1 /** 2 * Copyright © 2018 Intel Corporation 3 * 4 * Licensed under the Apache License, Version 2.0 (the "License"); 5 * you may not use this file except in compliance with the License. 6 * You may obtain a copy of the License at 7 * 8 * http://www.apache.org/licenses/LICENSE-2.0 9 * 10 * Unless required by applicable law or agreed to in writing, software 11 * distributed under the License is distributed on an "AS IS" BASIS, 12 * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. 13 * See the License for the specific language governing permissions and 14 * limitations under the License. 15 */ 16 #pragma once 17 18 #include <boost/asio/spawn.hpp> 19 #include <ipmid/api-types.hpp> 20 #include <ipmid/message/types.hpp> 21 #include <ipmid/types.hpp> 22 #include <phosphor-logging/lg2.hpp> 23 #include <sdbusplus/asio/connection.hpp> 24 25 #include <algorithm> 26 #include <cstdint> 27 #include <exception> 28 #include <memory> 29 #include <tuple> 30 #include <utility> 31 #include <vector> 32 33 namespace ipmi 34 { 35 36 struct Context 37 { 38 using ptr = std::shared_ptr<Context>; 39 40 Context() = delete; 41 Context(const Context&) = default; 42 Context& operator=(const Context&) = default; 43 Context(Context&&) = delete; 44 Context& operator=(Context&&) = delete; 45 46 Context(std::shared_ptr<sdbusplus::asio::connection> bus, NetFn netFn, 47 uint8_t lun, Cmd cmd, int channel, int userId, uint32_t sessionId, 48 Privilege priv, int rqSA, int hostIdx, 49 boost::asio::yield_context& yield) : 50 bus(bus), netFn(netFn), lun(lun), cmd(cmd), channel(channel), 51 userId(userId), sessionId(sessionId), priv(priv), rqSA(rqSA), 52 hostIdx(hostIdx), yield(yield) 53 {} 54 55 std::shared_ptr<sdbusplus::asio::connection> bus; 56 // normal IPMI context (what call is this, from whence it came...) 57 NetFn netFn; 58 uint8_t lun; 59 Cmd cmd; 60 int channel; 61 int userId; 62 uint32_t sessionId; 63 Privilege priv; 64 // srcAddr is only set on IPMB requests because 65 // Platform Event Message needs it to determine the incoming format 66 int rqSA; 67 int hostIdx; 68 boost::asio::yield_context yield; 69 }; 70 71 namespace message 72 { 73 74 namespace details 75 { 76 77 template <typename A> 78 struct UnpackSingle; 79 80 template <typename T> 81 using UnpackSingle_t = UnpackSingle<utility::TypeIdDowncast_t<T>>; 82 83 template <typename A> 84 struct PackSingle; 85 86 template <typename T> 87 using PackSingle_t = PackSingle<utility::TypeIdDowncast_t<T>>; 88 89 // size to hold 64 bits plus one (possibly-)partial byte 90 static constexpr size_t bitStreamSize = ((sizeof(uint64_t) + 1) * CHAR_BIT); 91 92 } // namespace details 93 94 /** 95 * @brief a payload class that provides a mechanism to pack and unpack data 96 * 97 * When a new request is being executed, the Payload class is responsible for 98 * attempting to unpack all the required arguments from the incoming blob. For 99 * variable-length functions, it is possible to have function signature have a 100 * Payload object, which will then allow the remaining data to be extracted as 101 * needed. 102 * 103 * When creating a response, the parameters returned from the callback use a 104 * newly created payload object to pack all the parameters into a buffer that is 105 * then returned to the requester. 106 * 107 * These interfaces make calls into the message/pack.hpp and message/unpack.hpp 108 * functions. 109 */ 110 struct Payload 111 { 112 Payload() = default; 113 Payload(const Payload&) = default; 114 Payload& operator=(const Payload&) = default; 115 Payload(Payload&&) = default; 116 Payload& operator=(Payload&&) = default; 117 118 explicit Payload(SecureBuffer&& data) : raw(std::move(data)) {} 119 120 ~Payload() 121 { 122 if (raw.size() != 0 && std::uncaught_exceptions() == 0 && !trailingOk && 123 !unpackCheck && !unpackError) 124 { 125 lg2::error( 126 "Failed to check request for full unpack: raw size: {RAW_SIZE}", 127 "RAW_SIZE", raw.size()); 128 } 129 } 130 131 /****************************************************************** 132 * raw vector access 133 *****************************************************************/ 134 /** 135 * @brief return the size of the underlying raw buffer 136 */ 137 size_t size() const 138 { 139 return raw.size(); 140 } 141 /** 142 * @brief resize the underlying raw buffer to a new size 143 * 144 * @param sz - new size for the buffer 145 */ 146 void resize(size_t sz) 147 { 148 raw.resize(sz); 149 } 150 /** 151 * @brief return a pointer to the underlying raw buffer 152 */ 153 uint8_t* data() 154 { 155 return raw.data(); 156 } 157 /** 158 * @brief return a const pointer to the underlying raw buffer 159 */ 160 const uint8_t* data() const 161 { 162 return raw.data(); 163 } 164 165 /****************************************************************** 166 * Response operations 167 *****************************************************************/ 168 /** 169 * @brief append a series of bytes to the buffer 170 * 171 * @tparam T - the type pointer to return; must be compatible to a byte 172 * 173 * @param begin - a pointer to the beginning of the series 174 * @param end - a pointer to the end of the series 175 */ 176 template <typename T> 177 void append(T* begin, T* end) 178 { 179 static_assert( 180 std::is_same_v<utility::TypeIdDowncast_t<T>, int8_t> || 181 std::is_same_v<utility::TypeIdDowncast_t<T>, uint8_t> || 182 std::is_same_v<utility::TypeIdDowncast_t<T>, char>, 183 "begin and end must be signed or unsigned byte pointers"); 184 // this interface only allows full-byte access; pack in partial bytes 185 drain(); 186 raw.insert(raw.end(), reinterpret_cast<const uint8_t*>(begin), 187 reinterpret_cast<const uint8_t*>(end)); 188 } 189 190 /** 191 * @brief append a series of bits to the buffer 192 * 193 * Only the lowest @count order of bits will be appended, with the most 194 * significant of those bits getting appended first. 195 * 196 * @param count - number of bits to append 197 * @param bits - a byte with count significant bits to append 198 */ 199 void appendBits(size_t count, uint8_t bits) 200 { 201 // drain whole bytes out 202 drain(true); 203 204 // add in the new bits as the higher-order bits, filling LSBit first 205 fixed_uint_t<details::bitStreamSize> tmp = bits; 206 tmp <<= bitCount; 207 bitStream |= tmp; 208 bitCount += count; 209 210 // drain any whole bytes we have appended 211 drain(true); 212 } 213 214 /** 215 * @brief empty out the bucket and pack it as bytes LSB-first 216 * 217 * @param wholeBytesOnly - if true, only the whole bytes will be drained 218 */ 219 void drain(bool wholeBytesOnly = false) 220 { 221 while (bitCount > 0) 222 { 223 uint8_t retVal; 224 if (bitCount < CHAR_BIT) 225 { 226 if (wholeBytesOnly) 227 { 228 break; 229 } 230 } 231 size_t bitsOut = std::min(static_cast<size_t>(CHAR_BIT), bitCount); 232 retVal = static_cast<uint8_t>(bitStream); 233 raw.push_back(retVal); 234 bitStream >>= bitsOut; 235 bitCount -= bitsOut; 236 } 237 } 238 239 // base empty pack 240 int pack() 241 { 242 return 0; 243 } 244 245 /** 246 * @brief pack arbitrary values (of any supported type) into the buffer 247 * 248 * @tparam Arg - the type of the first argument 249 * @tparam Args - the type of the optional remaining arguments 250 * 251 * @param arg - the first argument to pack 252 * @param args... - the optional remaining arguments to pack 253 * 254 * @return int - non-zero on pack errors 255 */ 256 template <typename Arg, typename... Args> 257 int pack(Arg&& arg, Args&&... args) 258 { 259 int packRet = 260 details::PackSingle_t<Arg>::op(*this, std::forward<Arg>(arg)); 261 if (packRet) 262 { 263 return packRet; 264 } 265 packRet = pack(std::forward<Args>(args)...); 266 drain(); 267 return packRet; 268 } 269 270 /** 271 * @brief Prepends another payload to this one 272 * 273 * Avoid using this unless absolutely required since it inserts into the 274 * front of the response payload. 275 * 276 * @param p - The payload to prepend 277 * 278 * @retunr int - non-zero on prepend errors 279 */ 280 int prepend(const ipmi::message::Payload& p) 281 { 282 if (bitCount != 0 || p.bitCount != 0) 283 { 284 return 1; 285 } 286 raw.reserve(raw.size() + p.raw.size()); 287 raw.insert(raw.begin(), p.raw.begin(), p.raw.end()); 288 return 0; 289 } 290 291 /****************************************************************** 292 * Request operations 293 *****************************************************************/ 294 /** 295 * @brief pop a series of bytes from the raw buffer 296 * 297 * @tparam T - the type pointer to return; must be compatible to a byte 298 * 299 * @param count - the number of bytes to return 300 * 301 * @return - a tuple of pointers (begin,begin+count) 302 */ 303 template <typename T> 304 auto pop(size_t count) 305 { 306 static_assert( 307 std::is_same_v<utility::TypeIdDowncast_t<T>, int8_t> || 308 std::is_same_v<utility::TypeIdDowncast_t<T>, uint8_t> || 309 std::is_same_v<utility::TypeIdDowncast_t<T>, char>, 310 "T* must be signed or unsigned byte pointers"); 311 // this interface only allows full-byte access; skip partial bits 312 if (bitCount) 313 { 314 // WARN on unused bits? 315 discardBits(); 316 } 317 if (count <= (raw.size() - rawIndex)) 318 { 319 auto range = std::make_tuple( 320 reinterpret_cast<T*>(raw.data() + rawIndex), 321 reinterpret_cast<T*>(raw.data() + rawIndex + count)); 322 rawIndex += count; 323 return range; 324 } 325 unpackError = true; 326 return std::make_tuple(reinterpret_cast<T*>(NULL), 327 reinterpret_cast<T*>(NULL)); 328 } 329 330 /** 331 * @brief fill bit stream with at least count bits for consumption 332 * 333 * @param count - number of bit needed 334 * 335 * @return - unpackError 336 */ 337 bool fillBits(size_t count) 338 { 339 // add more bits to the top end of the bitstream 340 // so we consume bits least-significant first 341 if (count > (details::bitStreamSize - CHAR_BIT)) 342 { 343 unpackError = true; 344 return unpackError; 345 } 346 while (bitCount < count) 347 { 348 if (rawIndex < raw.size()) 349 { 350 fixed_uint_t<details::bitStreamSize> tmp = raw[rawIndex++]; 351 tmp <<= bitCount; 352 bitStream |= tmp; 353 bitCount += CHAR_BIT; 354 } 355 else 356 { 357 // raw has run out of bytes to pop 358 unpackError = true; 359 return unpackError; 360 } 361 } 362 return false; 363 } 364 365 /** 366 * @brief consume count bits from bitstream (must call fillBits first) 367 * 368 * @param count - number of bit needed 369 * 370 * @return - count bits from stream 371 */ 372 uint8_t popBits(size_t count) 373 { 374 if (bitCount < count) 375 { 376 unpackError = true; 377 return 0; 378 } 379 // consume bits low-order bits first 380 auto bits = bitStream.convert_to<uint8_t>(); 381 bits &= ((1 << count) - 1); 382 bitStream >>= count; 383 bitCount -= count; 384 return bits; 385 } 386 387 /** 388 * @brief discard all partial bits 389 */ 390 void discardBits() 391 { 392 bitStream = 0; 393 bitCount = 0; 394 } 395 396 /** 397 * @brief fully reset the unpack stream 398 */ 399 void reset() 400 { 401 discardBits(); 402 rawIndex = 0; 403 unpackError = false; 404 } 405 406 /** 407 * @brief check to see if the stream has been fully unpacked 408 * 409 * @return bool - true if the stream has been unpacked and has no errors 410 */ 411 bool fullyUnpacked() 412 { 413 unpackCheck = true; 414 return raw.size() == rawIndex && bitCount == 0 && !unpackError; 415 } 416 417 // base empty unpack 418 int unpack() 419 { 420 return 0; 421 } 422 423 /** 424 * @brief unpack arbitrary values (of any supported type) from the buffer 425 * 426 * @tparam Arg - the type of the first argument 427 * @tparam Args - the type of the optional remaining arguments 428 * 429 * @param arg - the first argument to unpack 430 * @param args... - the optional remaining arguments to unpack 431 * 432 * @return int - non-zero for unpack error 433 */ 434 template <typename Arg, typename... Args> 435 int unpack(Arg&& arg, Args&&... args) 436 { 437 int unpackRet = 438 details::UnpackSingle_t<Arg>::op(*this, std::forward<Arg>(arg)); 439 if (unpackRet) 440 { 441 unpackError = true; 442 return unpackRet; 443 } 444 return unpack(std::forward<Args>(args)...); 445 } 446 447 /** 448 * @brief unpack a tuple of values (of any supported type) from the buffer 449 * 450 * This will unpack the elements of the tuple as if each one was passed in 451 * individually, as if passed into the above variadic function. 452 * 453 * @tparam Types - the implicitly declared list of the tuple element types 454 * 455 * @param t - the tuple of values to unpack 456 * 457 * @return int - non-zero on unpack error 458 */ 459 template <typename... Types> 460 int unpack(std::tuple<Types...>& t) 461 { 462 // roll back checkpoint so that unpacking a tuple is atomic 463 size_t priorBitCount = bitCount; 464 size_t priorIndex = rawIndex; 465 fixed_uint_t<details::bitStreamSize> priorBits = bitStream; 466 467 int ret = 468 std::apply([this](Types&... args) { return unpack(args...); }, t); 469 if (ret) 470 { 471 bitCount = priorBitCount; 472 bitStream = priorBits; 473 rawIndex = priorIndex; 474 } 475 476 return ret; 477 } 478 479 // partial bytes in the form of bits 480 fixed_uint_t<details::bitStreamSize> bitStream; 481 size_t bitCount = 0; 482 SecureBuffer raw; 483 size_t rawIndex = 0; 484 bool trailingOk = true; 485 bool unpackCheck = false; 486 bool unpackError = false; 487 }; 488 489 /** 490 * @brief high-level interface to an IPMI response 491 * 492 * Make it easy to just pack in the response args from the callback into a 493 * buffer that goes back to the requester. 494 */ 495 struct Response 496 { 497 /* Define all of the basic class operations: 498 * Not allowed: 499 * - Default constructor to avoid nullptrs. 500 * Allowed: 501 * - Copy operations. 502 * - Move operations. 503 * - Destructor. 504 */ 505 Response() = delete; 506 Response(const Response&) = default; 507 Response& operator=(const Response&) = default; 508 Response(Response&&) = default; 509 Response& operator=(Response&&) = default; 510 ~Response() = default; 511 512 using ptr = std::shared_ptr<Response>; 513 514 explicit Response(Context::ptr& context) : 515 payload(), ctx(context), cc(ccSuccess) 516 {} 517 518 /** 519 * @brief pack arbitrary values (of any supported type) into the payload 520 * 521 * @tparam Args - the type of the optional arguments 522 * 523 * @param args... - the optional arguments to pack 524 * 525 * @return int - non-zero on pack errors 526 */ 527 template <typename... Args> 528 int pack(Args&&... args) 529 { 530 return payload.pack(std::forward<Args>(args)...); 531 } 532 533 /** 534 * @brief pack a tuple of values (of any supported type) into the payload 535 * 536 * This will pack the elements of the tuple as if each one was passed in 537 * individually, as if passed into the above variadic function. 538 * 539 * @tparam Types - the implicitly declared list of the tuple element types 540 * 541 * @param t - the tuple of values to pack 542 * 543 * @return int - non-zero on pack errors 544 */ 545 template <typename... Types> 546 int pack(std::tuple<Types...>& t) 547 { 548 return payload.pack(t); 549 } 550 551 /** 552 * @brief Prepends another payload to this one 553 * 554 * Avoid using this unless absolutely required since it inserts into the 555 * front of the response payload. 556 * 557 * @param p - The payload to prepend 558 * 559 * @retunr int - non-zero on prepend errors 560 */ 561 int prepend(const ipmi::message::Payload& p) 562 { 563 return payload.prepend(p); 564 } 565 566 Payload payload; 567 Context::ptr ctx; 568 Cc cc; 569 }; 570 571 /** 572 * @brief high-level interface to an IPMI request 573 * 574 * Make it easy to unpack the buffer into the request args for the callback. 575 */ 576 struct Request 577 { 578 /* Define all of the basic class operations: 579 * Not allowed: 580 * - Default constructor to avoid nullptrs. 581 * Allowed: 582 * - Copy operations. 583 * - Move operations. 584 * - Destructor. 585 */ 586 Request() = delete; 587 Request(const Request&) = default; 588 Request& operator=(const Request&) = default; 589 Request(Request&&) = default; 590 Request& operator=(Request&&) = default; 591 ~Request() = default; 592 593 using ptr = std::shared_ptr<Request>; 594 595 explicit Request(Context::ptr context, SecureBuffer&& d) : 596 payload(std::forward<SecureBuffer>(d)), ctx(context) 597 {} 598 599 /** 600 * @brief unpack arbitrary values (of any supported type) from the payload 601 * 602 * @tparam Args - the type of the optional arguments 603 * 604 * @param args... - the optional arguments to unpack 605 * 606 * @return int - non-zero for unpack error 607 */ 608 template <typename... Args> 609 int unpack(Args&&... args) 610 { 611 int unpackRet = payload.unpack(std::forward<Args>(args)...); 612 if (unpackRet != ipmi::ccSuccess) 613 { 614 // not all bits were consumed by requested parameters 615 return ipmi::ccReqDataLenInvalid; 616 } 617 if (!payload.trailingOk) 618 { 619 if (!payload.fullyUnpacked()) 620 { 621 // not all bits were consumed by requested parameters 622 return ipmi::ccReqDataLenInvalid; 623 } 624 } 625 return ipmi::ccSuccess; 626 } 627 628 /** 629 * @brief unpack a tuple of values (of any supported type) from the payload 630 * 631 * This will unpack the elements of the tuple as if each one was passed in 632 * individually, as if passed into the above variadic function. 633 * 634 * @tparam Types - the implicitly declared list of the tuple element types 635 * 636 * @param t - the tuple of values to unpack 637 * 638 * @return int - non-zero on unpack error 639 */ 640 template <typename... Types> 641 int unpack(std::tuple<Types...>& t) 642 { 643 return std::apply([this](Types&... args) { return unpack(args...); }, 644 t); 645 } 646 647 /** @brief Create a response message that corresponds to this request 648 * 649 * @return A shared_ptr to the response message created 650 */ 651 Response::ptr makeResponse() 652 { 653 return std::make_shared<Response>(ctx); 654 } 655 656 Payload payload; 657 Context::ptr ctx; 658 }; 659 660 } // namespace message 661 662 } // namespace ipmi 663 664 // include packing and unpacking of types 665 #include <ipmid/message/pack.hpp> 666 #include <ipmid/message/unpack.hpp> 667