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