packet.hh revision 9546
1/* 2 * Copyright (c) 2012-2013 ARM Limited 3 * All rights reserved 4 * 5 * The license below extends only to copyright in the software and shall 6 * not be construed as granting a license to any other intellectual 7 * property including but not limited to intellectual property relating 8 * to a hardware implementation of the functionality of the software 9 * licensed hereunder. You may use the software subject to the license 10 * terms below provided that you ensure that this notice is replicated 11 * unmodified and in its entirety in all distributions of the software, 12 * modified or unmodified, in source code or in binary form. 13 * 14 * Copyright (c) 2006 The Regents of The University of Michigan 15 * Copyright (c) 2010 Advanced Micro Devices, Inc. 16 * All rights reserved. 17 * 18 * Redistribution and use in source and binary forms, with or without 19 * modification, are permitted provided that the following conditions are 20 * met: redistributions of source code must retain the above copyright 21 * notice, this list of conditions and the following disclaimer; 22 * redistributions in binary form must reproduce the above copyright 23 * notice, this list of conditions and the following disclaimer in the 24 * documentation and/or other materials provided with the distribution; 25 * neither the name of the copyright holders nor the names of its 26 * contributors may be used to endorse or promote products derived from 27 * this software without specific prior written permission. 28 * 29 * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS 30 * "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT 31 * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR 32 * A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT 33 * OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, 34 * SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT 35 * LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, 36 * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY 37 * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT 38 * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE 39 * OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. 40 * 41 * Authors: Ron Dreslinski 42 * Steve Reinhardt 43 * Ali Saidi 44 * Andreas Hansson 45 */ 46 47/** 48 * @file 49 * Declaration of the Packet class. 50 */ 51 52#ifndef __MEM_PACKET_HH__ 53#define __MEM_PACKET_HH__ 54 55#include <bitset> 56#include <cassert> 57#include <list> 58 59#include "base/cast.hh" 60#include "base/compiler.hh" 61#include "base/flags.hh" 62#include "base/misc.hh" 63#include "base/printable.hh" 64#include "base/types.hh" 65#include "mem/request.hh" 66#include "sim/core.hh" 67 68class Packet; 69typedef Packet *PacketPtr; 70typedef uint8_t* PacketDataPtr; 71typedef std::list<PacketPtr> PacketList; 72 73class MemCmd 74{ 75 friend class Packet; 76 77 public: 78 /** 79 * List of all commands associated with a packet. 80 */ 81 enum Command 82 { 83 InvalidCmd, 84 ReadReq, 85 ReadResp, 86 ReadRespWithInvalidate, 87 WriteReq, 88 WriteResp, 89 Writeback, 90 SoftPFReq, 91 HardPFReq, 92 SoftPFResp, 93 HardPFResp, 94 // WriteInvalidateReq transactions used to be generated by the 95 // DMA ports when writing full blocks to memory, however, it 96 // is not used anymore since we put the I/O cache in place to 97 // deal with partial block writes. Hence, WriteInvalidateReq 98 // and WriteInvalidateResp are currently unused. The 99 // implication is that the I/O cache does read-exclusive 100 // operations on every full-cache-block DMA, and ultimately 101 // this needs to be fixed. 102 WriteInvalidateReq, 103 WriteInvalidateResp, 104 UpgradeReq, 105 SCUpgradeReq, // Special "weak" upgrade for StoreCond 106 UpgradeResp, 107 SCUpgradeFailReq, // Failed SCUpgradeReq in MSHR (never sent) 108 UpgradeFailResp, // Valid for SCUpgradeReq only 109 ReadExReq, 110 ReadExResp, 111 LoadLockedReq, 112 StoreCondReq, 113 StoreCondFailReq, // Failed StoreCondReq in MSHR (never sent) 114 StoreCondResp, 115 SwapReq, 116 SwapResp, 117 MessageReq, 118 MessageResp, 119 // Error responses 120 // @TODO these should be classified as responses rather than 121 // requests; coding them as requests initially for backwards 122 // compatibility 123 InvalidDestError, // packet dest field invalid 124 BadAddressError, // memory address invalid 125 FunctionalReadError, // unable to fulfill functional read 126 FunctionalWriteError, // unable to fulfill functional write 127 // Fake simulator-only commands 128 PrintReq, // Print state matching address 129 FlushReq, //request for a cache flush 130 InvalidationReq, // request for address to be invalidated from lsq 131 NUM_MEM_CMDS 132 }; 133 134 private: 135 /** 136 * List of command attributes. 137 */ 138 enum Attribute 139 { 140 IsRead, //!< Data flows from responder to requester 141 IsWrite, //!< Data flows from requester to responder 142 IsUpgrade, 143 IsInvalidate, 144 NeedsExclusive, //!< Requires exclusive copy to complete in-cache 145 IsRequest, //!< Issued by requester 146 IsResponse, //!< Issue by responder 147 NeedsResponse, //!< Requester needs response from target 148 IsSWPrefetch, 149 IsHWPrefetch, 150 IsLlsc, //!< Alpha/MIPS LL or SC access 151 HasData, //!< There is an associated payload 152 IsError, //!< Error response 153 IsPrint, //!< Print state matching address (for debugging) 154 IsFlush, //!< Flush the address from caches 155 NUM_COMMAND_ATTRIBUTES 156 }; 157 158 /** 159 * Structure that defines attributes and other data associated 160 * with a Command. 161 */ 162 struct CommandInfo 163 { 164 /// Set of attribute flags. 165 const std::bitset<NUM_COMMAND_ATTRIBUTES> attributes; 166 /// Corresponding response for requests; InvalidCmd if no 167 /// response is applicable. 168 const Command response; 169 /// String representation (for printing) 170 const std::string str; 171 }; 172 173 /// Array to map Command enum to associated info. 174 static const CommandInfo commandInfo[]; 175 176 private: 177 178 Command cmd; 179 180 bool 181 testCmdAttrib(MemCmd::Attribute attrib) const 182 { 183 return commandInfo[cmd].attributes[attrib] != 0; 184 } 185 186 public: 187 188 bool isRead() const { return testCmdAttrib(IsRead); } 189 bool isWrite() const { return testCmdAttrib(IsWrite); } 190 bool isUpgrade() const { return testCmdAttrib(IsUpgrade); } 191 bool isRequest() const { return testCmdAttrib(IsRequest); } 192 bool isResponse() const { return testCmdAttrib(IsResponse); } 193 bool needsExclusive() const { return testCmdAttrib(NeedsExclusive); } 194 bool needsResponse() const { return testCmdAttrib(NeedsResponse); } 195 bool isInvalidate() const { return testCmdAttrib(IsInvalidate); } 196 bool hasData() const { return testCmdAttrib(HasData); } 197 bool isReadWrite() const { return isRead() && isWrite(); } 198 bool isLLSC() const { return testCmdAttrib(IsLlsc); } 199 bool isError() const { return testCmdAttrib(IsError); } 200 bool isPrint() const { return testCmdAttrib(IsPrint); } 201 bool isFlush() const { return testCmdAttrib(IsFlush); } 202 203 const Command 204 responseCommand() const 205 { 206 return commandInfo[cmd].response; 207 } 208 209 /// Return the string to a cmd given by idx. 210 const std::string &toString() const { return commandInfo[cmd].str; } 211 int toInt() const { return (int)cmd; } 212 213 MemCmd(Command _cmd) : cmd(_cmd) { } 214 MemCmd(int _cmd) : cmd((Command)_cmd) { } 215 MemCmd() : cmd(InvalidCmd) { } 216 217 bool operator==(MemCmd c2) const { return (cmd == c2.cmd); } 218 bool operator!=(MemCmd c2) const { return (cmd != c2.cmd); } 219}; 220 221/** 222 * A Packet is used to encapsulate a transfer between two objects in 223 * the memory system (e.g., the L1 and L2 cache). (In contrast, a 224 * single Request travels all the way from the requester to the 225 * ultimate destination and back, possibly being conveyed by several 226 * different Packets along the way.) 227 */ 228class Packet : public Printable 229{ 230 public: 231 typedef uint32_t FlagsType; 232 typedef ::Flags<FlagsType> Flags; 233 234 private: 235 static const FlagsType PUBLIC_FLAGS = 0x00000000; 236 static const FlagsType PRIVATE_FLAGS = 0x00007F0F; 237 static const FlagsType COPY_FLAGS = 0x0000000F; 238 239 static const FlagsType SHARED = 0x00000001; 240 // Special control flags 241 /// Special timing-mode atomic snoop for multi-level coherence. 242 static const FlagsType EXPRESS_SNOOP = 0x00000002; 243 /// Does supplier have exclusive copy? 244 /// Useful for multi-level coherence. 245 static const FlagsType SUPPLY_EXCLUSIVE = 0x00000004; 246 // Snoop response flags 247 static const FlagsType MEM_INHIBIT = 0x00000008; 248 /// Are the 'addr' and 'size' fields valid? 249 static const FlagsType VALID_ADDR = 0x00000100; 250 static const FlagsType VALID_SIZE = 0x00000200; 251 /// Is the data pointer set to a value that shouldn't be freed 252 /// when the packet is destroyed? 253 static const FlagsType STATIC_DATA = 0x00001000; 254 /// The data pointer points to a value that should be freed when 255 /// the packet is destroyed. 256 static const FlagsType DYNAMIC_DATA = 0x00002000; 257 /// the data pointer points to an array (thus delete []) needs to 258 /// be called on it rather than simply delete. 259 static const FlagsType ARRAY_DATA = 0x00004000; 260 /// suppress the error if this packet encounters a functional 261 /// access failure. 262 static const FlagsType SUPPRESS_FUNC_ERROR = 0x00008000; 263 264 Flags flags; 265 266 public: 267 typedef MemCmd::Command Command; 268 269 /// The command field of the packet. 270 MemCmd cmd; 271 272 /// A pointer to the original request. 273 RequestPtr req; 274 275 private: 276 /** 277 * A pointer to the data being transfered. It can be differnt 278 * sizes at each level of the heirarchy so it belongs in the 279 * packet, not request. This may or may not be populated when a 280 * responder recieves the packet. If not populated it memory should 281 * be allocated. 282 */ 283 PacketDataPtr data; 284 285 /// The address of the request. This address could be virtual or 286 /// physical, depending on the system configuration. 287 Addr addr; 288 289 /// The size of the request or transfer. 290 unsigned size; 291 292 /** 293 * Source port identifier set on a request packet to enable 294 * appropriate routing of the responses. The source port 295 * identifier is set by any multiplexing component, e.g. a bus, as 296 * the timing responses need this information to be routed back to 297 * the appropriate port at a later point in time. The field can be 298 * updated (over-written) as the request packet passes through 299 * additional multiplexing components, and it is their 300 * responsibility to remember the original source port identifier, 301 * for example by using an appropriate sender state. The latter is 302 * done in the cache and bridge. 303 */ 304 PortID src; 305 306 /** 307 * Destination port identifier that is present on all response 308 * packets that passed through a multiplexing component as a 309 * request packet. The source port identifier is turned into a 310 * destination port identifier when the packet is turned into a 311 * response, and the destination is used, e.g. by the bus, to 312 * select the appropriate path through the interconnect. 313 */ 314 PortID dest; 315 316 /** 317 * The original value of the command field. Only valid when the 318 * current command field is an error condition; in that case, the 319 * previous contents of the command field are copied here. This 320 * field is *not* set on non-error responses. 321 */ 322 MemCmd origCmd; 323 324 /** 325 * These values specify the range of bytes found that satisfy a 326 * functional read. 327 */ 328 uint16_t bytesValidStart; 329 uint16_t bytesValidEnd; 330 331 public: 332 333 /// The time at which the packet will be fully transmitted 334 Tick finishTime; 335 336 /// The time at which the first chunk of the packet will be transmitted 337 Tick firstWordTime; 338 339 /** 340 * A virtual base opaque structure used to hold state associated 341 * with the packet (e.g., an MSHR), specific to a MemObject that 342 * sees the packet. A pointer to this state is returned in the 343 * packet's response so that the MemObject in question can quickly 344 * look up the state needed to process it. A specific subclass 345 * would be derived from this to carry state specific to a 346 * particular sending device. 347 * 348 * As multiple MemObjects may add their SenderState throughout the 349 * memory system, the SenderStates create a stack, where a 350 * MemObject can add a new Senderstate, as long as the 351 * predecessing SenderState is restored when the response comes 352 * back. For this reason, the predecessor should always be 353 * populated with the current SenderState of a packet before 354 * modifying the senderState field in the request packet. 355 */ 356 struct SenderState 357 { 358 SenderState* predecessor; 359 SenderState() : predecessor(NULL) {} 360 virtual ~SenderState() {} 361 }; 362 363 /** 364 * Object used to maintain state of a PrintReq. The senderState 365 * field of a PrintReq should always be of this type. 366 */ 367 class PrintReqState : public SenderState 368 { 369 private: 370 /** 371 * An entry in the label stack. 372 */ 373 struct LabelStackEntry 374 { 375 const std::string label; 376 std::string *prefix; 377 bool labelPrinted; 378 LabelStackEntry(const std::string &_label, std::string *_prefix); 379 }; 380 381 typedef std::list<LabelStackEntry> LabelStack; 382 LabelStack labelStack; 383 384 std::string *curPrefixPtr; 385 386 public: 387 std::ostream &os; 388 const int verbosity; 389 390 PrintReqState(std::ostream &os, int verbosity = 0); 391 ~PrintReqState(); 392 393 /** 394 * Returns the current line prefix. 395 */ 396 const std::string &curPrefix() { return *curPrefixPtr; } 397 398 /** 399 * Push a label onto the label stack, and prepend the given 400 * prefix string onto the current prefix. Labels will only be 401 * printed if an object within the label's scope is printed. 402 */ 403 void pushLabel(const std::string &lbl, 404 const std::string &prefix = " "); 405 406 /** 407 * Pop a label off the label stack. 408 */ 409 void popLabel(); 410 411 /** 412 * Print all of the pending unprinted labels on the 413 * stack. Called by printObj(), so normally not called by 414 * users unless bypassing printObj(). 415 */ 416 void printLabels(); 417 418 /** 419 * Print a Printable object to os, because it matched the 420 * address on a PrintReq. 421 */ 422 void printObj(Printable *obj); 423 }; 424 425 /** 426 * This packet's sender state. Devices should use dynamic_cast<> 427 * to cast to the state appropriate to the sender. The intent of 428 * this variable is to allow a device to attach extra information 429 * to a request. A response packet must return the sender state 430 * that was attached to the original request (even if a new packet 431 * is created). 432 */ 433 SenderState *senderState; 434 435 /** 436 * Push a new sender state to the packet and make the current 437 * sender state the predecessor of the new one. This should be 438 * prefered over direct manipulation of the senderState member 439 * variable. 440 * 441 * @param sender_state SenderState to push at the top of the stack 442 */ 443 void pushSenderState(SenderState *sender_state); 444 445 /** 446 * Pop the top of the state stack and return a pointer to it. This 447 * assumes the current sender state is not NULL. This should be 448 * preferred over direct manipulation of the senderState member 449 * variable. 450 * 451 * @return The current top of the stack 452 */ 453 SenderState *popSenderState(); 454 455 /** 456 * Go through the sender state stack and return the first instance 457 * that is of type T (as determined by a dynamic_cast). If there 458 * is no sender state of type T, NULL is returned. 459 * 460 * @return The topmost state of type T 461 */ 462 template <typename T> 463 T * findNextSenderState() const 464 { 465 T *t = NULL; 466 SenderState* sender_state = senderState; 467 while (t == NULL && sender_state != NULL) { 468 t = dynamic_cast<T*>(sender_state); 469 sender_state = sender_state->predecessor; 470 } 471 return t; 472 } 473 474 /// Return the string name of the cmd field (for debugging and 475 /// tracing). 476 const std::string &cmdString() const { return cmd.toString(); } 477 478 /// Return the index of this command. 479 inline int cmdToIndex() const { return cmd.toInt(); } 480 481 bool isRead() const { return cmd.isRead(); } 482 bool isWrite() const { return cmd.isWrite(); } 483 bool isUpgrade() const { return cmd.isUpgrade(); } 484 bool isRequest() const { return cmd.isRequest(); } 485 bool isResponse() const { return cmd.isResponse(); } 486 bool needsExclusive() const { return cmd.needsExclusive(); } 487 bool needsResponse() const { return cmd.needsResponse(); } 488 bool isInvalidate() const { return cmd.isInvalidate(); } 489 bool hasData() const { return cmd.hasData(); } 490 bool isReadWrite() const { return cmd.isReadWrite(); } 491 bool isLLSC() const { return cmd.isLLSC(); } 492 bool isError() const { return cmd.isError(); } 493 bool isPrint() const { return cmd.isPrint(); } 494 bool isFlush() const { return cmd.isFlush(); } 495 496 // Snoop flags 497 void assertMemInhibit() { flags.set(MEM_INHIBIT); } 498 bool memInhibitAsserted() { return flags.isSet(MEM_INHIBIT); } 499 void assertShared() { flags.set(SHARED); } 500 bool sharedAsserted() { return flags.isSet(SHARED); } 501 502 // Special control flags 503 void setExpressSnoop() { flags.set(EXPRESS_SNOOP); } 504 bool isExpressSnoop() { return flags.isSet(EXPRESS_SNOOP); } 505 void setSupplyExclusive() { flags.set(SUPPLY_EXCLUSIVE); } 506 void clearSupplyExclusive() { flags.clear(SUPPLY_EXCLUSIVE); } 507 bool isSupplyExclusive() { return flags.isSet(SUPPLY_EXCLUSIVE); } 508 void setSuppressFuncError() { flags.set(SUPPRESS_FUNC_ERROR); } 509 bool suppressFuncError() { return flags.isSet(SUPPRESS_FUNC_ERROR); } 510 511 // Network error conditions... encapsulate them as methods since 512 // their encoding keeps changing (from result field to command 513 // field, etc.) 514 void 515 setBadAddress() 516 { 517 assert(isResponse()); 518 cmd = MemCmd::BadAddressError; 519 } 520 521 bool hadBadAddress() const { return cmd == MemCmd::BadAddressError; } 522 void copyError(Packet *pkt) { assert(pkt->isError()); cmd = pkt->cmd; } 523 524 bool isSrcValid() const { return src != InvalidPortID; } 525 /// Accessor function to get the source index of the packet. 526 PortID getSrc() const { assert(isSrcValid()); return src; } 527 /// Accessor function to set the source index of the packet. 528 void setSrc(PortID _src) { src = _src; } 529 /// Reset source field, e.g. to retransmit packet on different bus. 530 void clearSrc() { src = InvalidPortID; } 531 532 bool isDestValid() const { return dest != InvalidPortID; } 533 /// Accessor function for the destination index of the packet. 534 PortID getDest() const { assert(isDestValid()); return dest; } 535 /// Accessor function to set the destination index of the packet. 536 void setDest(PortID _dest) { dest = _dest; } 537 /// Reset destination field, e.g. to turn a response into a request again. 538 void clearDest() { dest = InvalidPortID; } 539 540 Addr getAddr() const { assert(flags.isSet(VALID_ADDR)); return addr; } 541 /** 542 * Update the address of this packet mid-transaction. This is used 543 * by the address mapper to change an already set address to a new 544 * one based on the system configuration. It is intended to remap 545 * an existing address, so it asserts that the current address is 546 * valid. 547 */ 548 void setAddr(Addr _addr) { assert(flags.isSet(VALID_ADDR)); addr = _addr; } 549 550 unsigned getSize() const { assert(flags.isSet(VALID_SIZE)); return size; } 551 Addr getOffset(int blkSize) const { return getAddr() & (Addr)(blkSize - 1); } 552 553 /** 554 * It has been determined that the SC packet should successfully update 555 * memory. Therefore, convert this SC packet to a normal write. 556 */ 557 void 558 convertScToWrite() 559 { 560 assert(isLLSC()); 561 assert(isWrite()); 562 cmd = MemCmd::WriteReq; 563 } 564 565 /** 566 * When ruby is in use, Ruby will monitor the cache line and thus M5 567 * phys memory should treat LL ops as normal reads. 568 */ 569 void 570 convertLlToRead() 571 { 572 assert(isLLSC()); 573 assert(isRead()); 574 cmd = MemCmd::ReadReq; 575 } 576 577 /** 578 * Constructor. Note that a Request object must be constructed 579 * first, but the Requests's physical address and size fields need 580 * not be valid. The command must be supplied. 581 */ 582 Packet(Request *_req, MemCmd _cmd) 583 : cmd(_cmd), req(_req), data(NULL), 584 src(InvalidPortID), dest(InvalidPortID), 585 bytesValidStart(0), bytesValidEnd(0), 586 senderState(NULL) 587 { 588 if (req->hasPaddr()) { 589 addr = req->getPaddr(); 590 flags.set(VALID_ADDR); 591 } 592 if (req->hasSize()) { 593 size = req->getSize(); 594 flags.set(VALID_SIZE); 595 } 596 } 597 598 /** 599 * Alternate constructor if you are trying to create a packet with 600 * a request that is for a whole block, not the address from the 601 * req. this allows for overriding the size/addr of the req. 602 */ 603 Packet(Request *_req, MemCmd _cmd, int _blkSize) 604 : cmd(_cmd), req(_req), data(NULL), 605 src(InvalidPortID), dest(InvalidPortID), 606 bytesValidStart(0), bytesValidEnd(0), 607 senderState(NULL) 608 { 609 if (req->hasPaddr()) { 610 addr = req->getPaddr() & ~(_blkSize - 1); 611 flags.set(VALID_ADDR); 612 } 613 size = _blkSize; 614 flags.set(VALID_SIZE); 615 } 616 617 /** 618 * Alternate constructor for copying a packet. Copy all fields 619 * *except* if the original packet's data was dynamic, don't copy 620 * that, as we can't guarantee that the new packet's lifetime is 621 * less than that of the original packet. In this case the new 622 * packet should allocate its own data. 623 */ 624 Packet(Packet *pkt, bool clearFlags = false) 625 : cmd(pkt->cmd), req(pkt->req), 626 data(pkt->flags.isSet(STATIC_DATA) ? pkt->data : NULL), 627 addr(pkt->addr), size(pkt->size), src(pkt->src), dest(pkt->dest), 628 bytesValidStart(pkt->bytesValidStart), bytesValidEnd(pkt->bytesValidEnd), 629 senderState(pkt->senderState) 630 { 631 if (!clearFlags) 632 flags.set(pkt->flags & COPY_FLAGS); 633 634 flags.set(pkt->flags & (VALID_ADDR|VALID_SIZE)); 635 flags.set(pkt->flags & STATIC_DATA); 636 637 } 638 639 /** 640 * clean up packet variables 641 */ 642 ~Packet() 643 { 644 // If this is a request packet for which there's no response, 645 // delete the request object here, since the requester will 646 // never get the chance. 647 if (req && isRequest() && !needsResponse()) 648 delete req; 649 deleteData(); 650 } 651 652 /** 653 * Reinitialize packet address and size from the associated 654 * Request object, and reset other fields that may have been 655 * modified by a previous transaction. Typically called when a 656 * statically allocated Request/Packet pair is reused for multiple 657 * transactions. 658 */ 659 void 660 reinitFromRequest() 661 { 662 assert(req->hasPaddr()); 663 flags = 0; 664 addr = req->getPaddr(); 665 size = req->getSize(); 666 667 flags.set(VALID_ADDR|VALID_SIZE); 668 deleteData(); 669 } 670 671 /** 672 * Take a request packet and modify it in place to be suitable for 673 * returning as a response to that request. The source field is 674 * turned into the destination, and subsequently cleared. Note 675 * that the latter is not necessary for atomic requests, but 676 * causes no harm as neither field is valid. 677 */ 678 void 679 makeResponse() 680 { 681 assert(needsResponse()); 682 assert(isRequest()); 683 origCmd = cmd; 684 cmd = cmd.responseCommand(); 685 686 // responses are never express, even if the snoop that 687 // triggered them was 688 flags.clear(EXPRESS_SNOOP); 689 690 dest = src; 691 clearSrc(); 692 } 693 694 void 695 makeAtomicResponse() 696 { 697 makeResponse(); 698 } 699 700 void 701 makeTimingResponse() 702 { 703 makeResponse(); 704 } 705 706 void 707 setFunctionalResponseStatus(bool success) 708 { 709 if (!success) { 710 if (isWrite()) { 711 cmd = MemCmd::FunctionalWriteError; 712 } else { 713 cmd = MemCmd::FunctionalReadError; 714 } 715 } 716 } 717 718 void 719 setSize(unsigned size) 720 { 721 assert(!flags.isSet(VALID_SIZE)); 722 723 this->size = size; 724 flags.set(VALID_SIZE); 725 } 726 727 728 /** 729 * Set the data pointer to the following value that should not be 730 * freed. 731 */ 732 template <typename T> 733 void 734 dataStatic(T *p) 735 { 736 assert(flags.noneSet(STATIC_DATA|DYNAMIC_DATA|ARRAY_DATA)); 737 data = (PacketDataPtr)p; 738 flags.set(STATIC_DATA); 739 } 740 741 /** 742 * Set the data pointer to a value that should have delete [] 743 * called on it. 744 */ 745 template <typename T> 746 void 747 dataDynamicArray(T *p) 748 { 749 assert(flags.noneSet(STATIC_DATA|DYNAMIC_DATA|ARRAY_DATA)); 750 data = (PacketDataPtr)p; 751 flags.set(DYNAMIC_DATA|ARRAY_DATA); 752 } 753 754 /** 755 * set the data pointer to a value that should have delete called 756 * on it. 757 */ 758 template <typename T> 759 void 760 dataDynamic(T *p) 761 { 762 assert(flags.noneSet(STATIC_DATA|DYNAMIC_DATA|ARRAY_DATA)); 763 data = (PacketDataPtr)p; 764 flags.set(DYNAMIC_DATA); 765 } 766 767 /** 768 * get a pointer to the data ptr. 769 */ 770 template <typename T> 771 T* 772 getPtr(bool null_ok = false) 773 { 774 assert(null_ok || flags.isSet(STATIC_DATA|DYNAMIC_DATA)); 775 return (T*)data; 776 } 777 778 /** 779 * return the value of what is pointed to in the packet. 780 */ 781 template <typename T> 782 T get(); 783 784 /** 785 * set the value in the data pointer to v. 786 */ 787 template <typename T> 788 void set(T v); 789 790 /** 791 * Copy data into the packet from the provided pointer. 792 */ 793 void 794 setData(uint8_t *p) 795 { 796 if (p != getPtr<uint8_t>()) 797 std::memcpy(getPtr<uint8_t>(), p, getSize()); 798 } 799 800 /** 801 * Copy data into the packet from the provided block pointer, 802 * which is aligned to the given block size. 803 */ 804 void 805 setDataFromBlock(uint8_t *blk_data, int blkSize) 806 { 807 setData(blk_data + getOffset(blkSize)); 808 } 809 810 /** 811 * Copy data from the packet to the provided block pointer, which 812 * is aligned to the given block size. 813 */ 814 void 815 writeData(uint8_t *p) 816 { 817 std::memcpy(p, getPtr<uint8_t>(), getSize()); 818 } 819 820 /** 821 * Copy data from the packet to the memory at the provided pointer. 822 */ 823 void 824 writeDataToBlock(uint8_t *blk_data, int blkSize) 825 { 826 writeData(blk_data + getOffset(blkSize)); 827 } 828 829 /** 830 * delete the data pointed to in the data pointer. Ok to call to 831 * matter how data was allocted. 832 */ 833 void 834 deleteData() 835 { 836 if (flags.isSet(ARRAY_DATA)) 837 delete [] data; 838 else if (flags.isSet(DYNAMIC_DATA)) 839 delete data; 840 841 flags.clear(STATIC_DATA|DYNAMIC_DATA|ARRAY_DATA); 842 data = NULL; 843 } 844 845 /** If there isn't data in the packet, allocate some. */ 846 void 847 allocate() 848 { 849 if (data) { 850 assert(flags.isSet(STATIC_DATA|DYNAMIC_DATA)); 851 return; 852 } 853 854 assert(flags.noneSet(STATIC_DATA|DYNAMIC_DATA)); 855 flags.set(DYNAMIC_DATA|ARRAY_DATA); 856 data = new uint8_t[getSize()]; 857 } 858 859 /** 860 * Check a functional request against a memory value represented 861 * by a base/size pair and an associated data array. If the 862 * functional request is a read, it may be satisfied by the memory 863 * value. If the functional request is a write, it may update the 864 * memory value. 865 */ 866 bool checkFunctional(Printable *obj, Addr base, int size, uint8_t *data); 867 868 /** 869 * Check a functional request against a memory value stored in 870 * another packet (i.e. an in-transit request or response). 871 */ 872 bool 873 checkFunctional(PacketPtr other) 874 { 875 uint8_t *data = other->hasData() ? other->getPtr<uint8_t>() : NULL; 876 return checkFunctional(other, other->getAddr(), other->getSize(), 877 data); 878 } 879 880 /** 881 * Push label for PrintReq (safe to call unconditionally). 882 */ 883 void 884 pushLabel(const std::string &lbl) 885 { 886 if (isPrint()) 887 safe_cast<PrintReqState*>(senderState)->pushLabel(lbl); 888 } 889 890 /** 891 * Pop label for PrintReq (safe to call unconditionally). 892 */ 893 void 894 popLabel() 895 { 896 if (isPrint()) 897 safe_cast<PrintReqState*>(senderState)->popLabel(); 898 } 899 900 void print(std::ostream &o, int verbosity = 0, 901 const std::string &prefix = "") const; 902}; 903 904#endif //__MEM_PACKET_HH 905