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authorAndreas Hansson <andreas.hansson@arm.com>2012-09-21 11:48:08 -0400
committerAndreas Hansson <andreas.hansson@arm.com>2012-09-21 11:48:08 -0400
commitd75b1b5a7366c162ffca69b29901f4cb5e05895d (patch)
treefae9c10ca5b245930bfc91098c7edd0cfc386417 /src/cpu/testers/traffic_gen/traffic_gen.hh
parent4aee3aa073f9a20fff88daf0dd224e5c11d84b4e (diff)
downloadgem5-d75b1b5a7366c162ffca69b29901f4cb5e05895d.tar.xz
TrafficGen: Add a basic traffic generator
This patch adds a traffic generator to the code base. The generator is aimed to be used as a black box model to create appropriate use-cases and benchmarks for the memory system, and in particular the interconnect and the memory controller. The traffic generator is a master module, where the actual behaviour is captured in a state-transition graph where each state generates some sort of traffic. By constructing a graph it is possible to create very elaborate scenarios from basic generators. Currencly the set of generators include idling, linear address sweeps, random address sequences and playback of traces (recording will be done by the Communication Monitor in a follow-up patch). At the moment the graph and the states are described in an ad-hoc line-based format, and in the future this should be aligned with our used of e.g. the Google protobufs. Similarly for the traces, the format is currently a simplistic ad-hoc line-based format that merely serves as a starting point. In addition to being used as a black-box model for system components, the traffic generator is also useful for creating test cases and regressions for the interconnect and memory system. In future patches we will use the traffic generator to create DRAM test cases for the controller model. The patch following this one adds a basic regressions which also contains an example configuration script and trace file for playback.
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+/*
+ * Copyright (c) 2012 ARM Limited
+ * All rights reserved
+ *
+ * The license below extends only to copyright in the software and shall
+ * not be construed as granting a license to any other intellectual
+ * property including but not limited to intellectual property relating
+ * to a hardware implementation of the functionality of the software
+ * licensed hereunder. You may use the software subject to the license
+ * terms below provided that you ensure that this notice is replicated
+ * unmodified and in its entirety in all distributions of the software,
+ * modified or unmodified, in source code or in binary form.
+ *
+ * Redistribution and use in source and binary forms, with or without
+ * modification, are permitted provided that the following conditions are
+ * met: redistributions of source code must retain the above copyright
+ * notice, this list of conditions and the following disclaimer;
+ * redistributions in binary form must reproduce the above copyright
+ * notice, this list of conditions and the following disclaimer in the
+ * documentation and/or other materials provided with the distribution;
+ * neither the name of the copyright holders nor the names of its
+ * contributors may be used to endorse or promote products derived from
+ * this software without specific prior written permission.
+ *
+ * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
+ * "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
+ * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
+ * A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
+ * OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
+ * SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
+ * LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
+ * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
+ * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
+ * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
+ * OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
+ *
+ * Authors: Thomas Grass
+ * Andreas Hansson
+ * Sascha Bischoff
+ */
+#ifndef __MEM_TRAFFIC_GEN_HH__
+#define __MEM_TRAFFIC_GEN_HH__
+
+#include <fstream>
+
+#include "base/hashmap.hh"
+#include "mem/mem_object.hh"
+#include "mem/qport.hh"
+#include "params/TrafficGen.hh"
+
+/**
+ * The traffic generator is a master module that generates stimuli for
+ * the memory system, based on a collection of simple behaviours that
+ * are either probabilistic or based on traces. It can be used stand
+ * alone for creating test cases for interconnect and memory
+ * controllers, or function as a black box replacement for system
+ * components that are not yet modelled in detail, e.g. a video engine
+ * or baseband subsystem.
+ */
+class TrafficGen : public MemObject
+{
+
+ private:
+
+ /**
+ * The system used to determine which mode we are currently operating
+ * in.
+ */
+ System* system;
+
+ /**
+ * MasterID used in generated requests.
+ */
+ MasterID masterID;
+
+ protected:
+
+ /**
+ * The state graph is responsible for instantiating and keeping
+ * track of the various generator states and also perform the
+ * transitions and call the appropriate functions when entering,
+ * executing and exiting a state.
+ */
+ class StateGraph
+ {
+
+ public:
+
+ /**
+ * Create a state graph from an input file.
+ *
+ * @param _owner used solely for the name
+ * @param _port port used to send requests
+ * @param file_name configuration description to read in
+ * @param master_id the unique id used for all requests
+ */
+ StateGraph(TrafficGen& _owner, QueuedMasterPort& _port,
+ const std::string& file_name, MasterID master_id)
+ : nextTransitionTick(0), owner(_owner), port(_port)
+ {
+ parseConfig(file_name, master_id);
+ }
+
+ /**
+ * Get the name, used for DPRINTFs.
+ *
+ * @return the owner's name
+ */
+ std::string name() const { return owner.name(); }
+
+ /**
+ * Either perform a state transition or execute the current
+ * state, depending on the current time.
+ */
+ void update();
+
+ /**
+ * Determine next state and perform the transition.
+ */
+ void transition();
+
+ /**
+ * Enter a new state.
+ *
+ * @param newState identifier of state to enter
+ */
+ void enterState(uint32_t newState);
+
+ /**
+ * Get the tick of the next event, either an execution or a
+ * transition.
+ *
+ * @return tick of the next state graph event
+ */
+ Tick nextEventTick()
+ {
+ return std::min(states[currState]->nextExecuteTick(),
+ nextTransitionTick);
+
+ }
+
+ /** Time of next transition */
+ Tick nextTransitionTick;
+
+ private:
+
+ /**
+ * Parse the config file and build the state map and
+ * transition matrix.
+ *
+ * @param file_name Config file name to parse
+ * @param master_id MasterID to use for generated requests
+ */
+ void parseConfig(const std::string& file_name, MasterID master_id);
+
+ /** Struct to represent a probabilistic transition during parsing. */
+ struct Transition {
+ uint32_t from;
+ uint32_t to;
+ double p;
+ };
+
+ /** Base class for all generator states */
+ class BaseGen
+ {
+
+ protected:
+
+ /** Port used to send requests */
+ QueuedMasterPort& port;
+
+ /** The MasterID used for generating requests */
+ const MasterID masterID;
+
+ public:
+
+ /** Time to spend in this state */
+ const Tick duration;
+
+ /**
+ * Create a base generator.
+ *
+ * @param _port port used to send requests
+ * @param master_id MasterID set on each request
+ * @param _duration duration of this state before transitioning
+ */
+ BaseGen(QueuedMasterPort& _port, MasterID master_id,
+ Tick _duration);
+
+ virtual ~BaseGen() { }
+
+ /**
+ * Get the name, useful for DPRINTFs.
+ *
+ * @return the port name
+ */
+ std::string name() const { return port.name(); }
+
+ /**
+ * Enter this generator state.
+ */
+ virtual void enter() = 0;
+
+ /**
+ * Execute this generator state.
+ */
+ virtual void execute() = 0;
+
+ /**
+ * Exit this generator state. By default do nothing.
+ */
+ virtual void exit() { };
+
+ /**
+ * Determine the next execute tick. MaxTick means that
+ * there will not be any further event in the current
+ * activation cycle of the state.
+ *
+ * @return next tick when the state should be executed
+ */
+ virtual Tick nextExecuteTick() = 0;
+
+ };
+
+ /**
+ * The idle generator does nothing.
+ */
+ class IdleGen : public BaseGen
+ {
+
+ public:
+
+ IdleGen(QueuedMasterPort& _port, MasterID master_id,
+ Tick _duration)
+ : BaseGen(_port, master_id, _duration)
+ { }
+
+ void enter() { }
+
+ void execute() { }
+
+ Tick nextExecuteTick() { return MaxTick; }
+ };
+
+ /**
+ * The linear generator generates sequential requests from a
+ * start to an end address, with a fixed block size. A
+ * fraction of the requests are reads, as determined by the
+ * read percent. There is an optional data limit for when to
+ * stop generating new requests.
+ */
+ class LinearGen : public BaseGen
+ {
+
+ public:
+
+ /**
+ * Create a linear address sequence generator. Set
+ * min_period == max_period for a fixed inter-transaction
+ * time.
+ *
+ * @param _port port used to send requests
+ * @param master_id MasterID set on each request
+ * @param _duration duration of this state before transitioning
+ * @param start_addr Start address
+ * @param end_addr End address
+ * @param _blocksize Size used for transactions injected
+ * @param min_period Lower limit of random inter-transaction time
+ * @param max_period Upper limit of random inter-transaction time
+ * @param read_percent Percent of transactions that are reads
+ * @param data_limit Upper limit on how much data to read/write
+ */
+ LinearGen(QueuedMasterPort& _port, MasterID master_id,
+ Tick _duration, Addr start_addr, Addr end_addr,
+ Addr _blocksize, Tick min_period, Tick max_period,
+ uint8_t read_percent, Addr data_limit)
+ : BaseGen(_port, master_id, _duration),
+ startAddr(start_addr), endAddr(end_addr),
+ blocksize(_blocksize), minPeriod(min_period),
+ maxPeriod(max_period), readPercent(read_percent),
+ dataLimit(data_limit)
+ { }
+
+ void enter();
+
+ void execute();
+
+ Tick nextExecuteTick();
+
+ private:
+
+ /** Start of address range */
+ const Addr startAddr;
+
+ /** End of address range */
+ const Addr endAddr;
+
+ /** Blocksize and address increment */
+ const Addr blocksize;
+
+ /** Request generation period */
+ const Tick minPeriod;
+ const Tick maxPeriod;
+
+ /**
+ * Percent of generated transactions that should be reads
+ */
+ const uint8_t readPercent;
+
+ /** Maximum amount of data to manipulate */
+ const Addr dataLimit;
+
+ /** Address of next request */
+ Addr nextAddr;
+
+ /**
+ * Counter to determine the amount of data
+ * manipulated. Used to determine if we should continue
+ * generating requests.
+ */
+ Addr dataManipulated;
+ };
+
+ /**
+ * The random generator is similar to the linear one, but does
+ * not generate sequential addresses. Instead it randomly
+ * picks an address in the range, aligned to the block size.
+ */
+ class RandomGen : public BaseGen
+ {
+
+ public:
+
+ /**
+ * Create a random address sequence generator. Set
+ * min_period == max_period for a fixed inter-transaction
+ * time.
+ *
+ * @param _port port used to send requests
+ * @param master_id MasterID set on each request
+ * @param _duration duration of this state before transitioning
+ * @param start_addr Start address
+ * @param end_addr End address
+ * @param _blocksize Size used for transactions injected
+ * @param min_period Lower limit of random inter-transaction time
+ * @param max_period Upper limit of random inter-transaction time
+ * @param read_percent Percent of transactions that are reads
+ * @param data_limit Upper limit on how much data to read/write
+ */
+ RandomGen(QueuedMasterPort& _port, MasterID master_id,
+ Tick _duration, Addr start_addr, Addr end_addr,
+ Addr _blocksize, Tick min_period, Tick max_period,
+ uint8_t read_percent, Addr data_limit)
+ : BaseGen(_port, master_id, _duration),
+ startAddr(start_addr), endAddr(end_addr),
+ blocksize(_blocksize), minPeriod(min_period),
+ maxPeriod(max_period), readPercent(read_percent),
+ dataLimit(data_limit)
+ { }
+
+ void enter();
+
+ void execute();
+
+ Tick nextExecuteTick();
+
+ private:
+
+ /** Start of address range */
+ const Addr startAddr;
+
+ /** End of address range */
+ const Addr endAddr;
+
+ /** Block size */
+ const Addr blocksize;
+
+ /** Request generation period */
+ const Tick minPeriod;
+ const Tick maxPeriod;
+
+ /**
+ * Percent of generated transactions that should be reads
+ */
+ const uint8_t readPercent;
+
+ /** Maximum amount of data to manipulate */
+ const Addr dataLimit;
+
+ /**
+ * Counter to determine the amount of data
+ * manipulated. Used to determine if we should continue
+ * generating requests.
+ */
+ Addr dataManipulated;
+ };
+
+ /**
+ * The trace replay generator reads a trace file and plays
+ * back the transactions. The trace is offset with respect to
+ * the time when the state was entered.
+ */
+ class TraceGen : public BaseGen
+ {
+
+ private:
+
+ /**
+ * This struct stores a line in the trace file.
+ */
+ struct TraceElement {
+
+ /** Specifies if the request is to be a read or a write */
+ MemCmd cmd;
+
+ /** The address for the request */
+ Addr addr;
+
+ /** The size of the access for the request */
+ Addr blocksize;
+
+ /** The time at which the request should be sent */
+ Tick tick;
+
+ /**
+ * Check validity of this element.
+ *
+ * @return if this element is valid
+ */
+ bool isValid() const {
+ return cmd != MemCmd::InvalidCmd;
+ }
+
+ /**
+ * Make this element invalid.
+ */
+ void clear() {
+ cmd = MemCmd::InvalidCmd;
+ }
+ };
+
+ public:
+
+ /**
+ * Create a trace generator.
+ *
+ * @param _port port used to send requests
+ * @param master_id MasterID set on each request
+ * @param _duration duration of this state before transitioning
+ * @param trace_file File to read the transactions from
+ * @param addr_offset Positive offset to add to trace address
+ */
+ TraceGen(QueuedMasterPort& _port, MasterID master_id,
+ Tick _duration, const std::string& trace_file,
+ Addr addr_offset)
+ : BaseGen(_port, master_id, _duration),
+ traceFile(trace_file),
+ addrOffset(addr_offset),
+ traceComplete(false)
+ {
+ /**
+ * Create a 4MB read buffer for the input trace
+ * file. This is to reduce the number of disk accesses
+ * and thereby speed up the execution of the code.
+ */
+ readBuffer = new char[4 * 1024 * 1024];
+ trace.rdbuf()->pubsetbuf(readBuffer, 4 * 1024 * 1024);
+ trace.open(traceFile.c_str(), std::ifstream::in);
+
+ if (!trace.is_open()) {
+ fatal("Traffic generator %s trace file could not be"
+ " opened: %s\n", name(), traceFile);
+ }
+ }
+
+ ~TraceGen() {
+ // free the memory used by the readBuffer
+ delete[] readBuffer;
+ }
+
+ void enter();
+
+ void execute();
+
+ void exit();
+
+ /**
+ * Read a line of the trace file. Returns the raw tick
+ * when the next request should be generated. If the end
+ * of the file has been reached, it returns MaxTick to
+ * indicate that there will be no more requests.
+ */
+ Tick nextExecuteTick();
+
+ private:
+
+ /** Path to the trace file */
+ std::string traceFile;
+
+ /** Input stream used for reading the input trace file */
+ std::ifstream trace;
+
+ /** Larger buffer used for reading from the stream */
+ char* readBuffer;
+
+ /** Store the current and next element in the trace */
+ TraceElement currElement;
+ TraceElement nextElement;
+
+ /**
+ * Stores the time when the state was entered. This is to add an
+ * offset to the times stored in the trace file.
+ */
+ Tick tickOffset;
+
+ /**
+ * Offset for memory requests. Used to shift the trace
+ * away from the CPU address space.
+ */
+ Addr addrOffset;
+
+ /**
+ * Set to true when the trace replay for one instance of
+ * state is complete.
+ */
+ bool traceComplete;
+
+ /**
+ * Used to store the Tick when the next generate should
+ * occur. It is to remove a transaction as soon as we
+ * enter the state.
+ */
+ Tick oldEmitTime;
+ };
+
+ /** Pointer to owner of request handler */
+ TrafficGen& owner;
+
+ /** Pointer to request handler */
+ QueuedMasterPort& port;
+
+ /** State transition matrix */
+ std::vector<std::vector<double> > transitionMatrix;
+
+ public:
+
+ /** Index of the current state */
+ uint32_t currState;
+
+ /** Map of states */
+ m5::hash_map<uint32_t, BaseGen*> states;
+ };
+
+
+ /** Queued handler */
+ class TrafficGenPort : public QueuedMasterPort
+ {
+ public:
+
+ TrafficGenPort(const std::string& name, TrafficGen& _owner)
+ : QueuedMasterPort(name, &_owner, queue), queue(_owner, *this),
+ owner(_owner)
+ { }
+
+ protected:
+
+ bool recvTimingResp(PacketPtr pkt);
+
+ private:
+
+ MasterPacketQueue queue;
+
+ // Owner of the port
+ TrafficGen& owner;
+
+ };
+
+ TrafficGenPort port;
+
+ /** Request generator state graph */
+ StateGraph stateGraph;
+
+ /**
+ * Schedules event for next update and executes an update on the
+ * state graph.
+ */
+ void updateStateGraph();
+
+ /** Event for updating the state graph */
+ EventWrapper<TrafficGen,
+ &TrafficGen::updateStateGraph> updateStateGraphEvent;
+
+
+ public:
+
+ TrafficGen(const TrafficGenParams* p);
+
+ ~TrafficGen() {}
+
+ virtual MasterPort& getMasterPort(const std::string &if_name,
+ int idx = InvalidPortID);
+
+ void init();
+
+ void initState();
+
+ unsigned int drain(Event *drain_event);
+
+ void serialize(std::ostream &os);
+
+ void unserialize(Checkpoint* cp, const std::string& section);
+
+};
+
+#endif //__MEM_TRAFFIC_GEN_HH__