#include <bitset>
#include "base/compiler.hh"
+#include "base/fast_alloc.hh"
#include "base/misc.hh"
+#include "base/printable.hh"
#include "mem/request.hh"
#include "sim/host.hh"
#include "sim/core.hh"
InvalidCmd,
ReadReq,
ReadResp,
+ ReadRespWithInvalidate,
WriteReq,
WriteResp,
Writeback,
- WritebackAck,
SoftPFReq,
HardPFReq,
SoftPFResp,
WriteInvalidateReq,
WriteInvalidateResp,
UpgradeReq,
+ UpgradeResp,
ReadExReq,
ReadExResp,
LoadLockedReq,
- LoadLockedResp,
StoreCondReq,
StoreCondResp,
SwapReq,
SwapResp,
+ // Error responses
+ // @TODO these should be classified as responses rather than
+ // requests; coding them as requests initially for backwards
+ // compatibility
+ NetworkNackError, // nacked at network layer (not by protocol)
+ InvalidDestError, // packet dest field invalid
+ BadAddressError, // memory address invalid
+ // Fake simulator-only commands
+ PrintReq, // Print state matching address
NUM_MEM_CMDS
};
NeedsResponse, //!< Requester needs response from target
IsSWPrefetch,
IsHWPrefetch,
- IsUpgrade,
IsLocked, //!< Alpha/MIPS LL or SC access
HasData, //!< There is an associated payload
+ IsError, //!< Error response
+ IsPrint, //!< Print state matching address (for debugging)
NUM_COMMAND_ATTRIBUTES
};
bool isWrite() const { return testCmdAttrib(IsWrite); }
bool isRequest() const { return testCmdAttrib(IsRequest); }
bool isResponse() const { return testCmdAttrib(IsResponse); }
- bool needsExclusive() const { return testCmdAttrib(NeedsExclusive); }
+ bool needsExclusive() const { return testCmdAttrib(NeedsExclusive); }
bool needsResponse() const { return testCmdAttrib(NeedsResponse); }
bool isInvalidate() const { return testCmdAttrib(IsInvalidate); }
bool hasData() const { return testCmdAttrib(HasData); }
bool isReadWrite() const { return isRead() && isWrite(); }
bool isLocked() const { return testCmdAttrib(IsLocked); }
+ bool isError() const { return testCmdAttrib(IsError); }
+ bool isPrint() const { return testCmdAttrib(IsPrint); }
const Command responseCommand() const {
return commandInfo[cmd].response;
* ultimate destination and back, possibly being conveyed by several
* different Packets along the way.)
*/
-class Packet
+class Packet : public FastAlloc, public Printable
{
public:
typedef MemCmd::Command Command;
+ /** The command field of the packet. */
+ MemCmd cmd;
+
+ /** A pointer to the original request. */
+ RequestPtr req;
+
private:
/** A pointer to the data being transfered. It can be differnt
* sizes at each level of the heirarchy so it belongs in the
* (unlike * addr, size, and src). */
short dest;
+ /** The original value of the command field. Only valid when the
+ * current command field is an error condition; in that case, the
+ * previous contents of the command field are copied here. This
+ * field is *not* set on non-error responses.
+ */
+ MemCmd origCmd;
+
/** Are the 'addr' and 'size' fields valid? */
bool addrSizeValid;
/** Is the 'src' field valid? */
bool srcValid;
+ bool destValid;
- enum SnoopFlag {
+ enum Flag {
+ // Snoop response flags
MemInhibit,
Shared,
- NUM_SNOOP_FLAGS
+ // Special control flags
+ /// Special timing-mode atomic snoop for multi-level coherence.
+ ExpressSnoop,
+ /// Does supplier have exclusive copy?
+ /// Useful for multi-level coherence.
+ SupplyExclusive,
+ NUM_PACKET_FLAGS
};
- /** Coherence snoopFlags for snooping */
- std::bitset<NUM_SNOOP_FLAGS> snoopFlags;
+ /** Status flags */
+ std::bitset<NUM_PACKET_FLAGS> flags;
public:
* should be routed based on its address. */
static const short Broadcast = -1;
- /** A pointer to the original request. */
- RequestPtr req;
-
- /** A virtual base opaque structure used to hold coherence-related
- * state. A specific subclass would be derived from this to
- * carry state specific to a particular coherence protocol. */
- class CoherenceState {
- public:
- virtual ~CoherenceState() {}
- };
-
- /** This packet's coherence state. Caches should use
- * dynamic_cast<> to cast to the state appropriate for the
- * system's coherence protocol. */
- CoherenceState *coherence;
-
/** A virtual base opaque structure used to hold state associated
* with the packet but specific to the sending device (e.g., an
* MSHR). A pointer to this state is returned in the packet's
virtual ~SenderState() {}
};
+ /**
+ * Object used to maintain state of a PrintReq. The senderState
+ * field of a PrintReq should always be of this type.
+ */
+ class PrintReqState : public SenderState, public FastAlloc {
+ /** An entry in the label stack. */
+ class LabelStackEntry {
+ public:
+ const std::string label;
+ std::string *prefix;
+ bool labelPrinted;
+ LabelStackEntry(const std::string &_label,
+ std::string *_prefix);
+ };
+
+ typedef std::list<LabelStackEntry> LabelStack;
+ LabelStack labelStack;
+
+ std::string *curPrefixPtr;
+
+ public:
+ std::ostream &os;
+ const int verbosity;
+
+ PrintReqState(std::ostream &os, int verbosity = 0);
+ ~PrintReqState();
+
+ /** Returns the current line prefix. */
+ const std::string &curPrefix() { return *curPrefixPtr; }
+
+ /** Push a label onto the label stack, and prepend the given
+ * prefix string onto the current prefix. Labels will only be
+ * printed if an object within the label's scope is
+ * printed. */
+ void pushLabel(const std::string &lbl,
+ const std::string &prefix = " ");
+ /** Pop a label off the label stack. */
+ void popLabel();
+ /** Print all of the pending unprinted labels on the
+ * stack. Called by printObj(), so normally not called by
+ * users unless bypassing printObj(). */
+ void printLabels();
+ /** Print a Printable object to os, because it matched the
+ * address on a PrintReq. */
+ void printObj(Printable *obj);
+ };
+
/** This packet's sender state. Devices should use dynamic_cast<>
* to cast to the state appropriate to the sender. */
SenderState *senderState;
- public:
-
- /** The command field of the packet. */
- MemCmd cmd;
-
/** Return the string name of the cmd field (for debugging and
* tracing). */
const std::string &cmdString() const { return cmd.toString(); }
/** Return the index of this command. */
inline int cmdToIndex() const { return cmd.toInt(); }
- public:
-
bool isRead() const { return cmd.isRead(); }
bool isWrite() const { return cmd.isWrite(); }
bool isRequest() const { return cmd.isRequest(); }
bool isResponse() const { return cmd.isResponse(); }
- bool needsExclusive() const { return cmd.needsExclusive(); }
+ bool needsExclusive() const { return cmd.needsExclusive(); }
bool needsResponse() const { return cmd.needsResponse(); }
bool isInvalidate() const { return cmd.isInvalidate(); }
bool hasData() const { return cmd.hasData(); }
bool isReadWrite() const { return cmd.isReadWrite(); }
bool isLocked() const { return cmd.isLocked(); }
-
- void assertMemInhibit() { snoopFlags[MemInhibit] = true; }
- void assertShared() { snoopFlags[Shared] = true; }
- bool memInhibitAsserted() { return snoopFlags[MemInhibit]; }
- bool sharedAsserted() { return snoopFlags[Shared]; }
+ bool isError() const { return cmd.isError(); }
+ bool isPrint() const { return cmd.isPrint(); }
+
+ // Snoop flags
+ void assertMemInhibit() { flags[MemInhibit] = true; }
+ bool memInhibitAsserted() { return flags[MemInhibit]; }
+ void assertShared() { flags[Shared] = true; }
+ bool sharedAsserted() { return flags[Shared]; }
+
+ // Special control flags
+ void setExpressSnoop() { flags[ExpressSnoop] = true; }
+ bool isExpressSnoop() { return flags[ExpressSnoop]; }
+ void setSupplyExclusive() { flags[SupplyExclusive] = true; }
+ bool isSupplyExclusive() { return flags[SupplyExclusive]; }
+
+ // Network error conditions... encapsulate them as methods since
+ // their encoding keeps changing (from result field to command
+ // field, etc.)
+ void setNacked() { assert(isResponse()); cmd = MemCmd::NetworkNackError; }
+ void setBadAddress() { assert(isResponse()); cmd = MemCmd::BadAddressError; }
+ bool wasNacked() { return cmd == MemCmd::NetworkNackError; }
+ bool hadBadAddress() { return cmd == MemCmd::BadAddressError; }
+ void copyError(Packet *pkt) { assert(pkt->isError()); cmd = pkt->cmd; }
bool nic_pkt() { panic("Unimplemented"); M5_DUMMY_RETURN }
- /** Possible results of a packet's request. */
- enum Result
- {
- Success,
- BadAddress,
- Nacked,
- Unknown
- };
-
- /** The result of this packet's request. */
- Result result;
-
/** Accessor function that returns the source index of the packet. */
- short getSrc() const { assert(srcValid); return src; }
+ short getSrc() const { assert(srcValid); return src; }
void setSrc(short _src) { src = _src; srcValid = true; }
/** Reset source field, e.g. to retransmit packet on different bus. */
void clearSrc() { srcValid = false; }
/** Accessor function that returns the destination index of
the packet. */
- short getDest() const { return dest; }
- void setDest(short _dest) { dest = _dest; }
+ short getDest() const { assert(destValid); return dest; }
+ void setDest(short _dest) { dest = _dest; destValid = true; }
Addr getAddr() const { assert(addrSizeValid); return addr; }
- int getSize() const { assert(addrSizeValid); return size; }
+ int getSize() const { assert(addrSizeValid); return size; }
Addr getOffset(int blkSize) const { return addr & (Addr)(blkSize - 1); }
- void addrOverride(Addr newAddr) { assert(addrSizeValid); addr = newAddr; }
- void cmdOverride(MemCmd newCmd) { cmd = newCmd; }
-
/** Constructor. Note that a Request object must be constructed
* first, but the Requests's physical address and size fields
* need not be valid. The command and destination addresses
* must be supplied. */
Packet(Request *_req, MemCmd _cmd, short _dest)
- : data(NULL), staticData(false), dynamicData(false), arrayData(false),
+ : cmd(_cmd), req(_req),
+ data(NULL), staticData(false), dynamicData(false), arrayData(false),
addr(_req->paddr), size(_req->size), dest(_dest),
- addrSizeValid(_req->validPaddr), srcValid(false),
- snoopFlags(0),
- time(curTick),
- req(_req), coherence(NULL), senderState(NULL), cmd(_cmd),
- result(Unknown)
+ addrSizeValid(_req->validPaddr), srcValid(false), destValid(true),
+ flags(0), time(curTick), senderState(NULL)
{
}
* a request that is for a whole block, not the address from the req.
* this allows for overriding the size/addr of the req.*/
Packet(Request *_req, MemCmd _cmd, short _dest, int _blkSize)
- : data(NULL), staticData(false), dynamicData(false), arrayData(false),
+ : cmd(_cmd), req(_req),
+ data(NULL), staticData(false), dynamicData(false), arrayData(false),
addr(_req->paddr & ~(_blkSize - 1)), size(_blkSize), dest(_dest),
- addrSizeValid(_req->validPaddr), srcValid(false),
- snoopFlags(0),
- time(curTick),
- req(_req), coherence(NULL), senderState(NULL), cmd(_cmd),
- result(Unknown)
+ addrSizeValid(_req->validPaddr), srcValid(false), destValid(true),
+ flags(0), time(curTick), senderState(NULL)
{
}
/** Alternate constructor for copying a packet. Copy all fields
- * *except* set data allocation as static... even if the original
- * packet's data was dynamic, we don't want to free it when the
- * new packet is deallocated. Note that if original packet used
- * dynamic data, user must guarantee that the new packet's
- * lifetime is less than that of the original packet. */
- Packet(Packet *origPkt)
- : data(NULL), staticData(false), dynamicData(false), arrayData(false),
+ * *except* if the original packet's data was dynamic, don't copy
+ * that, as we can't guarantee that the new packet's lifetime is
+ * less than that of the original packet. In this case the new
+ * packet should allocate its own data. */
+ Packet(Packet *origPkt, bool clearFlags = false)
+ : cmd(origPkt->cmd), req(origPkt->req),
+ data(origPkt->staticData ? origPkt->data : NULL),
+ staticData(origPkt->staticData),
+ dynamicData(false), arrayData(false),
addr(origPkt->addr), size(origPkt->size),
- dest(origPkt->dest),
- addrSizeValid(origPkt->addrSizeValid), srcValid(origPkt->srcValid),
- snoopFlags(origPkt->snoopFlags),
- time(curTick),
- req(origPkt->req), coherence(origPkt->coherence),
- senderState(origPkt->senderState), cmd(origPkt->cmd),
- result(origPkt->result)
+ src(origPkt->src), dest(origPkt->dest),
+ addrSizeValid(origPkt->addrSizeValid),
+ srcValid(origPkt->srcValid), destValid(origPkt->destValid),
+ flags(clearFlags ? 0 : origPkt->flags),
+ time(curTick), senderState(origPkt->senderState)
{
}
/** Destructor. */
~Packet()
- { if (staticData || dynamicData) deleteData(); }
+ {
+ // If this is a request packet for which there's no response,
+ // delete the request object here, since the requester will
+ // never get the chance.
+ if (req && isRequest() && !needsResponse())
+ delete req;
+ if (staticData || dynamicData)
+ deleteData();
+ }
/** Reinitialize packet address and size from the associated
* Request object, and reset other fields that may have been
* multiple transactions. */
void reinitFromRequest() {
assert(req->validPaddr);
- snoopFlags = 0;
+ flags = 0;
addr = req->paddr;
size = req->size;
time = req->time;
addrSizeValid = true;
- result = Unknown;
if (dynamicData) {
deleteData();
dynamicData = false;
* destination fields are *not* modified, as is appropriate for
* atomic accesses.
*/
- void makeAtomicResponse()
+ void makeResponse()
{
assert(needsResponse());
assert(isRequest());
- assert(result == Unknown);
+ origCmd = cmd;
cmd = cmd.responseCommand();
- result = Success;
+ dest = src;
+ destValid = srcValid;
+ srcValid = false;
}
- /**
- * Perform the additional work required for timing responses above
- * and beyond atomic responses; i.e., change the destination to
- * point back to the requester and clear the source field.
- */
- void convertAtomicToTimingResponse()
+ void makeAtomicResponse()
{
- dest = src;
- srcValid = false;
+ makeResponse();
}
- /**
- * Take a request packet and modify it in place to be suitable for
- * returning as a response to a timing request.
- */
void makeTimingResponse()
{
- makeAtomicResponse();
- convertAtomicToTimingResponse();
+ makeResponse();
}
/**
void
reinitNacked()
{
- assert(needsResponse() && result == Nacked);
- dest = Broadcast;
- result = Unknown;
+ assert(wasNacked());
+ cmd = origCmd;
+ assert(needsResponse());
+ setDest(Broadcast);
}
/** If there isn't data in the packet, allocate some. */
void allocate();
- /** Do the packet modify the same addresses. */
- bool intersect(PacketPtr p);
-
/**
* Check a functional request against a memory value represented
* by a base/size pair and an associated data array. If the
* value. If the functional request is a write, it may update the
* memory value.
*/
- bool checkFunctional(Addr base, int size, uint8_t *data);
+ bool checkFunctional(Printable *obj, Addr base, int size, uint8_t *data);
/**
* Check a functional request against a memory value stored in
* another packet (i.e. an in-transit request or response).
*/
bool checkFunctional(PacketPtr otherPkt) {
- return (otherPkt->hasData() &&
- checkFunctional(otherPkt->getAddr(), otherPkt->getSize(),
- otherPkt->getPtr<uint8_t>()));
+ return checkFunctional(otherPkt,
+ otherPkt->getAddr(), otherPkt->getSize(),
+ otherPkt->hasData() ?
+ otherPkt->getPtr<uint8_t>() : NULL);
}
-};
-
+ /**
+ * Push label for PrintReq (safe to call unconditionally).
+ */
+ void pushLabel(const std::string &lbl) {
+ if (isPrint()) {
+ dynamic_cast<PrintReqState*>(senderState)->pushLabel(lbl);
+ }
+ }
-/** Temporary for backwards compatibility.
- */
-inline
-bool fixPacket(PacketPtr func, PacketPtr timing) {
- return !func->checkFunctional(timing);
-}
-
-/** This function is a wrapper for the fixPacket field that toggles
- * the hasData bit it is used when a response is waiting in the
- * caches, but hasn't been marked as a response yet (so the fixPacket
- * needs to get the correct value for the hasData)
- */
-bool fixDelayedResponsePacket(PacketPtr func, PacketPtr timing);
+ /**
+ * Pop label for PrintReq (safe to call unconditionally).
+ */
+ void popLabel() {
+ if (isPrint()) {
+ dynamic_cast<PrintReqState*>(senderState)->popLabel();
+ }
+ }
-std::ostream & operator<<(std::ostream &o, const Packet &p);
+ void print(std::ostream &o, int verbosity = 0,
+ const std::string &prefix = "") const;
+};
#endif //__MEM_PACKET_HH