diff --git a/src/test/app/SetHook_test.cpp b/src/test/app/SetHook_test.cpp index cbc16e5c2..2089ccfaf 100644 --- a/src/test/app/SetHook_test.cpp +++ b/src/test/app/SetHook_test.cpp @@ -75,7 +75,7 @@ public: // This is a large fee, large enough that we can set most small test hooks without running into fee issues // we only want to test fee code specifically in fee unit tests, the rest of the time we want to ignore it. - #define HSFEE fee(10'000'000) + #define HSFEE fee(100'000'000) #define M(m) memo(m, "", "") void testHooksDisabled() @@ -4516,13 +4516,13 @@ public: // install the hook on alice env(ripple::test::jtx::hook(alice, {{hso(hook, overrideFlag)}}, 0), - M("set hook_hash"), + M("set util_accid"), HSFEE); env.close(); // invoke the hook env(pay(bob, alice, XRP(1)), - M("test hook_hash"), + M("test util_accid"), fee(XRP(1))); } @@ -4535,6 +4535,458 @@ public: void test_util_raddr() { + using namespace jtx; + Env env{*this, supported_amendments()}; + + auto const alice = Account{"alice"}; + auto const bob = Account{"bob"}; + env.fund(XRP(10000), alice); + env.fund(XRP(10000), bob); + + TestHook + hook = + wasm[R"[test.hook]( + #include + extern int32_t _g (uint32_t id, uint32_t maxiter); + #define GUARD(maxiter) _g((1ULL << 31U) + __LINE__, (maxiter)+1) + extern int64_t accept (uint32_t read_ptr, uint32_t read_len, int64_t error_code); + extern int64_t rollback (uint32_t read_ptr, uint32_t read_len, int64_t error_code); + extern int64_t util_raddr (uint32_t, uint32_t, uint32_t, uint32_t); + #define TOO_SMALL -4 + #define OUT_OF_BOUNDS -1 + #define ASSERT(x)\ + if (!(x))\ + rollback((uint32_t)#x, sizeof(#x), __LINE__); + int64_t hook(uint32_t reserved ) + { + _g(1,1); + + { + uint8_t raw[20] = { + 0x6BU, 0x30U, 0xE2U, 0x94U, 0xF3U, 0x40U, 0x3FU, 0xF8U, + 0x7CU, 0xEFU, 0x9EU, 0x72U, 0x21U, 0x7FU, 0xF7U, 0xEBU, + 0x4AU, 0x6AU, 0x43U, 0xF4U + }; + uint8_t addr[50]; + ASSERT(34 == + util_raddr((uint32_t)addr, sizeof(addr), raw, 20)); + ASSERT( + addr[ 0] == 0x72U && addr[ 1] == 0x77U && addr[ 2] == 0x6DU && addr[ 3] == 0x6DU && + addr[ 4] == 0x31U && addr[ 5] == 0x33U && addr[ 6] == 0x70U && addr[ 7] == 0x37U && + addr[ 8] == 0x56U && addr[ 9] == 0x67U && addr[10] == 0x36U && addr[11] == 0x4BU && + addr[12] == 0x6DU && addr[13] == 0x6EU && addr[14] == 0x71U && addr[15] == 0x4BU && + addr[16] == 0x52U && addr[17] == 0x77U && addr[18] == 0x44U && addr[19] == 0x7AU && + addr[20] == 0x78U && addr[21] == 0x76U && addr[22] == 0x69U && addr[23] == 0x35U && + addr[24] == 0x58U && addr[25] == 0x70U && addr[26] == 0x36U && addr[27] == 0x77U && + addr[28] == 0x6EU && addr[29] == 0x48U && addr[30] == 0x4DU && addr[31] == 0x44U && + addr[32] == 0x44U && addr[33] == 0x68U); + } + { + uint8_t raw[20] = { + 0xE4U, 0x0FU, 0xA3U, 0x4EU, 0x3EU, 0x66U, 0x15U, 0x36U, + 0x64U, 0x89U, 0x4FU, 0xCBU, 0xFBU, 0xFCU, 0xFEU, 0x2DU, + 0x2DU, 0x19U, 0x0DU, 0x69U + }; + uint8_t addr[50]; + ASSERT(34 == + util_raddr((uint32_t)addr, sizeof(addr), raw, 20)); + ASSERT( + addr[ 0] == 0x72U && addr[ 1] == 0x4DU && addr[ 2] == 0x38U && addr[ 3] == 0x31U && + addr[ 4] == 0x6FU && addr[ 5] == 0x48U && addr[ 6] == 0x77U && addr[ 7] == 0x68U && + addr[ 8] == 0x37U && addr[ 9] == 0x35U && addr[10] == 0x39U && addr[11] == 0x34U && + addr[12] == 0x6AU && addr[13] == 0x48U && addr[14] == 0x38U && addr[15] == 0x70U && + addr[16] == 0x36U && addr[17] == 0x31U && addr[18] == 0x57U && addr[19] == 0x65U && + addr[20] == 0x31U && addr[21] == 0x73U && addr[22] == 0x64U && addr[23] == 0x58U && + addr[24] == 0x46U && addr[25] == 0x42U && addr[26] == 0x35U && addr[27] == 0x48U && + addr[28] == 0x52U && addr[29] == 0x52U && addr[30] == 0x79U && addr[31] == 0x4BU && + addr[32] == 0x76U && addr[33] == 0x4AU); + } + { + uint8_t raw[20] = { + 0x0CU, 0x90U, 0x4BU, 0x4FU, 0xA5U, 0x59U, 0xBFU, 0x10U, + 0x6AU, 0xAEU, 0xB5U, 0x28U, 0x6CU, 0x94U, 0xBAU, 0x34U, + 0x18U, 0xFDU, 0xF3U, 0x53U + }; + uint8_t addr[50]; + ASSERT(34 == + util_raddr((uint32_t)addr, sizeof(addr), raw, 20)); + ASSERT( + addr[ 0] == 0x72U && addr[ 1] == 0x70U && addr[ 2] == 0x39U && addr[ 3] == 0x52U && + addr[ 4] == 0x79U && addr[ 5] == 0x73U && addr[ 6] == 0x42U && addr[ 7] == 0x63U && + addr[ 8] == 0x55U && addr[ 9] == 0x42U && addr[10] == 0x59U && addr[11] == 0x63U && + addr[12] == 0x76U && addr[13] == 0x4AU && addr[14] == 0x4AU && addr[15] == 0x4BU && + addr[16] == 0x38U && addr[17] == 0x54U && addr[18] == 0x48U && addr[19] == 0x45U && + addr[20] == 0x79U && addr[21] == 0x6FU && addr[22] == 0x79U && addr[23] == 0x74U && + addr[24] == 0x74U && addr[25] == 0x6BU && addr[26] == 0x57U && addr[27] == 0x58U && + addr[28] == 0x39U && addr[29] == 0x4BU && addr[30] == 0x52U && addr[31] == 0x62U && + addr[32] == 0x39U && addr[33] == 0x4DU); + } + { + uint8_t raw[20] = { + 0x75U, 0x82U, 0xFBU, 0x27U, 0x10U, 0x8CU, 0x0FU, 0x9AU, + 0xF2U, 0x67U, 0x35U, 0xCCU, 0x7BU, 0x22U, 0x6BU, 0xD2U, + 0x2FU, 0xDFU, 0x4FU, 0x92U + }; + uint8_t addr[50]; + ASSERT(34 == + util_raddr((uint32_t)addr, sizeof(addr), raw, 20)); + ASSERT( + addr[ 0] == 0x72U && addr[ 1] == 0x42U && addr[ 2] == 0x35U && addr[ 3] == 0x4CU && + addr[ 4] == 0x79U && addr[ 5] == 0x77U && addr[ 6] == 0x6BU && addr[ 7] == 0x54U && + addr[ 8] == 0x4CU && addr[ 9] == 0x31U && addr[10] == 0x34U && addr[11] == 0x51U && + addr[12] == 0x64U && addr[13] == 0x55U && addr[14] == 0x64U && addr[15] == 0x77U && + addr[16] == 0x43U && addr[17] == 0x78U && addr[18] == 0x70U && addr[19] == 0x6EU && + addr[20] == 0x65U && addr[21] == 0x46U && addr[22] == 0x32U && addr[23] == 0x7AU && + addr[24] == 0x63U && addr[25] == 0x7AU && addr[26] == 0x46U && addr[27] == 0x66U && + addr[28] == 0x44U && addr[29] == 0x7AU && addr[30] == 0x57U && addr[31] == 0x46U && + addr[32] == 0x38U && addr[33] == 0x50U); + } + { + uint8_t raw[20] = { + 0x6CU, 0xB6U, 0x51U, 0x1FU, 0x20U, 0xECU, 0xCAU, 0x1EU, + 0x98U, 0x03U, 0xFCU, 0xFAU, 0x6FU, 0x3EU, 0x56U, 0x75U, + 0x72U, 0x29U, 0x51U, 0x97U + }; + uint8_t addr[50]; + ASSERT(34 == + util_raddr((uint32_t)addr, sizeof(addr), raw, 20)); + ASSERT( + addr[ 0] == 0x72U && addr[ 1] == 0x77U && addr[ 2] == 0x75U && addr[ 3] == 0x46U && + addr[ 4] == 0x50U && addr[ 5] == 0x4BU && addr[ 6] == 0x34U && addr[ 7] == 0x48U && + addr[ 8] == 0x51U && addr[ 9] == 0x4EU && addr[10] == 0x73U && addr[11] == 0x59U && + addr[12] == 0x42U && addr[13] == 0x47U && addr[14] == 0x74U && addr[15] == 0x46U && + addr[16] == 0x52U && addr[17] == 0x4BU && addr[18] == 0x77U && addr[19] == 0x45U && + addr[20] == 0x6DU && addr[21] == 0x75U && addr[22] == 0x41U && addr[23] == 0x68U && + addr[24] == 0x63U && addr[25] == 0x4BU && addr[26] == 0x63U && addr[27] == 0x48U && + addr[28] == 0x39U && addr[29] == 0x5AU && addr[30] == 0x32U && addr[31] == 0x59U && + addr[32] == 0x7AU && addr[33] == 0x58U); + } + { + uint8_t raw[20] = { + 0xA5U, 0x31U, 0x30U, 0x28U, 0xF9U, 0x62U, 0xE4U, 0x80U, + 0x48U, 0x94U, 0x3BU, 0x1AU, 0x59U, 0xBBU, 0x5EU, 0x36U, + 0x96U, 0xB3U, 0x44U, 0x35U + }; + uint8_t addr[50]; + ASSERT(34 == + util_raddr((uint32_t)addr, sizeof(addr), raw, 20)); + ASSERT( + addr[ 0] == 0x72U && addr[ 1] == 0x47U && addr[ 2] == 0x68U && addr[ 3] == 0x54U && + addr[ 4] == 0x52U && addr[ 5] == 0x4AU && addr[ 6] == 0x5AU && addr[ 7] == 0x31U && + addr[ 8] == 0x56U && addr[ 9] == 0x4DU && addr[10] == 0x51U && addr[11] == 0x74U && + addr[12] == 0x36U && addr[13] == 0x6AU && addr[14] == 0x44U && addr[15] == 0x72U && + addr[16] == 0x66U && addr[17] == 0x4EU && addr[18] == 0x63U && addr[19] == 0x6FU && + addr[20] == 0x4AU && addr[21] == 0x34U && addr[22] == 0x39U && addr[23] == 0x6AU && + addr[24] == 0x34U && addr[25] == 0x43U && addr[26] == 0x67U && addr[27] == 0x71U && + addr[28] == 0x4BU && addr[29] == 0x6DU && addr[30] == 0x52U && addr[31] == 0x32U && + addr[32] == 0x6FU && addr[33] == 0x36U); + } + { + uint8_t raw[20] = { + 0xBFU, 0x04U, 0x6CU, 0x79U, 0xA0U, 0x96U, 0xDEU, 0x80U, + 0x66U, 0xD3U, 0x74U, 0xC8U, 0xDFU, 0x94U, 0x5FU, 0x89U, + 0xF2U, 0x3EU, 0x9AU, 0x27U + }; + uint8_t addr[50]; + ASSERT(34 == + util_raddr((uint32_t)addr, sizeof(addr), raw, 20)); + ASSERT( + addr[ 0] == 0x72U && addr[ 1] == 0x4AU && addr[ 2] == 0x52U && addr[ 3] == 0x72U && + addr[ 4] == 0x34U && addr[ 5] == 0x72U && addr[ 6] == 0x4CU && addr[ 7] == 0x32U && + addr[ 8] == 0x43U && addr[ 9] == 0x4AU && addr[10] == 0x48U && addr[11] == 0x67U && + addr[12] == 0x46U && addr[13] == 0x47U && addr[14] == 0x56U && addr[15] == 0x67U && + addr[16] == 0x31U && addr[17] == 0x6AU && addr[18] == 0x61U && addr[19] == 0x66U && + addr[20] == 0x39U && addr[21] == 0x4AU && addr[22] == 0x48U && addr[23] == 0x51U && + addr[24] == 0x70U && addr[25] == 0x56U && addr[26] == 0x6DU && addr[27] == 0x68U && + addr[28] == 0x76U && addr[29] == 0x45U && addr[30] == 0x37U && addr[31] == 0x68U && + addr[32] == 0x61U && addr[33] == 0x62U); + } + { + uint8_t raw[20] = { + 0xE2U, 0x07U, 0xABU, 0xD3U, 0x7DU, 0xC2U, 0xCDU, 0xD4U, + 0x6DU, 0x15U, 0x7BU, 0x67U, 0x5AU, 0xC8U, 0x3EU, 0x0EU, + 0x05U, 0x9BU, 0x08U, 0x62U + }; + uint8_t addr[50]; + ASSERT(34 == + util_raddr((uint32_t)addr, sizeof(addr), raw, 20)); + ASSERT( + addr[ 0] == 0x72U && addr[ 1] == 0x4DU && addr[ 2] == 0x63U && addr[ 3] == 0x33U && + addr[ 4] == 0x75U && addr[ 5] == 0x4DU && addr[ 6] == 0x6BU && addr[ 7] == 0x4BU && + addr[ 8] == 0x31U && addr[ 9] == 0x62U && addr[10] == 0x62U && addr[11] == 0x32U && + addr[12] == 0x64U && addr[13] == 0x4BU && addr[14] == 0x7AU && addr[15] == 0x5AU && + addr[16] == 0x64U && addr[17] == 0x56U && addr[18] == 0x71U && addr[19] == 0x35U && + addr[20] == 0x75U && addr[21] == 0x59U && addr[22] == 0x54U && addr[23] == 0x55U && + addr[24] == 0x37U && addr[25] == 0x5AU && addr[26] == 0x76U && addr[27] == 0x4EU && + addr[28] == 0x45U && addr[29] == 0x41U && addr[30] == 0x32U && addr[31] == 0x33U && + addr[32] == 0x67U && addr[33] == 0x44U); + } + { + uint8_t raw[20] = { + 0x2AU, 0x56U, 0x74U, 0x25U, 0x84U, 0x8DU, 0x41U, 0x6DU, + 0xF1U, 0x06U, 0x01U, 0x6CU, 0x2AU, 0xB1U, 0x13U, 0xC3U, + 0x1EU, 0x65U, 0x63U, 0x80U + }; + uint8_t addr[50]; + ASSERT(34 == + util_raddr((uint32_t)addr, sizeof(addr), raw, 20)); + ASSERT( + addr[ 0] == 0x72U && addr[ 1] == 0x68U && addr[ 2] == 0x69U && addr[ 3] == 0x69U && + addr[ 4] == 0x41U && addr[ 5] == 0x78U && addr[ 6] == 0x79U && addr[ 7] == 0x59U && + addr[ 8] == 0x41U && addr[ 9] == 0x43U && addr[10] == 0x67U && addr[11] == 0x45U && + addr[12] == 0x52U && addr[13] == 0x4BU && addr[14] == 0x47U && addr[15] == 0x51U && + addr[16] == 0x4DU && addr[17] == 0x72U && addr[18] == 0x53U && addr[19] == 0x5AU && + addr[20] == 0x57U && addr[21] == 0x43U && addr[22] == 0x74U && addr[23] == 0x6BU && + addr[24] == 0x4DU && addr[25] == 0x6FU && addr[26] == 0x69U && addr[27] == 0x58U && + addr[28] == 0x48U && addr[29] == 0x34U && addr[30] == 0x64U && addr[31] == 0x48U && + addr[32] == 0x6EU && addr[33] == 0x6FU); + } + { + uint8_t raw[20] = { + 0x24U, 0xBBU, 0xA9U, 0xC3U, 0x95U, 0x74U, 0x9AU, 0x88U, + 0x04U, 0x12U, 0xC0U, 0x91U, 0xE7U, 0x13U, 0x41U, 0x7FU, + 0x9AU, 0xD5U, 0x74U, 0x43U + }; + uint8_t addr[50]; + ASSERT(34 == + util_raddr((uint32_t)addr, sizeof(addr), raw, 20)); + ASSERT( + addr[ 0] == 0x72U && addr[ 1] == 0x68U && addr[ 2] == 0x4DU && addr[ 3] == 0x4EU && + addr[ 4] == 0x33U && addr[ 5] == 0x79U && addr[ 6] == 0x4EU && addr[ 7] == 0x50U && + addr[ 8] == 0x4EU && addr[ 9] == 0x74U && addr[10] == 0x4BU && addr[11] == 0x70U && + addr[12] == 0x78U && addr[13] == 0x6BU && addr[14] == 0x71U && addr[15] == 0x4CU && + addr[16] == 0x78U && addr[17] == 0x51U && addr[18] == 0x32U && addr[19] == 0x63U && + addr[20] == 0x33U && addr[21] == 0x55U && addr[22] == 0x68U && addr[23] == 0x6FU && + addr[24] == 0x41U && addr[25] == 0x7AU && addr[26] == 0x66U && addr[27] == 0x75U && + addr[28] == 0x59U && addr[29] == 0x35U && addr[30] == 0x75U && addr[31] == 0x35U && + addr[32] == 0x4AU && addr[33] == 0x7AU); + } + { + uint8_t raw[20] = { + 0x49U, 0x53U, 0x9EU, 0x65U, 0x21U, 0x8AU, 0xCFU, 0x37U, + 0x85U, 0x2BU, 0xFFU, 0x87U, 0x14U, 0x76U, 0xDAU, 0x1AU, + 0x62U, 0x3AU, 0xEAU, 0x80U + }; + uint8_t addr[50]; + ASSERT(34 == + util_raddr((uint32_t)addr, sizeof(addr), raw, 20)); + ASSERT( + addr[ 0] == 0x72U && addr[ 1] == 0x66U && addr[ 2] == 0x67U && addr[ 3] == 0x35U && + addr[ 4] == 0x56U && addr[ 5] == 0x41U && addr[ 6] == 0x44U && addr[ 7] == 0x41U && + addr[ 8] == 0x4DU && addr[ 9] == 0x4DU && addr[10] == 0x42U && addr[11] == 0x78U && + addr[12] == 0x46U && addr[13] == 0x51U && addr[14] == 0x76U && addr[15] == 0x44U && + addr[16] == 0x78U && addr[17] == 0x5AU && addr[18] == 0x54U && addr[19] == 0x32U && + addr[20] == 0x52U && addr[21] == 0x6AU && addr[22] == 0x55U && addr[23] == 0x64U && + addr[24] == 0x47U && addr[25] == 0x69U && addr[26] == 0x64U && addr[27] == 0x59U && + addr[28] == 0x61U && addr[29] == 0x35U && addr[30] == 0x76U && addr[31] == 0x69U && + addr[32] == 0x37U && addr[33] == 0x5AU); + } + { + uint8_t raw[20] = { + 0xE7U, 0xD3U, 0x03U, 0xBCU, 0xAEU, 0xBDU, 0x62U, 0x20U, + 0xAEU, 0xC2U, 0xE1U, 0x7EU, 0x0BU, 0xFFU, 0xDCU, 0x21U, + 0x24U, 0x34U, 0x50U, 0x82U + }; + uint8_t addr[50]; + ASSERT(34 == + util_raddr((uint32_t)addr, sizeof(addr), raw, 20)); + ASSERT( + addr[ 0] == 0x72U && addr[ 1] == 0x34U && addr[ 2] == 0x33U && addr[ 3] == 0x6DU && + addr[ 4] == 0x31U && addr[ 5] == 0x31U && addr[ 6] == 0x66U && addr[ 7] == 0x74U && + addr[ 8] == 0x36U && addr[ 9] == 0x79U && addr[10] == 0x6FU && addr[11] == 0x50U && + addr[12] == 0x69U && addr[13] == 0x6DU && addr[14] == 0x36U && addr[15] == 0x56U && + addr[16] == 0x44U && addr[17] == 0x78U && addr[18] == 0x64U && addr[19] == 0x55U && + addr[20] == 0x76U && addr[21] == 0x63U && addr[22] == 0x46U && addr[23] == 0x77U && + addr[24] == 0x36U && addr[25] == 0x57U && addr[26] == 0x38U && addr[27] == 0x41U && + addr[28] == 0x77U && addr[29] == 0x78U && addr[30] == 0x78U && addr[31] == 0x4BU && + addr[32] == 0x35U && addr[33] == 0x58U); + } + { + uint8_t raw[20] = { + 0xC3U, 0xE1U, 0x5FU, 0xABU, 0xC0U, 0x0AU, 0x79U, 0x73U, + 0x71U, 0xD0U, 0x55U, 0xC0U, 0x80U, 0x79U, 0xAEU, 0x45U, + 0x71U, 0x0FU, 0xA0U, 0x97U + }; + uint8_t addr[50]; + ASSERT(34 == + util_raddr((uint32_t)addr, sizeof(addr), raw, 20)); + ASSERT( + addr[ 0] == 0x72U && addr[ 1] == 0x4AU && addr[ 2] == 0x69U && addr[ 3] == 0x35U && + addr[ 4] == 0x6BU && addr[ 5] == 0x65U && addr[ 6] == 0x58U && addr[ 7] == 0x79U && + addr[ 8] == 0x33U && addr[ 9] == 0x31U && addr[10] == 0x4AU && addr[11] == 0x31U && + addr[12] == 0x34U && addr[13] == 0x52U && addr[14] == 0x4BU && addr[15] == 0x73U && + addr[16] == 0x4EU && addr[17] == 0x59U && addr[18] == 0x41U && addr[19] == 0x46U && + addr[20] == 0x31U && addr[21] == 0x51U && addr[22] == 0x36U && addr[23] == 0x6AU && + addr[24] == 0x4DU && addr[25] == 0x56U && addr[26] == 0x69U && addr[27] == 0x45U && + addr[28] == 0x52U && addr[29] == 0x55U && addr[30] == 0x51U && addr[31] == 0x71U && + addr[32] == 0x59U && addr[33] == 0x36U); + } + { + uint8_t raw[20] = { + 0x95U, 0x15U, 0x7FU, 0x2AU, 0xAFU, 0xE3U, 0x2FU, 0x7FU, + 0x2EU, 0xF1U, 0xA0U, 0xF5U, 0xEAU, 0xC3U, 0x07U, 0x06U, + 0xA1U, 0xD3U, 0xF5U, 0xD9U + }; + uint8_t addr[50]; + ASSERT(34 == + util_raddr((uint32_t)addr, sizeof(addr), raw, 20)); + ASSERT( + addr[ 0] == 0x72U && addr[ 1] == 0x4EU && addr[ 2] == 0x62U && addr[ 3] == 0x48U && + addr[ 4] == 0x53U && addr[ 5] == 0x55U && addr[ 6] == 0x6DU && addr[ 7] == 0x66U && + addr[ 8] == 0x4BU && addr[ 9] == 0x61U && addr[10] == 0x34U && addr[11] == 0x71U && + addr[12] == 0x31U && addr[13] == 0x51U && addr[14] == 0x78U && addr[15] == 0x44U && + addr[16] == 0x45U && addr[17] == 0x5AU && addr[18] == 0x4CU && addr[19] == 0x6EU && + addr[20] == 0x54U && addr[21] == 0x67U && addr[22] == 0x46U && addr[23] == 0x56U && + addr[24] == 0x45U && addr[25] == 0x4CU && addr[26] == 0x78U && addr[27] == 0x39U && + addr[28] == 0x6DU && addr[29] == 0x57U && addr[30] == 0x45U && addr[31] == 0x43U && + addr[32] == 0x6BU && addr[33] == 0x41U); + } + { + uint8_t raw[20] = { + 0xF0U, 0xECU, 0x0FU, 0x86U, 0x31U, 0xBBU, 0x2CU, 0xBFU, + 0x8FU, 0xB7U, 0xE3U, 0x1CU, 0x82U, 0xA0U, 0xA3U, 0x50U, + 0xD5U, 0xE0U, 0xFEU, 0x6BU + }; + uint8_t addr[50]; + ASSERT(34 == + util_raddr((uint32_t)addr, sizeof(addr), raw, 20)); + ASSERT( + addr[ 0] == 0x72U && addr[ 1] == 0x34U && addr[ 2] == 0x78U && addr[ 3] == 0x31U && + addr[ 4] == 0x78U && addr[ 5] == 0x46U && addr[ 6] == 0x32U && addr[ 7] == 0x42U && + addr[ 8] == 0x47U && addr[ 9] == 0x73U && addr[10] == 0x42U && addr[11] == 0x41U && + addr[12] == 0x7AU && addr[13] == 0x77U && addr[14] == 0x77U && addr[15] == 0x61U && + addr[16] == 0x4BU && addr[17] == 0x61U && addr[18] == 0x70U && addr[19] == 0x4BU && + addr[20] == 0x6FU && addr[21] == 0x6FU && addr[22] == 0x35U && addr[23] == 0x57U && + addr[24] == 0x65U && addr[25] == 0x31U && addr[26] == 0x59U && addr[27] == 0x53U && + addr[28] == 0x6EU && addr[29] == 0x52U && addr[30] == 0x50U && addr[31] == 0x57U && + addr[32] == 0x75U && addr[33] == 0x39U); + } + { + uint8_t raw[20] = { + 0x8DU, 0xA4U, 0x7DU, 0xABU, 0xD1U, 0x19U, 0xDCU, 0xC4U, + 0x45U, 0x5FU, 0xAAU, 0xE2U, 0x1CU, 0x39U, 0xCAU, 0x19U, + 0x34U, 0xF1U, 0x86U, 0x16U + }; + uint8_t addr[50]; + ASSERT(34 == + util_raddr((uint32_t)addr, sizeof(addr), raw, 20)); + ASSERT( + addr[ 0] == 0x72U && addr[ 1] == 0x44U && addr[ 2] == 0x75U && addr[ 3] == 0x41U && + addr[ 4] == 0x4CU && addr[ 5] == 0x6EU && addr[ 6] == 0x52U && addr[ 7] == 0x79U && + addr[ 8] == 0x76U && addr[ 9] == 0x77U && addr[10] == 0x38U && addr[11] == 0x36U && + addr[12] == 0x43U && addr[13] == 0x63U && addr[14] == 0x55U && addr[15] == 0x5AU && + addr[16] == 0x39U && addr[17] == 0x74U && addr[18] == 0x52U && addr[19] == 0x55U && + addr[20] == 0x45U && addr[21] == 0x6DU && addr[22] == 0x35U && addr[23] == 0x43U && + addr[24] == 0x61U && addr[25] == 0x65U && addr[26] == 0x50U && addr[27] == 0x46U && + addr[28] == 0x66U && addr[29] == 0x33U && addr[30] == 0x74U && addr[31] == 0x36U && + addr[32] == 0x61U && addr[33] == 0x31U); + } + { + uint8_t raw[20] = { + 0xA9U, 0x94U, 0x5AU, 0xE3U, 0x5AU, 0x43U, 0xADU, 0xBEU, + 0xBAU, 0xA4U, 0x13U, 0x94U, 0xF5U, 0xDCU, 0x8FU, 0x3BU, + 0x01U, 0x14U, 0xFFU, 0xFEU + }; + uint8_t addr[50]; + ASSERT(34 == + util_raddr((uint32_t)addr, sizeof(addr), raw, 20)); + ASSERT( + addr[ 0] == 0x72U && addr[ 1] == 0x47U && addr[ 2] == 0x54U && addr[ 3] == 0x65U && + addr[ 4] == 0x76U && addr[ 5] == 0x4AU && addr[ 6] == 0x71U && addr[ 7] == 0x76U && + addr[ 8] == 0x6BU && addr[ 9] == 0x5AU && addr[10] == 0x76U && addr[11] == 0x48U && + addr[12] == 0x73U && addr[13] == 0x58U && addr[14] == 0x5AU && addr[15] == 0x71U && + addr[16] == 0x55U && addr[17] == 0x78U && addr[18] == 0x43U && addr[19] == 0x48U && + addr[20] == 0x4CU && addr[21] == 0x68U && addr[22] == 0x73U && addr[23] == 0x43U && + addr[24] == 0x53U && addr[25] == 0x38U && addr[26] == 0x57U && addr[27] == 0x68U && + addr[28] == 0x79U && addr[29] == 0x4DU && addr[30] == 0x74U && addr[31] == 0x7AU && + addr[32] == 0x6EU && addr[33] == 0x5AU); + } + { + uint8_t raw[20] = { + 0xC1U, 0xE6U, 0x7FU, 0x17U, 0xD3U, 0x00U, 0x9BU, 0x80U, + 0x6CU, 0x85U, 0x74U, 0x9CU, 0x80U, 0x40U, 0xAFU, 0x64U, + 0xCEU, 0x09U, 0x7EU, 0x2EU + }; + uint8_t addr[50]; + ASSERT(34 == + util_raddr((uint32_t)addr, sizeof(addr), raw, 20)); + ASSERT( + addr[ 0] == 0x72U && addr[ 1] == 0x4AU && addr[ 2] == 0x67U && addr[ 3] == 0x45U && + addr[ 4] == 0x59U && addr[ 5] == 0x55U && addr[ 6] == 0x37U && addr[ 7] == 0x36U && + addr[ 8] == 0x45U && addr[ 9] == 0x55U && addr[10] == 0x34U && addr[11] == 0x59U && + addr[12] == 0x41U && addr[13] == 0x5AU && addr[14] == 0x41U && addr[15] == 0x44U && + addr[16] == 0x79U && addr[17] == 0x61U && addr[18] == 0x37U && addr[19] == 0x6BU && + addr[20] == 0x37U && addr[21] == 0x62U && addr[22] == 0x71U && addr[23] == 0x38U && + addr[24] == 0x4EU && addr[25] == 0x76U && addr[26] == 0x64U && addr[27] == 0x65U && + addr[28] == 0x4BU && addr[29] == 0x41U && addr[30] == 0x48U && addr[31] == 0x69U && + addr[32] == 0x32U && addr[33] == 0x50U); + } + { + uint8_t raw[20] = { + 0xD8U, 0x74U, 0xCFU, 0x61U, 0x0DU, 0x97U, 0xE4U, 0xABU, + 0x76U, 0xA0U, 0x70U, 0x60U, 0xB7U, 0xC5U, 0x9CU, 0x9AU, + 0x88U, 0x86U, 0x62U, 0xAAU + }; + uint8_t addr[50]; + ASSERT(34 == + util_raddr((uint32_t)addr, sizeof(addr), raw, 20)); + ASSERT( + addr[ 0] == 0x72U && addr[ 1] == 0x4CU && addr[ 2] == 0x6AU && addr[ 3] == 0x57U && + addr[ 4] == 0x74U && addr[ 5] == 0x59U && addr[ 6] == 0x52U && addr[ 7] == 0x61U && + addr[ 8] == 0x6EU && addr[ 9] == 0x61U && addr[10] == 0x6BU && addr[11] == 0x33U && + addr[12] == 0x74U && addr[13] == 0x52U && addr[14] == 0x43U && addr[15] == 0x5AU && + addr[16] == 0x42U && addr[17] == 0x69U && addr[18] == 0x61U && addr[19] == 0x38U && + addr[20] == 0x64U && addr[21] == 0x33U && addr[22] == 0x70U && addr[23] == 0x7AU && + addr[24] == 0x78U && addr[25] == 0x6BU && addr[26] == 0x6EU && addr[27] == 0x63U && + addr[28] == 0x73U && addr[29] == 0x7AU && addr[30] == 0x6FU && addr[31] == 0x33U && + addr[32] == 0x33U && addr[33] == 0x38U); + } + { + uint8_t raw[20] = { + 0x8EU, 0xADU, 0xB4U, 0xBBU, 0x71U, 0x2AU, 0x29U, 0x1BU, + 0x53U, 0x43U, 0xE0U, 0x03U, 0x1FU, 0x97U, 0x6BU, 0x0DU, + 0xA9U, 0xEDU, 0x39U, 0xC2U + }; + uint8_t addr[50]; + ASSERT(34 == + util_raddr((uint32_t)addr, sizeof(addr), raw, 20)); + ASSERT( + addr[ 0] == 0x72U && addr[ 1] == 0x4EU && addr[ 2] == 0x72U && addr[ 3] == 0x52U && + addr[ 4] == 0x73U && addr[ 5] == 0x59U && addr[ 6] == 0x57U && addr[ 7] == 0x69U && + addr[ 8] == 0x4AU && addr[ 9] == 0x53U && addr[10] == 0x64U && addr[11] == 0x39U && + addr[12] == 0x47U && addr[13] == 0x4AU && addr[14] == 0x50U && addr[15] == 0x50U && + addr[16] == 0x36U && addr[17] == 0x51U && addr[18] == 0x71U && addr[19] == 0x33U && + addr[20] == 0x4AU && addr[21] == 0x61U && addr[22] == 0x44U && addr[23] == 0x43U && + addr[24] == 0x37U && addr[25] == 0x53U && addr[26] == 0x48U && addr[27] == 0x61U && + addr[28] == 0x57U && addr[29] == 0x66U && addr[30] == 0x68U && addr[31] == 0x32U && + addr[32] == 0x33U && addr[33] == 0x4BU); + } + + // Test out of bounds check + ASSERT(util_raddr(1000000, 50, 0, 20) == OUT_OF_BOUNDS); + ASSERT(util_raddr(0, 50, 10000000, 20) == OUT_OF_BOUNDS); + uint8_t raw[20] = { + 0x8EU, 0xADU, 0xB4U, 0xBBU, 0x71U, 0x2AU, 0x29U, 0x1BU, + 0x53U, 0x43U, 0xE0U, 0x03U, 0x1FU, 0x97U, 0x6BU, 0x0DU, + 0xA9U, 0xEDU, 0x39U, 0xC2U + }; + ASSERT(util_raddr(0, 30, raw, 20) == TOO_SMALL); + + accept(0,0,0); + } + )[test.hook]"]; + + // install the hook on alice + env(ripple::test::jtx::hook(alice, {{hso(hook, overrideFlag)}}, 0), + M("set util_raddr"), + HSFEE); + env.close(); + + // invoke the hook + env(pay(bob, alice, XRP(1)), + M("test util_raddr"), + fee(XRP(1))); + } void