1/* 2 * Copyright (c) 1999-2008 Mark D. Hill and David A. Wood 3 * All rights reserved. 4 * 5 * Redistribution and use in source and binary forms, with or without 6 * modification, are permitted provided that the following conditions are 7 * met: redistributions of source code must retain the above copyright 8 * notice, this list of conditions and the following disclaimer; --- 27 unchanged lines hidden (view full) --- 36 37#include <algorithm> 38#include <cassert> 39#include <functional> 40#include <iostream> 41#include <string> 42#include <vector> 43 |
44#include "debug/RubyQueue.hh" |
45#include "mem/ruby/common/Address.hh" 46#include "mem/ruby/common/Consumer.hh" 47#include "mem/ruby/slicc_interface/Message.hh" 48#include "mem/packet.hh" |
49#include "params/MessageBuffer.hh" 50#include "sim/sim_object.hh" |
51 |
52class MessageBuffer : public SimObject |
53{ 54 public: |
55 typedef MessageBufferParams Params; 56 MessageBuffer(const Params *p); |
57 |
58 void reanalyzeMessages(const Address& addr); 59 void reanalyzeAllMessages(); 60 void stallMessage(const Address& addr); 61 62 // TRUE if head of queue timestamp <= SystemTime 63 bool isReady() const; 64 65 void --- 6 unchanged lines hidden (view full) --- 72 enqueue(m, Cycles(1)); 73 } 74 75 bool areNSlotsAvailable(unsigned int n); 76 int getPriority() { return m_priority_rank; } 77 void setPriority(int rank) { m_priority_rank = rank; } 78 void setConsumer(Consumer* consumer) 79 { |
80 DPRINTF(RubyQueue, "Setting consumer: %s\n", *consumer); |
81 if (m_consumer != NULL) { 82 fatal("Trying to connect %s to MessageBuffer %s. \ 83 \n%s already connected. Check the cntrl_id's.\n", 84 *consumer, *this, *m_consumer); 85 } 86 m_consumer = consumer; 87 } 88 89 void setSender(ClockedObject* obj) 90 { |
91 DPRINTF(RubyQueue, "Setting sender: %s\n", obj->name()); |
92 assert(m_sender == NULL || m_sender == obj); 93 m_sender = obj; 94 } 95 96 void setReceiver(ClockedObject* obj) 97 { |
98 DPRINTF(RubyQueue, "Setting receiver: %s\n", obj->name()); |
99 assert(m_receiver == NULL || m_receiver == obj); 100 m_receiver = obj; 101 } 102 |
103 Consumer* getConsumer() { return m_consumer; } 104 |
105 bool getOrdered() { return m_strict_fifo; } 106 |
107 //! Function for extracting the message at the head of the 108 //! message queue. The function assumes that the queue is nonempty. 109 const Message* peek() const; 110 111 const MsgPtr& 112 peekMsgPtr() const 113 { 114 assert(isReady()); --- 7 unchanged lines hidden (view full) --- 122 //! removes it from the queue and returns its total delay. 123 Cycles dequeue(); 124 125 void recycle(); 126 bool isEmpty() const { return m_prio_heap.size() == 0; } 127 bool isStallMapEmpty() { return m_stall_msg_map.size() == 0; } 128 unsigned int getStallMapSize() { return m_stall_msg_map.size(); } 129 |
130 unsigned int getSize(); |
131 132 void clear(); 133 void print(std::ostream& out) const; 134 void clearStats() { m_not_avail_count = 0; m_msg_counter = 0; } 135 136 void setIncomingLink(int link_id) { m_input_link_id = link_id; } 137 void setVnet(int net) { m_vnet_id = net; } 138 --- 4 unchanged lines hidden (view full) --- 143 144 // Function for figuring out if any of the messages in the buffer need 145 // to be updated with the data from the packet. 146 // Return value indicates the number of messages that were updated. 147 // This required for debugging the code. 148 uint32_t functionalWrite(Packet *pkt); 149 150 private: |
151 //added by SS 152 const Cycles m_recycle_latency; 153 |
154 void reanalyzeList(std::list<MsgPtr> &, Tick); 155 156 private: |
157 // Data Members (m_ prefix) 158 //! The two ends of the buffer. 159 ClockedObject* m_sender; 160 ClockedObject* m_receiver; 161 162 //! Consumer to signal a wakeup(), can be NULL 163 Consumer* m_consumer; 164 std::vector<MsgPtr> m_prio_heap; 165 166 // use a std::map for the stalled messages as this container is 167 // sorted and ensures a well-defined iteration order 168 typedef std::map< Address, std::list<MsgPtr> > StallMsgMapType; 169 170 StallMsgMapType m_stall_msg_map; |
171 |
172 const unsigned int m_max_size; |
173 Cycles m_time_last_time_size_checked; 174 unsigned int m_size_last_time_size_checked; 175 176 // variables used so enqueues appear to happen immediately, while 177 // pop happen the next cycle 178 Cycles m_time_last_time_enqueue; 179 Tick m_time_last_time_pop; 180 Tick m_last_arrival_time; 181 182 unsigned int m_size_at_cycle_start; 183 unsigned int m_msgs_this_cycle; 184 185 int m_not_avail_count; // count the # of times I didn't have N 186 // slots available 187 uint64 m_msg_counter; 188 int m_priority_rank; |
189 const bool m_strict_fifo; 190 const bool m_randomization; |
191 192 int m_input_link_id; 193 int m_vnet_id; 194}; 195 196Cycles random_time(); 197 198inline std::ostream& 199operator<<(std::ostream& out, const MessageBuffer& obj) 200{ 201 obj.print(out); 202 out << std::flush; 203 return out; 204} 205 206#endif // __MEM_RUBY_BUFFERS_MESSAGEBUFFER_HH__ |