EQ(depth, 1);
+ ASSERT_EQ(path, 0);
+ ASSERT_TRUE(crypto::tree_path(2, 0, &path2));
+ ASSERT_EQ(path, path2);
+ ASSERT_EQ(branch[0], inputs[1]);
+ crypto::tree_hash((const char(*)[32])inputs, 2, root.data);
+ ASSERT_EQ(root, hasher(inputs[0], inputs[1]));
+ ASSERT_TRUE(crypto::is_branch_in_tree(inputs[0].data, root.data, (const char(*)[32])branch, depth, path));
+ ASSERT_FALSE(crypto::is_branch_in_tree(inputs[1].data, root.data, (const char(*)[32])branch, depth, path));
+ ASSERT_FALSE(crypto::is_branch_in_tree(inputs[2].data, root.data, (const char(*)[32])branch, depth, path));
+ ASSERT_FALSE(crypto::is_branch_in_tree(crypto::null_hash.data, root.data, (const char(*)[32])branch, depth, path));
+
+ // two, index 1
+ ASSERT_TRUE(crypto::tree_branch((const char(*)[32])inputs, 2, inputs[1].data, (char(*)[32])branch, &depth, &path));
+ ASSERT_EQ(depth, 1);
+ ASSERT_EQ(path, 1);
+ ASSERT_TRUE(crypto::tree_path(2, 1, &path2));
+ ASSERT_EQ(path, path2);
+ ASSERT_EQ(branch[0], inputs[0]);
+ crypto::tree_hash((const char(*)[32])inputs, 2, root.data);
+ ASSERT_EQ(root, hasher(inputs[0], inputs[1]));
+ ASSERT_FALSE(crypto::is_branch_in_tree(inputs[0].data, root.data, (const char(*)[32])branch, depth, path));
+ ASSERT_TRUE(crypto::is_branch_in_tree(inputs[1].data, root.data, (const char(*)[32])branch, depth, path));
+ ASSERT_FALSE(crypto::is_branch_in_tree(inputs[2].data, root.data, (const char(*)[32])branch, depth, path));
+ ASSERT_FALSE(crypto::is_branch_in_tree(crypto::null_hash.data, root.data, (const char(*)[32])branch, depth, path));
+
+ // two, not found
+ ASSERT_FALSE(crypto::tree_branch((const char(*)[32])inputs, 2, inputs[2].data, (char(*)[32])branch, &depth, &path));
+
+ // a b c 0
+ // x y
+ // z
+
+ // three, index 0
+ ASSERT_TRUE(crypto::tree_branch((const char(*)[32])inputs, 3, inputs[0].data, (char(*)[32])branch, &depth, &path));
+ ASSERT_GE(depth, 1);
+ ASSERT_LE(depth, 2);
+ ASSERT_TRUE(crypto::tree_path(3, 0, &path2));
+ ASSERT_EQ(path, path2);
+ crypto::tree_hash((const char(*)[32])inputs, 3, root.data);
+ ASSERT_EQ(root, hasher(inputs[0], hasher(inputs[1], inputs[2])));
+ ASSERT_TRUE(crypto::is_branch_in_tree(inputs[0].data, root.data, (const char(*)[32])branch, depth, path));
+ ASSERT_FALSE(crypto::is_branch_in_tree(inputs[1].data, root.data, (const char(*)[32])branch, depth, path));
+ ASSERT_FALSE(crypto::is_branch_in_tree(inputs[2].data, root.data, (const char(*)[32])branch, depth, path));
+ ASSERT_FALSE(crypto::is_branch_in_tree(inputs[3].data, root.data, (const char(*)[32])branch, depth, path));
+ ASSERT_FALSE(crypto::is_branch_in_tree(crypto::null_hash.data, root.data, (const char(*)[32])branch, depth, path));
+
+ // three, index 1
+ ASSERT_TRUE(crypto::tree_branch((const char(*)[32])inputs, 3, inputs[1].data, (char(*)[32])branch, &depth, &path));
+ ASSERT_GE(depth, 1);
+ ASSERT_LE(depth, 2);
+ ASSERT_TRUE(crypto::tree_path(3, 1, &path2));
+ ASSERT_EQ(path, path2);
+ crypto::tree_hash((const char(*)[32])inputs, 3, root.data);
+ ASSERT_EQ(root, hasher(inputs[0], hasher(inputs[1], inputs[2])));
+ ASSERT_FALSE(crypto::is_branch_in_tree(inputs[0].data, root.data, (const char(*)[32])branch, depth, path));
+ ASSERT_TRUE(crypto::is_branch_in_tree(inputs[1].data, root.data, (const char(*)[32])branch, depth, path));
+ ASSERT_FALSE(crypto::is_branch_in_tree(inputs[2].data, root.data, (const char(*)[32])branch, depth, path));
+ ASSERT_FALSE(crypto::is_branch_in_tree(inputs[3].data, root.data, (const char(*)[32])branch, depth, path));
+ ASSERT_FALSE(crypto::is_branch_in_tree(crypto::null_hash.data, root.data, (const char(*)[32])branch, depth, path));
+
+ // three, index 2
+ ASSERT_TRUE(crypto::tree_branch((const char(*)[32])inputs, 3, inputs[2].data, (char(*)[32])branch, &depth, &path));
+ ASSERT_GE(depth, 1);
+ ASSERT_LE(depth, 2);
+ ASSERT_TRUE(crypto::tree_path(3, 2, &path2));
+ ASSERT_EQ(path, path2);
+ crypto::tree_hash((const char(*)[32])inputs, 3, root.data);
+ ASSERT_FALSE(crypto::is_branch_in_tree(inputs[0].data, root.data, (const char(*)[32])branch, depth, path));
+ ASSERT_FALSE(crypto::is_branch_in_tree(inputs[1].data, root.data, (const char(*)[32])branch, depth, path));
+ ASSERT_TRUE(crypto::is_branch_in_tree(inputs[2].data, root.data, (const char(*)[32])branch, depth, path));
+ ASSERT_FALSE(crypto::is_branch_in_tree(inputs[3].data, root.data, (const char(*)[32])branch, depth, path));
+ ASSERT_FALSE(crypto::is_branch_in_tree(crypto::null_hash.data, root.data, (const char(*)[32])branch, depth, path));
+ ASSERT_TRUE(crypto::tree_branch_hash(inputs[2].data, (const char(*)[32])branch, depth, path, root2.data));
+ ASSERT_EQ(root, root2);
+
+ // three, not found
+ ASSERT_FALSE(crypto::tree_branch((const char(*)[32])inputs, 3, inputs[3].data, (char(*)[32])branch, &depth, &path));
+
+ // a b c d e 0 0 0
+ // x y
+ // z
+ // w
+
+ // five, index 0
+ ASSERT_TRUE(crypto::tree_branch((const char(*)[32])inputs, 5, inputs[0].data, (char(*)[32])branch, &depth, &path));
+ ASSERT_GE(depth, 2);
+ ASSERT_LE(depth, 3);
+ ASSERT_TRUE(crypto::tree_path(5, 0, &path2));
+ ASSERT_EQ(path, path2);
+ crypto::tree_hash((const char(*)[32])inputs, 5, root.data);
+ ASSERT_TRUE(crypto::is_branch_in_tree(inputs[0].data, root.data, (const char(*)[32])branch, depth, path));
+ ASSERT_FALSE(crypto::is_branch_in_tree(inputs[1].data, root.data, (const char(*)[32])branch, depth, path));
+ ASSERT_FALSE(crypto::is_branch_in_tree(inputs[2].data, root.data, (const char(*)[32])branch, depth, path));
+ ASSERT_FALSE(crypto::is_branch_in_tree(inputs[3].data, root.data, (const char(*)[32])branch, depth, path));
+ ASSERT_FALSE(crypto::is_branch_in_tree(inputs[4].data, root.data, (const char(*)[32])branch, depth, path));
+ ASSERT_FALSE(crypto::is_branch_in_tree(inputs[5].data, root.data, (const char(*)[32])branch, depth, path));
+ ASSERT_FALSE(crypto::is_branch_in_tree(crypto::null_hash.data, root.data, (const char(*)[32])branch, depth, path));
+
+ // five, index 1
+ ASSERT_TRUE(crypto::tree_branch((const char(*)[32])inputs, 5, inputs[1].data, (char(*)[32])branch, &depth, &path));
+ ASSERT_GE(depth, 2);
+ ASSERT_LE(depth, 3);
+ ASSERT_TRUE(crypto::tree_path(5, 1, &path2));
+ ASSERT_EQ(path, path2);
+ crypto::tree_hash((const char(*)[32])inputs, 5, root.data);
+ ASSERT_FALSE(crypto::is_branch_in_tree(inputs[0].data, root.data, (const char(*)[32])branch, depth, path));
+ ASSERT_TRUE(crypto::is_branch_in_tree(inputs[1].data, root.data, (const char(*)[32])branch, depth, path));
+ ASSERT_FALSE(crypto::is_branch_in_tree(inputs[2].data, root.data, (const char(*)[32])branch, depth, path));
+ ASSERT_FALSE(crypto::is_branch_in_tree(inputs[3].data, root.data, (const char(*)[32])branch, depth, path));
+ ASSERT_FALSE(crypto::is_branch_in_tree(inputs[4].data, root.data, (const char(*)[32])branch, depth, path));
+ ASSERT_FALSE(crypto::is_branch_in_tree(inputs[5].data, root.data, (const char(*)[32])branch, depth, path));
+ ASSERT_FALSE(crypto::is_branch_in_tree(crypto::null_hash.data, root.data, (const char(*)[32])branch, depth, path));
+
+ // five, index 2
+ ASSERT_TRUE(crypto::tree_branch((const char(*)[32])inputs, 5, inputs[2].data, (char(*)[32])branch, &depth, &path));
+ ASSERT_GE(depth, 2);
+ ASSERT_LE(depth, 3);
+ ASSERT_TRUE(crypto::tree_path(5, 2, &path2));
+ ASSERT_EQ(path, path2);
+ crypto::tree_hash((const char(*)[32])inputs, 5, root.data);
+ ASSERT_FALSE(crypto::is_branch_in_tree(inputs[0].data, root.data, (const char(*)[32])branch, depth, path));
+ ASSERT_FALSE(crypto::is_branch_in_tree(inputs[1].data, root.data, (const char(*)[32])branch, depth, path));
+ ASSERT_TRUE(crypto::is_branch_in_tree(inputs[2].data, root.data, (const char(*)[32])branch, depth, path));
+ ASSERT_FALSE(crypto::is_branch_in_tree(inputs[3].data, root.data, (const char(*)[32])branch, depth, path));
+ ASSERT_FALSE(crypto::is_branch_in_tree(inputs[4].data, root.data, (const char(*)[32])branch, depth, path));
+ ASSERT_FALSE(crypto::is_branch_in_tree(inputs[5].data, root.data, (const char(*)[32])branch, depth, path));
+ ASSERT_FALSE(crypto::is_branch_in_tree(crypto::null_hash.data, root.data, (const char(*)[32])branch, depth, path));
+
+ // five, index 4
+ ASSERT_TRUE(crypto::tree_branch((const char(*)[32])inputs, 5, inputs[4].data, (char(*)[32])branch, &depth, &path));
+ ASSERT_GE(depth, 2);
+ ASSERT_LE(depth, 3);
+ ASSERT_TRUE(crypto::tree_path(5, 4, &path2));
+ ASSERT_EQ(path, path2);
+ crypto::tree_hash((const char(*)[32])inputs, 5, root.data);
+ ASSERT_FALSE(crypto::is_branch_in_tree(inputs[0].data, root.data, (const char(*)[32])branch, depth, path));
+ ASSERT_FALSE(crypto::is_branch_in_tree(inputs[1].data, root.data, (const char(*)[32])branch, depth, path));
+ ASSERT_FALSE(crypto::is_branch_in_tree(inputs[2].data, root.data, (const char(*)[32])branch, depth, path));
+ ASSERT_FALSE(crypto::is_branch_in_tree(inputs[3].data, root.data, (const char(*)[32])branch, depth, path));
+ ASSERT_TRUE(crypto::is_branch_in_tree(inputs[4].data, root.data, (const char(*)[32])branch, depth, path));
+ ASSERT_FALSE(crypto::is_branch_in_tree(inputs[5].data, root.data, (const char(*)[32])branch, depth, path));
+ ASSERT_FALSE(crypto::is_branch_in_tree(crypto::null_hash.data, root.data, (const char(*)[32])branch, depth, path));
+
+ ASSERT_FALSE(crypto::is_branch_in_tree(inputs[4].data, root.data, (const char(*)[32])branch, depth - 1, path));
+ ASSERT_FALSE(crypto::is_branch_in_tree(inputs[4].data, root.data, (const char(*)[32])branch, depth + 1, path));
+ ASSERT_FALSE(crypto::is_branch_in_tree(inputs[4].data, root.data, (const char(*)[32])branch, depth, path ^ 1));
+ ASSERT_FALSE(crypto::is_branch_in_tree(inputs[4].data, root.data, (const char(*)[32])branch, depth, path ^ 2));
+ ASSERT_FALSE(crypto::is_branch_in_tree(inputs[4].data, root.data, (const char(*)[32])branch, depth, path ^ 3));
+ ASSERT_FALSE(crypto::is_branch_in_tree(inputs[4].data, root.data, (const char(*)[32])(branch + 1), depth, path));
+
+ // five, not found
+ ASSERT_FALSE(crypto::tree_branch((const char(*)[32])inputs, 5, crypto::null_hash.data, (char(*)[32])branch, &depth, &path));
+
+ // depth encoding roundtrip
+ for (uint32_t n_chains = 1; n_chains <= 65; ++n_chains)
+ {
+ for (uint32_t nonce = 0; nonce < 1024; ++nonce)
+ {
+ const uint32_t depth = cryptonote::encode_mm_depth(n_chains, nonce);
+ uint32_t n_chains_2, nonce_2;
+ ASSERT_TRUE(cryptonote::decode_mm_depth(depth, n_chains_2, nonce_2));
+ ASSERT_EQ(n_chains, n_chains_2);
+ ASSERT_EQ(nonce, nonce_2);
+ }
+ }
+}