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/*
* Copyright (c) 2011 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.
*
* Copyright (c) 2006 The Regents of The University of Michigan
* All rights reserved.
*
* 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: Ali Saidi
* Andreas Hansson
*/
/**
* @file
* Definition of a bus object.
*/
#include "base/misc.hh"
#include "base/trace.hh"
#include "debug/Bus.hh"
#include "debug/BusAddrRanges.hh"
#include "debug/MMU.hh"
#include "mem/bus.hh"
Bus::Bus(const BusParams *p)
: MemObject(p), busId(p->bus_id), clock(p->clock),
headerCycles(p->header_cycles), width(p->width), tickNextIdle(0),
drainEvent(NULL), busIdle(this), inRetry(false), defaultPortId(-1),
useDefaultRange(p->use_default_range), defaultBlockSize(p->block_size),
cachedBlockSize(0), cachedBlockSizeValid(false)
{
//width, clock period, and header cycles must be positive
if (width <= 0)
fatal("Bus width must be positive\n");
if (clock <= 0)
fatal("Bus clock period must be positive\n");
if (headerCycles <= 0)
fatal("Number of header cycles must be positive\n");
clearPortCache();
}
Port *
Bus::getPort(const std::string &if_name, int idx)
{
std::string portName;
int id = interfaces.size();
if (if_name == "default") {
if (defaultPortId == -1) {
defaultPortId = id;
portName = csprintf("%s-default", name());
} else
fatal("Default port already set on %s\n", name());
} else {
portName = csprintf("%s-p%d", name(), id);
}
BusPort *bp = new BusPort(portName, this, id);
interfaces.push_back(bp);
cachedBlockSizeValid = false;
return bp;
}
void
Bus::init()
{
std::vector<BusPort*>::iterator intIter;
// iterate over our interfaces and determine which of our neighbours
// are snooping and add them as snoopers
for (intIter = interfaces.begin(); intIter != interfaces.end();
intIter++) {
if ((*intIter)->getPeer()->isSnooping()) {
DPRINTF(BusAddrRanges, "Adding snooping neighbour %s\n",
(*intIter)->getPeer()->name());
snoopPorts.push_back(*intIter);
}
}
}
Bus::BusFreeEvent::BusFreeEvent(Bus *_bus)
: bus(_bus)
{}
void
Bus::BusFreeEvent::process()
{
bus->recvRetry(-1);
}
const char *
Bus::BusFreeEvent::description() const
{
return "bus became available";
}
Tick
Bus::calcPacketTiming(PacketPtr pkt)
{
// Bring tickNextIdle up to the present tick.
// There is some potential ambiguity where a cycle starts, which
// might make a difference when devices are acting right around a
// cycle boundary. Using a < allows things which happen exactly on
// a cycle boundary to take up only the following cycle. Anything
// that happens later will have to "wait" for the end of that
// cycle, and then start using the bus after that.
if (tickNextIdle < curTick()) {
tickNextIdle = curTick();
if (tickNextIdle % clock != 0)
tickNextIdle = curTick() - (curTick() % clock) + clock;
}
Tick headerTime = tickNextIdle + headerCycles * clock;
// The packet will be sent. Figure out how long it occupies the bus, and
// how much of that time is for the first "word", aka bus width.
int numCycles = 0;
if (pkt->hasData()) {
// If a packet has data, it needs ceil(size/width) cycles to send it
int dataSize = pkt->getSize();
numCycles += dataSize/width;
if (dataSize % width)
numCycles++;
}
// The first word will be delivered after the current tick, the delivery
// of the address if any, and one bus cycle to deliver the data
pkt->firstWordTime = headerTime + clock;
pkt->finishTime = headerTime + numCycles * clock;
return headerTime;
}
void Bus::occupyBus(Tick until)
{
if (until == 0) {
// shortcut for express snoop packets
return;
}
tickNextIdle = until;
reschedule(busIdle, tickNextIdle, true);
DPRINTF(Bus, "The bus is now occupied from tick %d to %d\n",
curTick(), tickNextIdle);
}
/** Function called by the port when the bus is receiving a Timing
* transaction.*/
bool
Bus::recvTiming(PacketPtr pkt)
{
short src = pkt->getSrc();
BusPort *src_port = interfaces[src];
// If the bus is busy, or other devices are in line ahead of the current
// one, put this device on the retry list.
if (!pkt->isExpressSnoop() &&
(tickNextIdle > curTick() ||
(retryList.size() && (!inRetry || src_port != retryList.front()))))
{
addToRetryList(src_port);
DPRINTF(Bus, "recvTiming: src %d dst %d %s 0x%x BUSY\n",
src, pkt->getDest(), pkt->cmdString(), pkt->getAddr());
return false;
}
DPRINTF(Bus, "recvTiming: src %d dst %d %s 0x%x\n",
src, pkt->getDest(), pkt->cmdString(), pkt->getAddr());
Tick headerFinishTime = pkt->isExpressSnoop() ? 0 : calcPacketTiming(pkt);
Tick packetFinishTime = pkt->isExpressSnoop() ? 0 : pkt->finishTime;
short dest = pkt->getDest();
int dest_port_id;
Port *dest_port;
if (dest == Packet::Broadcast) {
dest_port_id = findPort(pkt->getAddr());
dest_port = interfaces[dest_port_id];
SnoopIter s_end = snoopPorts.end();
for (SnoopIter s_iter = snoopPorts.begin(); s_iter != s_end; s_iter++) {
BusPort *p = *s_iter;
if (p != dest_port && p != src_port) {
// cache is not allowed to refuse snoop
bool success M5_VAR_USED = p->sendTiming(pkt);
assert(success);
}
}
} else {
assert(dest < interfaces.size());
assert(dest != src); // catch infinite loops
dest_port_id = dest;
dest_port = interfaces[dest_port_id];
}
if (dest_port_id == src) {
// Must be forwarded snoop up from below...
assert(dest == Packet::Broadcast);
} else {
// send to actual target
if (!dest_port->sendTiming(pkt)) {
// Packet not successfully sent. Leave or put it on the retry list.
// illegal to block responses... can lead to deadlock
assert(!pkt->isResponse());
// It's also illegal to force a transaction to retry after
// someone else has committed to respond.
assert(!pkt->memInhibitAsserted());
DPRINTF(Bus, "recvTiming: src %d dst %d %s 0x%x TGT RETRY\n",
src, pkt->getDest(), pkt->cmdString(), pkt->getAddr());
addToRetryList(src_port);
occupyBus(headerFinishTime);
return false;
}
// send OK, fall through... pkt may have been deleted by
// target at this point, so it should *not* be referenced
// again. We'll set it to NULL here just to be safe.
pkt = NULL;
}
occupyBus(packetFinishTime);
// Packet was successfully sent.
// Also take care of retries
if (inRetry) {
DPRINTF(Bus, "Remove retry from list %d\n", src);
retryList.front()->onRetryList(false);
retryList.pop_front();
inRetry = false;
}
return true;
}
void
Bus::recvRetry(int id)
{
// If there's anything waiting, and the bus isn't busy...
if (retryList.size() && curTick() >= tickNextIdle) {
//retryingPort = retryList.front();
inRetry = true;
DPRINTF(Bus, "Sending a retry to %s\n", retryList.front()->getPeer()->name());
retryList.front()->sendRetry();
// If inRetry is still true, sendTiming wasn't called
if (inRetry)
{
retryList.front()->onRetryList(false);
retryList.pop_front();
inRetry = false;
//Bring tickNextIdle up to the present
while (tickNextIdle < curTick())
tickNextIdle += clock;
//Burn a cycle for the missed grant.
tickNextIdle += clock;
reschedule(busIdle, tickNextIdle, true);
}
}
//If we weren't able to drain before, we might be able to now.
if (drainEvent && retryList.size() == 0 && curTick() >= tickNextIdle) {
drainEvent->process();
// Clear the drain event once we're done with it.
drainEvent = NULL;
}
}
int
Bus::findPort(Addr addr)
{
/* An interval tree would be a better way to do this. --ali. */
int dest_id;
dest_id = checkPortCache(addr);
if (dest_id != -1)
return dest_id;
// Check normal port ranges
PortIter i = portMap.find(RangeSize(addr,1));
if (i != portMap.end()) {
dest_id = i->second;
updatePortCache(dest_id, i->first.start, i->first.end);
return dest_id;
}
// Check if this matches the default range
if (useDefaultRange) {
AddrRangeIter a_end = defaultRange.end();
for (AddrRangeIter i = defaultRange.begin(); i != a_end; i++) {
if (*i == addr) {
DPRINTF(Bus, " found addr %#llx on default\n", addr);
return defaultPortId;
}
}
panic("Unable to find destination for addr %#llx\n", addr);
}
DPRINTF(Bus, "Unable to find destination for addr %#llx, "
"will use default port\n", addr);
return defaultPortId;
}
/** Function called by the port when the bus is receiving a Atomic
* transaction.*/
Tick
Bus::recvAtomic(PacketPtr pkt)
{
DPRINTF(Bus, "recvAtomic: packet src %d dest %d addr 0x%x cmd %s\n",
pkt->getSrc(), pkt->getDest(), pkt->getAddr(), pkt->cmdString());
assert(pkt->getDest() == Packet::Broadcast);
assert(pkt->isRequest());
// Variables for recording original command and snoop response (if
// any)... if a snooper respondes, we will need to restore
// original command so that additional snoops can take place
// properly
MemCmd orig_cmd = pkt->cmd;
MemCmd snoop_response_cmd = MemCmd::InvalidCmd;
Tick snoop_response_latency = 0;
int orig_src = pkt->getSrc();
int target_port_id = findPort(pkt->getAddr());
BusPort *target_port = interfaces[target_port_id];
SnoopIter s_end = snoopPorts.end();
for (SnoopIter s_iter = snoopPorts.begin(); s_iter != s_end; s_iter++) {
BusPort *p = *s_iter;
// same port should not have both target addresses and snooping
assert(p != target_port);
if (p->getId() != pkt->getSrc()) {
Tick latency = p->sendAtomic(pkt);
if (pkt->isResponse()) {
// response from snoop agent
assert(pkt->cmd != orig_cmd);
assert(pkt->memInhibitAsserted());
// should only happen once
assert(snoop_response_cmd == MemCmd::InvalidCmd);
// save response state
snoop_response_cmd = pkt->cmd;
snoop_response_latency = latency;
// restore original packet state for remaining snoopers
pkt->cmd = orig_cmd;
pkt->setSrc(orig_src);
pkt->setDest(Packet::Broadcast);
}
}
}
Tick response_latency = 0;
// we can get requests sent up from the memory side of the bus for
// snooping... don't send them back down!
if (target_port_id != pkt->getSrc()) {
response_latency = target_port->sendAtomic(pkt);
}
// if we got a response from a snooper, restore it here
if (snoop_response_cmd != MemCmd::InvalidCmd) {
// no one else should have responded
assert(!pkt->isResponse());
assert(pkt->cmd == orig_cmd);
pkt->cmd = snoop_response_cmd;
response_latency = snoop_response_latency;
}
// why do we have this packet field and the return value both???
pkt->finishTime = curTick() + response_latency;
return response_latency;
}
/** Function called by the port when the bus is receiving a Functional
* transaction.*/
void
Bus::recvFunctional(PacketPtr pkt)
{
assert(pkt->getDest() == Packet::Broadcast);
int port_id = findPort(pkt->getAddr());
Port *port = interfaces[port_id];
// The packet may be changed by another bus on snoops, restore the
// id after each
int src_id = pkt->getSrc();
if (!pkt->isPrint()) {
// don't do DPRINTFs on PrintReq as it clutters up the output
DPRINTF(Bus,
"recvFunctional: packet src %d dest %d addr 0x%x cmd %s\n",
src_id, port_id, pkt->getAddr(),
pkt->cmdString());
}
assert(pkt->isRequest()); // hasn't already been satisfied
SnoopIter s_end = snoopPorts.end();
for (SnoopIter s_iter = snoopPorts.begin(); s_iter != s_end; s_iter++) {
BusPort *p = *s_iter;
if (p != port && p->getId() != src_id) {
p->sendFunctional(pkt);
}
if (pkt->isResponse()) {
break;
}
pkt->setSrc(src_id);
}
// If the snooping hasn't found what we were looking for, keep going.
if (!pkt->isResponse() && port_id != pkt->getSrc()) {
port->sendFunctional(pkt);
}
}
/** Function called by the port when the bus is receiving a range change.*/
void
Bus::recvRangeChange(int id)
{
AddrRangeList ranges;
AddrRangeIter iter;
if (inRecvRangeChange.count(id))
return;
inRecvRangeChange.insert(id);
DPRINTF(BusAddrRanges, "received RangeChange from device id %d\n", id);
clearPortCache();
if (id == defaultPortId) {
defaultRange.clear();
// Only try to update these ranges if the user set a default responder.
if (useDefaultRange) {
AddrRangeList ranges = interfaces[id]->getPeer()->getAddrRanges();
for(iter = ranges.begin(); iter != ranges.end(); iter++) {
defaultRange.push_back(*iter);
DPRINTF(BusAddrRanges, "Adding range %#llx - %#llx for default range\n",
iter->start, iter->end);
}
}
} else {
assert(id < interfaces.size() && id >= 0);
BusPort *port = interfaces[id];
// Clean out any previously existent ids
for (PortIter portIter = portMap.begin();
portIter != portMap.end(); ) {
if (portIter->second == id)
portMap.erase(portIter++);
else
portIter++;
}
ranges = port->getPeer()->getAddrRanges();
for (iter = ranges.begin(); iter != ranges.end(); iter++) {
DPRINTF(BusAddrRanges, "Adding range %#llx - %#llx for id %d\n",
iter->start, iter->end, id);
if (portMap.insert(*iter, id) == portMap.end()) {
int conflict_id = portMap.find(*iter)->second;
fatal("%s has two ports with same range:\n\t%s\n\t%s\n",
name(), interfaces[id]->getPeer()->name(),
interfaces[conflict_id]->getPeer()->name());
}
}
}
DPRINTF(MMU, "port list has %d entries\n", portMap.size());
// tell all our peers that our address range has changed.
// Don't tell the device that caused this change, it already knows
std::vector<BusPort*>::const_iterator intIter;
for (intIter = interfaces.begin(); intIter != interfaces.end(); intIter++)
if ((*intIter)->getId() != id)
(*intIter)->sendRangeChange();
inRecvRangeChange.erase(id);
}
AddrRangeList
Bus::getAddrRanges(int id)
{
AddrRangeList ranges;
DPRINTF(BusAddrRanges, "received address range request, returning:\n");
for (AddrRangeIter dflt_iter = defaultRange.begin();
dflt_iter != defaultRange.end(); dflt_iter++) {
ranges.push_back(*dflt_iter);
DPRINTF(BusAddrRanges, " -- Dflt: %#llx : %#llx\n",dflt_iter->start,
dflt_iter->end);
}
for (PortIter portIter = portMap.begin();
portIter != portMap.end(); portIter++) {
bool subset = false;
for (AddrRangeIter dflt_iter = defaultRange.begin();
dflt_iter != defaultRange.end(); dflt_iter++) {
if ((portIter->first.start < dflt_iter->start &&
portIter->first.end >= dflt_iter->start) ||
(portIter->first.start < dflt_iter->end &&
portIter->first.end >= dflt_iter->end))
fatal("Devices can not set ranges that itersect the default set\
but are not a subset of the default set.\n");
if (portIter->first.start >= dflt_iter->start &&
portIter->first.end <= dflt_iter->end) {
subset = true;
DPRINTF(BusAddrRanges, " -- %#llx : %#llx is a SUBSET\n",
portIter->first.start, portIter->first.end);
}
}
if (portIter->second != id && !subset) {
ranges.push_back(portIter->first);
DPRINTF(BusAddrRanges, " -- %#llx : %#llx\n",
portIter->first.start, portIter->first.end);
}
}
return ranges;
}
bool
Bus::isSnooping(int id)
{
// in essence, answer the question if there are other snooping
// ports rather than the port that is asking
bool snoop = false;
for (SnoopIter s_iter = snoopPorts.begin(); s_iter != snoopPorts.end();
s_iter++) {
if ((*s_iter)->getId() != id) {
snoop = true;
break;
}
}
return snoop;
}
unsigned
Bus::findBlockSize(int id)
{
if (cachedBlockSizeValid)
return cachedBlockSize;
unsigned max_bs = 0;
PortIter p_end = portMap.end();
for (PortIter p_iter = portMap.begin(); p_iter != p_end; p_iter++) {
unsigned tmp_bs = interfaces[p_iter->second]->peerBlockSize();
if (tmp_bs > max_bs)
max_bs = tmp_bs;
}
SnoopIter s_end = snoopPorts.end();
for (SnoopIter s_iter = snoopPorts.begin(); s_iter != s_end; s_iter++) {
unsigned tmp_bs = (*s_iter)->peerBlockSize();
if (tmp_bs > max_bs)
max_bs = tmp_bs;
}
if (max_bs == 0)
max_bs = defaultBlockSize;
if (max_bs != 64)
warn_once("Blocksize found to not be 64... hmm... probably not.\n");
cachedBlockSize = max_bs;
cachedBlockSizeValid = true;
return max_bs;
}
unsigned int
Bus::drain(Event * de)
{
//We should check that we're not "doing" anything, and that noone is
//waiting. We might be idle but have someone waiting if the device we
//contacted for a retry didn't actually retry.
if (retryList.size() || (curTick() < tickNextIdle && busIdle.scheduled())) {
drainEvent = de;
return 1;
}
return 0;
}
void
Bus::startup()
{
if (tickNextIdle < curTick())
tickNextIdle = (curTick() / clock) * clock + clock;
}
Bus *
BusParams::create()
{
return new Bus(this);
}
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