// See LICENSE for license details. package rocketchip import cde.{Parameters, Dump} import junctions._ import diplomacy._ import uncore.devices._ import rocket._ import coreplex._ import uncore.tilelink2._ import util._ import java.nio.file.{Files, Paths} import java.nio.{ByteBuffer, ByteOrder} class RangeManager { private var finalized = false private val l = collection.mutable.ListBuffer[(String, Int)]() def add(name: String, element: Int) = { require(!finalized); l += (name -> element) } def rangeMap = { finalized = true (l map { var sum = 0 x => { sum += x._2; (x._1 -> (sum-x._2, sum)) } }).toMap } def range(name: String) = rangeMap(name) def print = { rangeMap.toSeq.sortBy(_._2).foreach { case (name, (start, end)) => println(s"${name} on int ${start}-${end-1}") } } def sum = { finalized = true l.map(_._2).sum } } class ResourceManager[T] { private var finalized = false private val l = collection.mutable.ArrayBuffer[T]() def add(element: T) = { require(!finalized); l += element } def add(list: Seq[T]) = { require(!finalized); l ++= list } def get: Seq[T] = { finalized = true; l } } class GlobalVariable[T] { private var assigned = false private var variable: T = _ def assign(value: T) = { require(!assigned); assigned = true; variable = value } def get: T = { require(assigned); variable } } object GenerateGlobalAddrMap { def apply(p: Parameters, peripheryManagers: Seq[TLManagerParameters]) = { val tl2Devices = peripheryManagers.map { manager => val cacheable = manager.regionType match { case RegionType.CACHED => true case RegionType.TRACKED => true case _ => false } val attr = MemAttr( (if (manager.supportsGet) AddrMapProt.R else 0) | (if (manager.supportsPutFull) AddrMapProt.W else 0) | (if (manager.executable) AddrMapProt.X else 0), cacheable) val multi = manager.address.size > 1 manager.address.zipWithIndex.map { case (address, i) => require (address.contiguous) // TL1 needs this val name = manager.name + (if (multi) ".%d".format(i) else "") AddrMapEntry(name, MemRange(address.base, address.mask+1, attr)) } }.flatten val uniquelyNamedTL2Devices = tl2Devices.groupBy(_.name).values.map(_.zipWithIndex.map { case (e, i) => if (i == 0) e else e.copy(name = e.name + "_" + i) }).flatten.toList val memBase = 0x80000000L val memSize = p(ExtMemSize) Dump("MEM_BASE", memBase) val tl2 = AddrMapEntry("TL2", new AddrMap(uniquelyNamedTL2Devices, collapse = true)) val mem = AddrMapEntry("mem", MemRange(memBase, memSize, MemAttr(AddrMapProt.RWX, true))) AddrMap((tl2 +: (p(NMemoryChannels) > 0).option(mem).toSeq):_*) } } object GenerateConfigString { def apply(p: Parameters, peripheryManagers: Seq[TLManagerParameters]) = { val c = CoreplexParameters()(p) val addrMap = p(GlobalAddrMap) val plicAddr = addrMap("TL2:plic").start val clint = CoreplexLocalInterrupterConfig() val xLen = p(XLen) val res = new StringBuilder res append "plic {\n" res append s" priority 0x${plicAddr.toString(16)};\n" res append s" pending 0x${(plicAddr + PLICConsts.pendingBase).toString(16)};\n" res append s" ndevs ${c.plicKey.nDevices};\n" res append "};\n" res append "rtc {\n" res append s" addr 0x${clint.timeAddress.toString(16)};\n" res append "};\n" if (addrMap contains "mem") { res append "ram {\n" res append " 0 {\n" res append s" addr 0x${addrMap("mem").start.toString(16)};\n" res append s" size 0x${addrMap("mem").size.toString(16)};\n" res append " };\n" res append "};\n" } res append "core {\n" for (i <- 0 until c.nTiles) { // TODO heterogeneous tiles val isa = { val m = if (p(MulDivKey).nonEmpty) "m" else "" val a = if (p(UseAtomics)) "a" else "" val f = if (p(FPUKey).nonEmpty) "f" else "" val d = if (p(FPUKey).nonEmpty && p(XLen) > 32) "d" else "" val s = if (c.hasSupervisor) "s" else "" s"rv${p(XLen)}i$m$a$f$d$s" } res append s" $i {\n" res append " 0 {\n" res append s" isa $isa;\n" res append s" timecmp 0x${clint.timecmpAddress(i).toString(16)};\n" res append s" ipi 0x${clint.msipAddress(i).toString(16)};\n" res append s" plic {\n" res append s" m {\n" res append s" ie 0x${(plicAddr + c.plicKey.enableAddr(i, 'M')).toString(16)};\n" res append s" thresh 0x${(plicAddr + c.plicKey.threshAddr(i, 'M')).toString(16)};\n" res append s" claim 0x${(plicAddr + c.plicKey.claimAddr(i, 'M')).toString(16)};\n" res append s" };\n" if (c.hasSupervisor) { res append s" s {\n" res append s" ie 0x${(plicAddr + c.plicKey.enableAddr(i, 'S')).toString(16)};\n" res append s" thresh 0x${(plicAddr + c.plicKey.threshAddr(i, 'S')).toString(16)};\n" res append s" claim 0x${(plicAddr + c.plicKey.claimAddr(i, 'S')).toString(16)};\n" res append s" };\n" } res append " };\n" res append " };\n" res append " };\n" } res append "};\n" peripheryManagers.foreach { manager => res append manager.dts } res append '\u0000' res.toString } } object GenerateBootROM { def apply(p: Parameters, address: BigInt) = { val romdata = Files.readAllBytes(Paths.get(p(BootROMFile))) val rom = ByteBuffer.wrap(romdata) rom.order(ByteOrder.LITTLE_ENDIAN) require(address == address.toInt) val configStringAddr = address.toInt + rom.capacity require(rom.getInt(12) == 0, "Config string address position should not be occupied by code") rom.putInt(12, configStringAddr) rom.array() ++ (ConfigStringOutput.contents.get.getBytes.toSeq) } }