1ebe8e906SVernon Mauery /** 2ebe8e906SVernon Mauery * Copyright © 2018 Intel Corporation 3ebe8e906SVernon Mauery * 4ebe8e906SVernon Mauery * Licensed under the Apache License, Version 2.0 (the "License"); 5ebe8e906SVernon Mauery * you may not use this file except in compliance with the License. 6ebe8e906SVernon Mauery * You may obtain a copy of the License at 7ebe8e906SVernon Mauery * 8ebe8e906SVernon Mauery * http://www.apache.org/licenses/LICENSE-2.0 9ebe8e906SVernon Mauery * 10ebe8e906SVernon Mauery * Unless required by applicable law or agreed to in writing, software 11ebe8e906SVernon Mauery * distributed under the License is distributed on an "AS IS" BASIS, 12ebe8e906SVernon Mauery * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. 13ebe8e906SVernon Mauery * See the License for the specific language governing permissions and 14ebe8e906SVernon Mauery * limitations under the License. 15ebe8e906SVernon Mauery */ 16ebe8e906SVernon Mauery #include <ipmid/api.hpp> 17ebe8e906SVernon Mauery #include <ipmid/message.hpp> 18ebe8e906SVernon Mauery 19ebe8e906SVernon Mauery #include <gtest/gtest.h> 20ebe8e906SVernon Mauery 21ebe8e906SVernon Mauery // TODO: Add testing of Payload response API 22ebe8e906SVernon Mauery 23ebe8e906SVernon Mauery TEST(PackBasics, Uint8) 24ebe8e906SVernon Mauery { 25ebe8e906SVernon Mauery ipmi::message::Payload p; 26ebe8e906SVernon Mauery uint8_t v = 4; 27ebe8e906SVernon Mauery p.pack(v); 28ebe8e906SVernon Mauery // check that the number of bytes matches 29ebe8e906SVernon Mauery ASSERT_EQ(p.size(), sizeof(v)); 30ebe8e906SVernon Mauery // check that the bytes were correctly packed (LSB first) 31ebe8e906SVernon Mauery std::vector<uint8_t> k = {0x04}; 32ebe8e906SVernon Mauery ASSERT_EQ(p.raw, k); 33ebe8e906SVernon Mauery } 34ebe8e906SVernon Mauery 35ebe8e906SVernon Mauery TEST(PackBasics, Uint16) 36ebe8e906SVernon Mauery { 37ebe8e906SVernon Mauery ipmi::message::Payload p; 38ebe8e906SVernon Mauery uint16_t v = 0x8604; 39ebe8e906SVernon Mauery p.pack(v); 40ebe8e906SVernon Mauery // check that the number of bytes matches 41ebe8e906SVernon Mauery ASSERT_EQ(p.size(), sizeof(v)); 42ebe8e906SVernon Mauery // check that the bytes were correctly packed (LSB first) 43ebe8e906SVernon Mauery std::vector<uint8_t> k = {0x04, 0x86}; 44ebe8e906SVernon Mauery ASSERT_EQ(p.raw, k); 45ebe8e906SVernon Mauery } 46ebe8e906SVernon Mauery 47ebe8e906SVernon Mauery TEST(PackBasics, Uint32) 48ebe8e906SVernon Mauery { 49ebe8e906SVernon Mauery ipmi::message::Payload p; 50ebe8e906SVernon Mauery uint32_t v = 0x02008604; 51ebe8e906SVernon Mauery p.pack(v); 52ebe8e906SVernon Mauery // check that the number of bytes matches 53ebe8e906SVernon Mauery ASSERT_EQ(p.size(), sizeof(v)); 54ebe8e906SVernon Mauery // check that the bytes were correctly packed (LSB first) 55ebe8e906SVernon Mauery std::vector<uint8_t> k = {0x04, 0x86, 0x00, 0x02}; 56ebe8e906SVernon Mauery ASSERT_EQ(p.raw, k); 57ebe8e906SVernon Mauery } 58ebe8e906SVernon Mauery 59ebe8e906SVernon Mauery TEST(PackBasics, Uint64) 60ebe8e906SVernon Mauery { 61ebe8e906SVernon Mauery ipmi::message::Payload p; 62ebe8e906SVernon Mauery uint64_t v = 0x1122334402008604ull; 63ebe8e906SVernon Mauery p.pack(v); 64ebe8e906SVernon Mauery // check that the number of bytes matches 65ebe8e906SVernon Mauery ASSERT_EQ(p.size(), sizeof(v)); 66ebe8e906SVernon Mauery // check that the bytes were correctly packed (LSB first) 67ebe8e906SVernon Mauery std::vector<uint8_t> k = {0x04, 0x86, 0x00, 0x02, 0x44, 0x33, 0x22, 0x11}; 68ebe8e906SVernon Mauery ASSERT_EQ(p.raw, k); 69ebe8e906SVernon Mauery } 70ebe8e906SVernon Mauery 71ebe8e906SVernon Mauery TEST(PackBasics, Uint24) 72ebe8e906SVernon Mauery { 73ebe8e906SVernon Mauery ipmi::message::Payload p; 74ebe8e906SVernon Mauery uint24_t v = 0x112358; 75ebe8e906SVernon Mauery p.pack(v); 76ebe8e906SVernon Mauery // check that the number of bytes matches 77ebe8e906SVernon Mauery ASSERT_EQ(p.size(), types::nrFixedBits<decltype(v)> / CHAR_BIT); 78ebe8e906SVernon Mauery // check that the bytes were correctly packed (LSB first) 79ebe8e906SVernon Mauery std::vector<uint8_t> k = {0x58, 0x23, 0x11}; 80ebe8e906SVernon Mauery ASSERT_EQ(p.raw, k); 81ebe8e906SVernon Mauery } 82ebe8e906SVernon Mauery 83ebe8e906SVernon Mauery TEST(PackBasics, Uint3Uint5) 84ebe8e906SVernon Mauery { 85ebe8e906SVernon Mauery // individual bytes are packed low-order-bits first 86ebe8e906SVernon Mauery // v1 will occupy [2:0], v2 will occupy [7:3] 87ebe8e906SVernon Mauery ipmi::message::Payload p; 88ebe8e906SVernon Mauery uint3_t v1 = 0x1; 89ebe8e906SVernon Mauery uint5_t v2 = 0x19; 90ebe8e906SVernon Mauery p.pack(v1, v2); 91ebe8e906SVernon Mauery // check that the number of bytes matches 92ebe8e906SVernon Mauery ASSERT_EQ(p.size(), (types::nrFixedBits<decltype(v1)> + 93ebe8e906SVernon Mauery types::nrFixedBits<decltype(v2)>) / 94ebe8e906SVernon Mauery CHAR_BIT); 95ebe8e906SVernon Mauery // check that the bytes were correctly packed (LSB first) 96ebe8e906SVernon Mauery std::vector<uint8_t> k = {0xc9}; 97ebe8e906SVernon Mauery ASSERT_EQ(p.raw, k); 98ebe8e906SVernon Mauery } 99ebe8e906SVernon Mauery 100ebe8e906SVernon Mauery TEST(PackBasics, Boolx8) 101ebe8e906SVernon Mauery { 102ebe8e906SVernon Mauery // individual bytes are packed low-order-bits first 103ebe8e906SVernon Mauery // [v8, v7, v6, v5, v4, v3, v2, v1] 104ebe8e906SVernon Mauery ipmi::message::Payload p; 105ebe8e906SVernon Mauery bool v8 = true, v7 = true, v6 = false, v5 = false; 106ebe8e906SVernon Mauery bool v4 = true, v3 = false, v2 = false, v1 = true; 107ebe8e906SVernon Mauery p.pack(v1, v2, v3, v4, v5, v6, v7, v8); 108ebe8e906SVernon Mauery // check that the number of bytes matches 109ebe8e906SVernon Mauery ASSERT_EQ(p.size(), sizeof(uint8_t)); 110ebe8e906SVernon Mauery // check that the bytes were correctly packed (LSB first) 111ebe8e906SVernon Mauery std::vector<uint8_t> k = {0xc9}; 112ebe8e906SVernon Mauery ASSERT_EQ(p.raw, k); 113ebe8e906SVernon Mauery } 114ebe8e906SVernon Mauery 115ebe8e906SVernon Mauery TEST(PackBasics, Bitset8) 116ebe8e906SVernon Mauery { 117ebe8e906SVernon Mauery // individual bytes are packed low-order-bits first 118ebe8e906SVernon Mauery // a bitset for 8 bits fills the full byte 119ebe8e906SVernon Mauery ipmi::message::Payload p; 120ebe8e906SVernon Mauery std::bitset<8> v(0xc9); 121ebe8e906SVernon Mauery p.pack(v); 122ebe8e906SVernon Mauery // check that the number of bytes matches 123ebe8e906SVernon Mauery ASSERT_EQ(p.size(), v.size() / CHAR_BIT); 124ebe8e906SVernon Mauery // check that the bytes were correctly packed (LSB first) 125ebe8e906SVernon Mauery std::vector<uint8_t> k = {0xc9}; 126ebe8e906SVernon Mauery ASSERT_EQ(p.raw, k); 127ebe8e906SVernon Mauery } 128ebe8e906SVernon Mauery 129ebe8e906SVernon Mauery TEST(PackBasics, Bitset3Bitset5) 130ebe8e906SVernon Mauery { 131ebe8e906SVernon Mauery // individual bytes are packed low-order-bits first 132ebe8e906SVernon Mauery // v1 will occupy [2:0], v2 will occupy [7:3] 133ebe8e906SVernon Mauery ipmi::message::Payload p; 134ebe8e906SVernon Mauery std::bitset<3> v1(0x1); 135ebe8e906SVernon Mauery std::bitset<5> v2(0x19); 136ebe8e906SVernon Mauery p.pack(v1, v2); 137ebe8e906SVernon Mauery // check that the number of bytes matches 138ebe8e906SVernon Mauery ASSERT_EQ(p.size(), (v1.size() + v2.size()) / CHAR_BIT); 139ebe8e906SVernon Mauery // check that the bytes were correctly packed (LSB first) 140ebe8e906SVernon Mauery std::vector<uint8_t> k = {0xc9}; 141ebe8e906SVernon Mauery ASSERT_EQ(p.raw, k); 142ebe8e906SVernon Mauery } 143ebe8e906SVernon Mauery 144ebe8e906SVernon Mauery TEST(PackBasics, Bitset32) 145ebe8e906SVernon Mauery { 146ebe8e906SVernon Mauery // individual bytes are packed low-order-bits first 147ebe8e906SVernon Mauery // v1 will occupy 4 bytes, but in LSByte first order 148ebe8e906SVernon Mauery // v1[7:0] v1[15:9] v1[23:16] v1[31:24] 149ebe8e906SVernon Mauery ipmi::message::Payload p; 150ebe8e906SVernon Mauery std::bitset<32> v(0x02008604); 151ebe8e906SVernon Mauery p.pack(v); 152ebe8e906SVernon Mauery // check that the number of bytes matches 153ebe8e906SVernon Mauery ASSERT_EQ(p.size(), v.size() / CHAR_BIT); 154ebe8e906SVernon Mauery // check that the bytes were correctly packed (LSB first) 155ebe8e906SVernon Mauery std::vector<uint8_t> k = {0x04, 0x86, 0x00, 0x02}; 156ebe8e906SVernon Mauery ASSERT_EQ(p.raw, k); 157ebe8e906SVernon Mauery } 158ebe8e906SVernon Mauery 159508c4576SVernon Mauery TEST(PackBasics, Tuple) 160508c4576SVernon Mauery { 161508c4576SVernon Mauery // tuples are the new struct, pack a tuple 162508c4576SVernon Mauery ipmi::message::Payload p; 163508c4576SVernon Mauery auto v = std::make_tuple(static_cast<uint16_t>(0x8604), 'A'); 164508c4576SVernon Mauery p.pack(v); 165508c4576SVernon Mauery // check that the number of bytes matches 166508c4576SVernon Mauery ASSERT_EQ(p.size(), sizeof(uint16_t) + sizeof(char)); 167508c4576SVernon Mauery // check that the bytes were correctly packed (LSB first) 168508c4576SVernon Mauery std::vector<uint8_t> k = {0x04, 0x86, 0x41}; 169508c4576SVernon Mauery ASSERT_EQ(p.raw, k); 170508c4576SVernon Mauery } 171508c4576SVernon Mauery 172ebe8e906SVernon Mauery TEST(PackBasics, Array4xUint8) 173ebe8e906SVernon Mauery { 174ebe8e906SVernon Mauery // an array of bytes will be output verbatim, low-order element first 175ebe8e906SVernon Mauery ipmi::message::Payload p; 176ebe8e906SVernon Mauery std::array<uint8_t, 4> v = {{0x02, 0x00, 0x86, 0x04}}; 177ebe8e906SVernon Mauery p.pack(v); 178ebe8e906SVernon Mauery // check that the number of bytes matches 179ebe8e906SVernon Mauery ASSERT_EQ(p.size(), v.size() * sizeof(v[0])); 180ebe8e906SVernon Mauery // check that the bytes were correctly packed (in byte order) 181ebe8e906SVernon Mauery std::vector<uint8_t> k = {0x02, 0x00, 0x86, 0x04}; 182ebe8e906SVernon Mauery ASSERT_EQ(p.raw, k); 183ebe8e906SVernon Mauery } 184ebe8e906SVernon Mauery 185ebe8e906SVernon Mauery TEST(PackBasics, Array4xUint32) 186ebe8e906SVernon Mauery { 187ebe8e906SVernon Mauery // an array of multi-byte values will be output in order low-order 188ebe8e906SVernon Mauery // element first, each multi-byte element in LSByte order 189ebe8e906SVernon Mauery // v[0][7:0] v[0][15:9] v[0][23:16] v[0][31:24] 190ebe8e906SVernon Mauery // v[1][7:0] v[1][15:9] v[1][23:16] v[1][31:24] 191ebe8e906SVernon Mauery // v[2][7:0] v[2][15:9] v[2][23:16] v[2][31:24] 192ebe8e906SVernon Mauery // v[3][7:0] v[3][15:9] v[3][23:16] v[3][31:24] 193ebe8e906SVernon Mauery ipmi::message::Payload p; 194ebe8e906SVernon Mauery std::array<uint32_t, 4> v = { 195ebe8e906SVernon Mauery {0x11223344, 0x22446688, 0x33557799, 0x12345678}}; 196ebe8e906SVernon Mauery p.pack(v); 197ebe8e906SVernon Mauery // check that the number of bytes matches 198ebe8e906SVernon Mauery ASSERT_EQ(p.size(), v.size() * sizeof(v[0])); 199ebe8e906SVernon Mauery // check that the bytes were correctly packed (in byte order) 200ebe8e906SVernon Mauery std::vector<uint8_t> k = {0x44, 0x33, 0x22, 0x11, 0x88, 0x66, 0x44, 0x22, 201ebe8e906SVernon Mauery 0x99, 0x77, 0x55, 0x33, 0x78, 0x56, 0x34, 0x12}; 202ebe8e906SVernon Mauery ASSERT_EQ(p.raw, k); 203ebe8e906SVernon Mauery } 204ebe8e906SVernon Mauery 205ebe8e906SVernon Mauery TEST(PackBasics, VectorUint32) 206ebe8e906SVernon Mauery { 207ebe8e906SVernon Mauery // a vector of multi-byte values will be output in order low-order 208ebe8e906SVernon Mauery // element first, each multi-byte element in LSByte order 209ebe8e906SVernon Mauery // v[0][7:0] v[0][15:9] v[0][23:16] v[0][31:24] 210ebe8e906SVernon Mauery // v[1][7:0] v[1][15:9] v[1][23:16] v[1][31:24] 211ebe8e906SVernon Mauery // v[2][7:0] v[2][15:9] v[2][23:16] v[2][31:24] 212ebe8e906SVernon Mauery // v[3][7:0] v[3][15:9] v[3][23:16] v[3][31:24] 213ebe8e906SVernon Mauery ipmi::message::Payload p; 214ebe8e906SVernon Mauery std::vector<uint32_t> v = { 215ebe8e906SVernon Mauery {0x11223344, 0x22446688, 0x33557799, 0x12345678}}; 216ebe8e906SVernon Mauery p.pack(v); 217ebe8e906SVernon Mauery // check that the number of bytes matches 218ebe8e906SVernon Mauery ASSERT_EQ(p.size(), v.size() * sizeof(v[0])); 219ebe8e906SVernon Mauery // check that the bytes were correctly packed (in byte order) 220ebe8e906SVernon Mauery std::vector<uint8_t> k = {0x44, 0x33, 0x22, 0x11, 0x88, 0x66, 0x44, 0x22, 221ebe8e906SVernon Mauery 0x99, 0x77, 0x55, 0x33, 0x78, 0x56, 0x34, 0x12}; 222ebe8e906SVernon Mauery ASSERT_EQ(p.raw, k); 223ebe8e906SVernon Mauery } 224ebe8e906SVernon Mauery 225ebe8e906SVernon Mauery TEST(PackBasics, VectorUint8) 226ebe8e906SVernon Mauery { 227ebe8e906SVernon Mauery // a vector of bytes will be output verbatim, low-order element first 228ebe8e906SVernon Mauery ipmi::message::Payload p; 229ebe8e906SVernon Mauery std::vector<uint8_t> v = {0x02, 0x00, 0x86, 0x04}; 230ebe8e906SVernon Mauery p.pack(v); 231ebe8e906SVernon Mauery // check that the number of bytes matches 232ebe8e906SVernon Mauery ASSERT_EQ(p.size(), v.size() * sizeof(v[0])); 233ebe8e906SVernon Mauery // check that the bytes were correctly packed (in byte order) 234ebe8e906SVernon Mauery std::vector<uint8_t> k = {0x02, 0x00, 0x86, 0x04}; 235ebe8e906SVernon Mauery ASSERT_EQ(p.raw, k); 236ebe8e906SVernon Mauery } 237ebe8e906SVernon Mauery 238906e0f80SWilliam A. Kennington III TEST(PackBasics, VectorUnaligned) 239906e0f80SWilliam A. Kennington III { 240906e0f80SWilliam A. Kennington III ipmi::message::Payload p; 241906e0f80SWilliam A. Kennington III EXPECT_EQ(p.pack(true, std::vector<uint8_t>{1}), 1); 242906e0f80SWilliam A. Kennington III EXPECT_EQ(p.raw, std::vector<uint8_t>{0b1}); 243906e0f80SWilliam A. Kennington III } 244906e0f80SWilliam A. Kennington III 245e2aec26cSWilliam A. Kennington III TEST(PackBasics, StringView) 246e2aec26cSWilliam A. Kennington III { 247e2aec26cSWilliam A. Kennington III ipmi::message::Payload p; 248e2aec26cSWilliam A. Kennington III EXPECT_EQ(p.pack(std::string_view{"\x24\x30\x11"}), 0); 249e2aec26cSWilliam A. Kennington III EXPECT_EQ(p.raw, std::vector<uint8_t>({0x24, 0x30, 0x11})); 250e2aec26cSWilliam A. Kennington III } 251e2aec26cSWilliam A. Kennington III 252e2aec26cSWilliam A. Kennington III TEST(PackBasics, StringViewUnaligned) 253e2aec26cSWilliam A. Kennington III { 254e2aec26cSWilliam A. Kennington III ipmi::message::Payload p; 255e2aec26cSWilliam A. Kennington III EXPECT_EQ(p.pack(true, std::string_view{"abc"}), 1); 256e2aec26cSWilliam A. Kennington III EXPECT_EQ(p.raw, std::vector<uint8_t>({0b1})); 257e2aec26cSWilliam A. Kennington III } 258e2aec26cSWilliam A. Kennington III 259bae91350SVernon Mauery TEST(PackBasics, OptionalEmpty) 260bae91350SVernon Mauery { 261bae91350SVernon Mauery // an optional will only pack if the value is present 262bae91350SVernon Mauery ipmi::message::Payload p; 263bae91350SVernon Mauery std::optional<uint32_t> v; 264bae91350SVernon Mauery p.pack(v); 265bae91350SVernon Mauery // check that the number of bytes matches 266bae91350SVernon Mauery ASSERT_EQ(p.size(), 0); 267bae91350SVernon Mauery // check that the bytes were correctly packed (in byte order) 268bae91350SVernon Mauery std::vector<uint8_t> k = {}; 269bae91350SVernon Mauery ASSERT_EQ(p.raw, k); 270bae91350SVernon Mauery } 271bae91350SVernon Mauery 272bae91350SVernon Mauery TEST(PackBasics, OptionalContainsValue) 273bae91350SVernon Mauery { 274bae91350SVernon Mauery // an optional will only pack if the value is present 275bae91350SVernon Mauery ipmi::message::Payload p; 276bae91350SVernon Mauery std::optional<uint32_t> v(0x04860002); 277bae91350SVernon Mauery p.pack(v); 278bae91350SVernon Mauery // check that the number of bytes matches 279bae91350SVernon Mauery ASSERT_EQ(p.size(), sizeof(uint32_t)); 280bae91350SVernon Mauery // check that the bytes were correctly packed (in byte order) 281bae91350SVernon Mauery std::vector<uint8_t> k = {0x02, 0x00, 0x86, 0x04}; 282bae91350SVernon Mauery ASSERT_EQ(p.raw, k); 283bae91350SVernon Mauery } 284bae91350SVernon Mauery 285*e15e53ebSWilliam A. Kennington III TEST(PackBasics, Payload) 286*e15e53ebSWilliam A. Kennington III { 287*e15e53ebSWilliam A. Kennington III ipmi::message::Payload p; 288*e15e53ebSWilliam A. Kennington III EXPECT_EQ(p.pack(true), 0); 289*e15e53ebSWilliam A. Kennington III EXPECT_EQ(p.pack(ipmi::message::Payload({0x24, 0x30})), 0); 290*e15e53ebSWilliam A. Kennington III EXPECT_EQ(p.raw, std::vector<uint8_t>({0b1, 0x24, 0x30})); 291*e15e53ebSWilliam A. Kennington III } 292*e15e53ebSWilliam A. Kennington III 293*e15e53ebSWilliam A. Kennington III TEST(PackBasics, PayloadUnaligned) 294*e15e53ebSWilliam A. Kennington III { 295*e15e53ebSWilliam A. Kennington III ipmi::message::Payload p; 296*e15e53ebSWilliam A. Kennington III EXPECT_EQ(p.pack(true, ipmi::message::Payload({0x24})), 1); 297*e15e53ebSWilliam A. Kennington III EXPECT_EQ(p.raw, std::vector<uint8_t>({0b1})); 298*e15e53ebSWilliam A. Kennington III } 299*e15e53ebSWilliam A. Kennington III 300*e15e53ebSWilliam A. Kennington III TEST(PackBasics, PayloadOtherUnaligned) 301*e15e53ebSWilliam A. Kennington III { 302*e15e53ebSWilliam A. Kennington III ipmi::message::Payload p, q; 303*e15e53ebSWilliam A. Kennington III q.appendBits(1, 1); 304*e15e53ebSWilliam A. Kennington III EXPECT_EQ(p.pack(true), 0); 305*e15e53ebSWilliam A. Kennington III EXPECT_EQ(p.pack(q), 1); 306*e15e53ebSWilliam A. Kennington III EXPECT_EQ(p.raw, std::vector<uint8_t>({0b1})); 307*e15e53ebSWilliam A. Kennington III } 308*e15e53ebSWilliam A. Kennington III 309ebe8e906SVernon Mauery TEST(PackAdvanced, Uints) 310ebe8e906SVernon Mauery { 311ebe8e906SVernon Mauery // all elements will be processed in order, with each multi-byte 312ebe8e906SVernon Mauery // element being processed LSByte first 313ebe8e906SVernon Mauery // v1[7:0] v2[7:0] v2[15:8] v3[7:0] v3[15:8] v3[23:16] v3[31:24] 314ebe8e906SVernon Mauery // v4[7:0] v4[15:8] v4[23:16] v4[31:24] 315ebe8e906SVernon Mauery // v4[39:25] v4[47:40] v4[55:48] v4[63:56] 316ebe8e906SVernon Mauery ipmi::message::Payload p; 317ebe8e906SVernon Mauery uint8_t v1 = 0x02; 318ebe8e906SVernon Mauery uint16_t v2 = 0x0604; 319ebe8e906SVernon Mauery uint32_t v3 = 0x44332211; 320ebe8e906SVernon Mauery uint64_t v4 = 0xccbbaa9988776655ull; 321ebe8e906SVernon Mauery p.pack(v1, v2, v3, v4); 322ebe8e906SVernon Mauery // check that the number of bytes matches 323ebe8e906SVernon Mauery ASSERT_EQ(p.size(), sizeof(v1) + sizeof(v2) + sizeof(v3) + sizeof(v4)); 324ebe8e906SVernon Mauery // check that the bytes were correctly packed (LSB first) 325ebe8e906SVernon Mauery std::vector<uint8_t> k = {0x02, 0x04, 0x06, 0x11, 0x22, 0x33, 0x44, 0x55, 326ebe8e906SVernon Mauery 0x66, 0x77, 0x88, 0x99, 0xaa, 0xbb, 0xcc}; 327ebe8e906SVernon Mauery ASSERT_EQ(p.raw, k); 328ebe8e906SVernon Mauery } 329ebe8e906SVernon Mauery 330ebe8e906SVernon Mauery TEST(PackAdvanced, TupleInts) 331ebe8e906SVernon Mauery { 332ebe8e906SVernon Mauery // all elements will be processed in order, with each multi-byte 333ebe8e906SVernon Mauery // element being processed LSByte first 334ebe8e906SVernon Mauery // v1[7:0] v2[7:0] v2[15:8] v3[7:0] v3[15:8] v3[23:16] v3[31:24] 335ebe8e906SVernon Mauery // v4[7:0] v4[15:8] v4[23:16] v4[31:24] 336ebe8e906SVernon Mauery // v4[39:25] v4[47:40] v4[55:48] v4[63:56] 337ebe8e906SVernon Mauery ipmi::message::Payload p; 338ebe8e906SVernon Mauery uint8_t v1 = 0x02; 339ebe8e906SVernon Mauery uint16_t v2 = 0x0604; 340ebe8e906SVernon Mauery uint32_t v3 = 0x44332211; 341ebe8e906SVernon Mauery uint64_t v4 = 0xccbbaa9988776655ull; 342ebe8e906SVernon Mauery auto v = std::make_tuple(v1, v2, v3, v4); 343ebe8e906SVernon Mauery p.pack(v); 344ebe8e906SVernon Mauery // check that the number of bytes matches 345ebe8e906SVernon Mauery ASSERT_EQ(p.size(), sizeof(v1) + sizeof(v2) + sizeof(v3) + sizeof(v4)); 346ebe8e906SVernon Mauery // check that the bytes were correctly packed (LSB first) 347ebe8e906SVernon Mauery std::vector<uint8_t> k = {0x02, 0x04, 0x06, 0x11, 0x22, 0x33, 0x44, 0x55, 348ebe8e906SVernon Mauery 0x66, 0x77, 0x88, 0x99, 0xaa, 0xbb, 0xcc}; 349ebe8e906SVernon Mauery ASSERT_EQ(p.raw, k); 350ebe8e906SVernon Mauery } 351ebe8e906SVernon Mauery 352f299807fSJames Feist TEST(PackAdvanced, VariantArray) 353f299807fSJames Feist { 354f299807fSJames Feist ipmi::message::Payload p; 355f299807fSJames Feist std::variant<std::array<uint8_t, 2>, uint32_t> variant; 356f299807fSJames Feist auto data = std::array<uint8_t, 2>{2, 4}; 357f299807fSJames Feist variant = data; 358f299807fSJames Feist 359f299807fSJames Feist p.pack(variant); 360f299807fSJames Feist ASSERT_EQ(p.size(), sizeof(data)); 361f299807fSJames Feist 362f299807fSJames Feist // check that the bytes were correctly packed packed (LSB first) 363f299807fSJames Feist std::vector<uint8_t> k = {2, 4}; 364f299807fSJames Feist ASSERT_EQ(p.raw, k); 365f299807fSJames Feist } 366f299807fSJames Feist 367ebe8e906SVernon Mauery TEST(PackAdvanced, BoolsnBitfieldsnFixedIntsOhMy) 368ebe8e906SVernon Mauery { 369ebe8e906SVernon Mauery // each element will be added, filling the low-order bits first 370ebe8e906SVernon Mauery // with multi-byte values getting added LSByte first 371ebe8e906SVernon Mauery // v1 will occupy k[0][1:0] 372ebe8e906SVernon Mauery // v2 will occupy k[0][2] 373ebe8e906SVernon Mauery // v3[4:0] will occupy k[0][7:3], v3[6:5] will occupy k[1][1:0] 374ebe8e906SVernon Mauery // v4 will occupy k[1][2] 375ebe8e906SVernon Mauery // v5 will occupy k[1][7:3] 376ebe8e906SVernon Mauery ipmi::message::Payload p; 377ebe8e906SVernon Mauery uint2_t v1 = 2; // binary 0b10 378ebe8e906SVernon Mauery bool v2 = true; // binary 0b1 379ebe8e906SVernon Mauery std::bitset<7> v3(0x73); // binary 0b1110011 380ebe8e906SVernon Mauery bool v4 = false; // binary 0b0 381ebe8e906SVernon Mauery uint5_t v5 = 27; // binary 0b11011 382ebe8e906SVernon Mauery // concat binary: 0b1101101110011110 -> 0xdb9e -> 0x9e 0xdb (LSByte first) 383ebe8e906SVernon Mauery p.pack(v1, v2, v3, v4, v5); 384ebe8e906SVernon Mauery // check that the number of bytes matches 385ebe8e906SVernon Mauery ASSERT_EQ(p.size(), sizeof(uint16_t)); 386ebe8e906SVernon Mauery // check that the bytes were correctly packed (LSB first) 387ebe8e906SVernon Mauery std::vector<uint8_t> k = {0x9e, 0xdb}; 388ebe8e906SVernon Mauery ASSERT_EQ(p.raw, k); 389ebe8e906SVernon Mauery } 390ebe8e906SVernon Mauery 391ebe8e906SVernon Mauery TEST(PackAdvanced, UnalignedBitPacking) 392ebe8e906SVernon Mauery { 393ebe8e906SVernon Mauery // unaligned multi-byte values will be packed the same as 394ebe8e906SVernon Mauery // other bits, effectively building up a large value, low-order 395ebe8e906SVernon Mauery // bits first, then outputting a stream of LSByte values 396ebe8e906SVernon Mauery // v1 will occupy k[0][1:0] 397ebe8e906SVernon Mauery // v2[5:0] will occupy k[0][7:2], v2[7:6] will occupy k[1][1:0] 398ebe8e906SVernon Mauery // v3 will occupy k[1][2] 399ebe8e906SVernon Mauery // v4[4:0] will occupy k[1][7:3] v4[12:5] will occupy k[2][7:0] 400ebe8e906SVernon Mauery // v4[15:13] will occupy k[3][2:0] 401ebe8e906SVernon Mauery // v5 will occupy k[3][3] 402ebe8e906SVernon Mauery // v6[3:0] will occupy k[3][7:0] v6[11:4] will occupy k[4][7:0] 403ebe8e906SVernon Mauery // v6[19:12] will occupy k[5][7:0] v6[27:20] will occupy k[6][7:0] 404ebe8e906SVernon Mauery // v6[31:28] will occupy k[7][3:0] 405ebe8e906SVernon Mauery // v7 will occupy k[7][7:4] 406ebe8e906SVernon Mauery ipmi::message::Payload p; 407ebe8e906SVernon Mauery uint2_t v1 = 2; // binary 0b10 408ebe8e906SVernon Mauery uint8_t v2 = 0xa5; // binary 0b10100101 409ebe8e906SVernon Mauery bool v3 = false; // binary 0b0 410ebe8e906SVernon Mauery uint16_t v4 = 0xa55a; // binary 0b1010010101011010 411ebe8e906SVernon Mauery bool v5 = true; // binary 0b1 412ebe8e906SVernon Mauery uint32_t v6 = 0xdbc3bd3c; // binary 0b11011011110000111011110100111100 413ebe8e906SVernon Mauery uint4_t v7 = 9; // binary 0b1001 414ebe8e906SVernon Mauery // concat binary: 415ebe8e906SVernon Mauery // 0b1001110110111100001110111101001111001101001010101101001010010110 416ebe8e906SVernon Mauery // -> 0x9dbc3bd3cd2ad296 -> 0x96 0xd2 0x2a 0xcd 0xd3 0x3b 0xbc 0x9d 417ebe8e906SVernon Mauery p.pack(v1, v2, v3, v4, v5, v6, v7); 418ebe8e906SVernon Mauery // check that the number of bytes matches 419ebe8e906SVernon Mauery ASSERT_EQ(p.size(), sizeof(uint64_t)); 420ebe8e906SVernon Mauery // check that the bytes were correctly packed (LSB first) 421ebe8e906SVernon Mauery std::vector<uint8_t> k = {0x96, 0xd2, 0x2a, 0xcd, 0xd3, 0x3b, 0xbc, 0x9d}; 422ebe8e906SVernon Mauery ASSERT_EQ(p.raw, k); 423ebe8e906SVernon Mauery } 424508c4576SVernon Mauery 425508c4576SVernon Mauery TEST(PackAdvanced, ComplexOptionalTuple) 426508c4576SVernon Mauery { 427508c4576SVernon Mauery constexpr size_t macSize = 6; 428508c4576SVernon Mauery // inspired from a real-world case of Get Session Info 429508c4576SVernon Mauery constexpr uint8_t handle = 0x23; // handle for active session 430508c4576SVernon Mauery constexpr uint8_t maxSessions = 15; // number of possible active sessions 431508c4576SVernon Mauery constexpr uint8_t currentSessions = 4; // number of current active sessions 432508c4576SVernon Mauery std::optional< // only returned for active session 433508c4576SVernon Mauery std::tuple<uint8_t, // user ID 434508c4576SVernon Mauery uint8_t, // privilege 435508c4576SVernon Mauery uint4_t, // channel number 436508c4576SVernon Mauery uint4_t // protocol (RMCP+) 437508c4576SVernon Mauery >> 438508c4576SVernon Mauery activeSession; 439508c4576SVernon Mauery std::optional< // only returned for channel type LAN 440508c4576SVernon Mauery std::tuple<uint32_t, // IPv4 address 441508c4576SVernon Mauery std::array<uint8_t, macSize>, // MAC address 442508c4576SVernon Mauery uint16_t // port 443508c4576SVernon Mauery >> 444508c4576SVernon Mauery lanSession; 445508c4576SVernon Mauery 446508c4576SVernon Mauery constexpr uint8_t userID = 7; 447508c4576SVernon Mauery constexpr uint8_t priv = 4; 448508c4576SVernon Mauery constexpr uint4_t channel = 2; 449508c4576SVernon Mauery constexpr uint4_t protocol = 1; 450508c4576SVernon Mauery activeSession.emplace(userID, priv, channel, protocol); 451508c4576SVernon Mauery constexpr std::array<uint8_t, macSize> macAddr{0}; 452508c4576SVernon Mauery lanSession.emplace(0x0a010105, macAddr, 55327); 453508c4576SVernon Mauery 454508c4576SVernon Mauery ipmi::message::Payload p; 455508c4576SVernon Mauery p.pack(handle, maxSessions, currentSessions, activeSession, lanSession); 456508c4576SVernon Mauery ASSERT_EQ(p.size(), sizeof(handle) + sizeof(maxSessions) + 457508c4576SVernon Mauery sizeof(currentSessions) + 3 * sizeof(uint8_t) + 458508c4576SVernon Mauery sizeof(uint32_t) + sizeof(uint8_t) * macSize + 459508c4576SVernon Mauery sizeof(uint16_t)); 460508c4576SVernon Mauery uint8_t protocol_channel = 461508c4576SVernon Mauery (static_cast<uint8_t>(protocol) << 4) | static_cast<uint8_t>(channel); 462508c4576SVernon Mauery std::vector<uint8_t> k = {handle, maxSessions, currentSessions, userID, 463508c4576SVernon Mauery priv, protocol_channel, 464508c4576SVernon Mauery // ip addr 465508c4576SVernon Mauery 0x05, 0x01, 0x01, 0x0a, 466508c4576SVernon Mauery // mac addr 467508c4576SVernon Mauery 0, 0, 0, 0, 0, 0, 468508c4576SVernon Mauery // port 469508c4576SVernon Mauery 0x1f, 0xd8}; 470508c4576SVernon Mauery ASSERT_EQ(p.raw, k); 471508c4576SVernon Mauery } 472