Fixes for actually working with multi-authorities, non-trivial threshold

[software/DIPE.git] / tests / testDIPE.cpp
diff --git a/tests/testDIPE.cpp b/tests/testDIPE.cpp

index 0c8e155b00234e78e1c1fb004964e3e506f81483..a436c24c7914be8df0184eb26ea95752031a9a42 100644 (file)
--- a/tests/testDIPE.cpp
+++ b/tests/testDIPE.cpp
@@ -206,7 +206,7 @@ TEST(DipeTest, DipeDecryptSuccessSmall) {
                 memcpy(ptxt, "test", 4);
  
                 dipe_encrypt(param, 1, &pk, 1, x, 4, ptxt, clen, ctxt);
-               ptxt_len = dipe_decrypt(param, 1, &sk, "1234567890abcdef", y, clen, ctxt, ptxt);
+               ptxt_len = dipe_decrypt(param, 1, &sk, 0, "1234567890abcdef", y, clen, ctxt, ptxt);
  
                 if (clen >= overhead + 4) {
                         EXPECT_EQ(ptxt_len, 4);
@@ -262,7 +262,7 @@ TEST(DipeTest, DipeDecryptSuccessTightSmall) {
                 memcpy(ptxt, "test", 4);
  
                 dipe_encrypt(param, 1, &pk, 1, x, 4, ptxt, clen, ctxt);
-               ptxt_len = dipe_decrypt(param, 1, &sk, "1234567890abcdef", y, clen, ctxt, ptxt);
+               ptxt_len = dipe_decrypt(param, 1, &sk, 0, "1234567890abcdef", y, clen, ctxt, ptxt);
  
                 if (clen >= overhead + 4) {
                         EXPECT_EQ(ptxt_len, 4);
@@ -318,7 +318,7 @@ TEST(DipeTest, DipeDecryptSuccessLargeBlocksize) {
                 memcpy(ptxt, "aaaaaaaaaaaaaaaabbbbbbbbbbbb", 28);
  
                 dipe_encrypt(param, 1, &pk, 1, x, 28, ptxt, clen, ctxt);
-               ptxt_len = dipe_decrypt(param, 1, &sk, "1234567890abcdef", y, clen, ctxt, ptxt);
+               ptxt_len = dipe_decrypt(param, 1, &sk, 0, "1234567890abcdef", y, clen, ctxt, ptxt);
  
                 if (clen >= overhead + 28) {
                         EXPECT_EQ(ptxt_len, 28);
@@ -375,7 +375,7 @@ TEST(DipeTest, DipeDecryptSuccessTightLargeBlocksize) {
                 memcpy(ptxt, "aaaaaaaaaaaaaaaabbbbbbbbbbbb", 28);
  
                 dipe_encrypt(param, 1, &pk, 1, x, 28, ptxt, clen, ctxt);
-               ptxt_len = dipe_decrypt(param, 1, &sk, "1234567890abcdef", y, clen, ctxt, ptxt);
+               ptxt_len = dipe_decrypt(param, 1, &sk, 0, "1234567890abcdef", y, clen, ctxt, ptxt);
  
                 if (clen >= overhead + 28) {
                         EXPECT_EQ(ptxt_len, 28);
@@ -431,7 +431,7 @@ TEST(DipeTest, DipeDecryptSuccessLargeNonBlocksize) {
                 memcpy(ptxt, "aaaaaaaaaaaaaaaabbbbbbbbbbbbbbbbccc", 35);
  
                 dipe_encrypt(param, 1, &pk, 1, x, 35, ptxt, clen, ctxt);
-               ptxt_len = dipe_decrypt(param, 1, &sk, "1234567890abcdef", y, clen, ctxt, ptxt);
+               ptxt_len = dipe_decrypt(param, 1, &sk, 0, "1234567890abcdef", y, clen, ctxt, ptxt);
  
                 if (clen >= overhead + 35) {
                         EXPECT_EQ(ptxt_len, 35);
@@ -488,7 +488,7 @@ TEST(DipeTest, DipeDecryptSuccessTightLargeNonBlocksize) {
                 memcpy(ptxt, "aaaaaaaaaaaaaaaabbbbbbbbbbbbbbbbccc", 35);
  
                 dipe_encrypt(param, 1, &pk, 1, x, 35, ptxt, clen, ctxt);
-               ptxt_len = dipe_decrypt(param, 1, &sk, "1234567890abcdef", y, clen, ctxt, ptxt);
+               ptxt_len = dipe_decrypt(param, 1, &sk, 0, "1234567890abcdef", y, clen, ctxt, ptxt);
  
                 if (clen >= overhead + 35) {
                         EXPECT_EQ(ptxt_len, 35);
@@ -509,6 +509,130 @@ TEST(DipeTest, DipeDecryptSuccessTightLargeNonBlocksize) {
         dipe_free_secretkey(sk);
  }
  
+TEST(DipeTest, DipeDecryptSuccessMultiKey) {
+       size_t ptxt_len;
+       size_t overhead;
+       dipe_master_publickey_t pk[3];
+       dipe_master_secretkey_t msk[3];
+       dipe_secretkey_t sk[3];
+
+       element_t y[6];
+       element_t x[6];
+
+       for (size_t i = 0; i < 6; i+=2) {
+               element_init_Zr(y[i], *dipe_get_pairing(param));
+               element_init_Zr(x[i], *dipe_get_pairing(param));
+               element_init_Zr(y[i+1], *dipe_get_pairing(param));
+               element_init_Zr(x[i+1], *dipe_get_pairing(param));
+
+               element_set1(y[i]);
+               element_set1(x[i+1]);
+               element_random(y[i+1]);
+               element_neg(x[i], y[i+1]);
+       }
+
+       for (size_t i = 0; i < 3; ++i) {
+               dipe_master_keygen(param, 6, &pk[i], &msk[i]);
+               dipe_keygen(param, msk[i], "1234567890abcdef", y, &sk[i]);
+       }
+       overhead = dipe_ciphertext_overhead(param, 6, 0);
+
+       char ctxt[overhead + 35];
+       char ptxt[overhead + 35];
+
+
+       for (size_t clen = overhead; clen <= overhead + 35; ++clen) {
+               memset(ctxt, 0, overhead + 35);
+               memset(ptxt, 0, overhead + 35);
+               memcpy(ptxt, "aaaaaaaaaaaaaaaabbbbbbbbbbbbbbbbccc", 35);
+
+               dipe_encrypt(param, 3, pk, 3, x, 35, ptxt, clen, ctxt);
+               ptxt_len = dipe_decrypt(param, 3, sk, 0, "1234567890abcdef", y, clen, ctxt, ptxt);
+
+               if (clen >= overhead + 35) {
+                       EXPECT_EQ(ptxt_len, 35);
+                       EXPECT_STREQ(ptxt, "aaaaaaaaaaaaaaaabbbbbbbbbbbbbbbbccc");
+               }
+               else {
+                       EXPECT_EQ(ptxt_len, 0);
+               }
+       }
+
+       for (size_t i = 0; i < 6; ++i) {
+               element_clear(y[i]);
+               element_clear(x[i]);
+       }
+
+       for (size_t i = 0; i < 3; ++i) {
+               dipe_free_master_secretkey(msk[i]);
+               dipe_free_master_publickey(pk[i]);
+               dipe_free_secretkey(sk[i]);
+       }
+}
+
+TEST(DipeTest, DipeDecryptSuccessThreshold) {
+       size_t ptxt_len;
+       size_t overhead;
+       dipe_master_publickey_t pk[3];
+       dipe_master_secretkey_t msk[3];
+       dipe_secretkey_t sk[3];
+
+       element_t y[6];
+       element_t x[6];
+
+       for (size_t i = 0; i < 6; i+=2) {
+               element_init_Zr(y[i], *dipe_get_pairing(param));
+               element_init_Zr(x[i], *dipe_get_pairing(param));
+               element_init_Zr(y[i+1], *dipe_get_pairing(param));
+               element_init_Zr(x[i+1], *dipe_get_pairing(param));
+
+               element_set1(y[i]);
+               element_set1(x[i+1]);
+               element_random(y[i+1]);
+               element_neg(x[i], y[i+1]);
+       }
+
+       for (size_t i = 0; i < 3; ++i) {
+               dipe_master_keygen(param, 6, &pk[i], &msk[i]);
+               dipe_keygen(param, msk[i], "1234567890abcdef", y, &sk[i]);
+       }
+       overhead = dipe_ciphertext_overhead(param, 6, 2);
+
+       char ctxt[overhead + 35];
+       char ptxt[overhead + 35];
+
+
+       for (size_t clen = overhead+20; clen <= overhead + 35; ++clen) {
+               for (size_t kid = 0; kid < 3; ++kid) {
+                       memset(ctxt, 0, overhead + 35);
+                       memset(ptxt, 0, overhead + 35);
+                       memcpy(ptxt, "aaaaaaaaaaaaaaaabbbbbbbbbbbbbbbbccc", 35);
+
+                       dipe_encrypt(param, 3, pk, 1, x, 35, ptxt, clen, ctxt);
+                       ptxt_len = dipe_decrypt(param, 1, &sk[kid], 2, "1234567890abcdef", y, clen, ctxt, ptxt);
+
+                       if (clen >= overhead + 35) {
+                               EXPECT_EQ(ptxt_len, 35);
+                               EXPECT_STREQ(ptxt, "aaaaaaaaaaaaaaaabbbbbbbbbbbbbbbbccc");
+                       }
+                       else {
+                               EXPECT_EQ(ptxt_len, 0);
+                       }
+               }
+       }
+
+       for (size_t i = 0; i < 6; ++i) {
+               element_clear(y[i]);
+               element_clear(x[i]);
+       }
+
+       for (size_t i = 0; i < 3; ++i) {
+               dipe_free_master_secretkey(msk[i]);
+               dipe_free_master_publickey(pk[i]);
+               dipe_free_secretkey(sk[i]);
+       }
+}
+