litex/migen/bus/wishbone.py

from migen.fhdl import structure as f
from migen.corelogic import roundrobin, multimux
from .simple import Simple, GetSigName
from functools import partial

_desc = [
	(True,	"adr",	32),
	(True,	"dat",	32),
	(False,	"dat",	32),
	(True,	"sel",	4),
	(True,	"cyc",	1),
	(True,	"stb",	1),
	(False,	"ack",	1),
	(True,	"we",	1),
	(True,	"cti",	3),
	(True,	"bte",	2),
	(False,	"err",	1)
]

class Master(Simple):
	def __init__(self, name=""):
		Simple.__init__(self, _desc, False, name)

class Slave(Simple):
	def __init__(self, name=""):
		Simple.__init__(self, _desc, True, name)

class Arbiter:
	def __init__(self, masters, target):
		self.masters = masters
		self.target = target
		self.rr = roundrobin.Inst(len(self.masters))

	def GetFragment(self):
		comb = []
		
		# mux master->slave signals
		m2s_names = [GetSigName(x, False) for x in _desc if x[0]]
		m2s_masters = [[getattr(m, name) for name in m2s_names] for m in self.masters]
		m2s_target = [getattr(self.target, name) for name in m2s_names]
		comb += multimux.MultiMux(self.rr.grant, m2s_masters, m2s_target)
		
		# connect slave->master signals
		s2m_names = [GetSigName(x, False) for x in _desc if not x[0]]
		for name in s2m_names:
			source = getattr(self.target, name)
			for m in self.masters:
				dest = getattr(m, name)
				comb.append(f.Assign(dest, source))
		
		# connect bus requests to round-robin selector
		reqs = [m.cyc_o for m in self.masters]
		comb.append(f.Assign(self.rr.request, f.Cat(*reqs)))
		
		return f.Fragment(comb) + self.rr.GetFragment()


class Decoder:
	# slaves is a list of pairs:
	# 0) structure.Constant defining address (always decoded on the upper bits)
	#    Slaves can have differing numbers of address bits, but addresses 
	#    must not conflict.
	# 1) wishbone.Slave reference
	# Addresses are decoded from bit 31-offset and downwards.
	# register adds flip-flops after the address comparators. Improves timing,
	# but breaks Wishbone combinatorial feedback.
	def __init__(self, master, slaves, offset=0, register=False):
		self.master = master
		self.slaves = slaves
		self.offset = offset
		self.register = register
		
		addresses = [slave[0] for slave in self.slaves]
		maxbits = max([f.BitsFor(addr) for addr in addresses])
		def mkconst(x):
			if isinstance(x, int):
				return f.Constant(x, f.BV(maxbits))
			else:
				return x
		self.addresses = list(map(mkconst, addresses))
		
		ns = len(self.slaves)
		d = partial(f.Declare, self)
		d("_slave_sel", f.BV(ns))
		d("_slave_sel_r", f.BV(ns))

	def GetFragment(self):
		comb = []
		sync = []
		
		# decode slave addresses
		i = 0
		hi = self.master.adr_o.bv.width - self.offset
		for addr in self.addresses:
			comb.append(f.Assign(self._slave_sel[i],
				self.master.adr_o[hi-addr.bv.width:hi] == addr))
			i += 1
		if self.register:
			sync.append(f.Assign(self._slave_sel_r, self._slave_sel))
		else:
			comb.append(f.Assign(self._slave_sel_r, self._slave_sel))
		
		# connect master->slaves signals except cyc
		m2s_names = [(GetSigName(x, False), GetSigName(x, True))
			for x in _desc if x[0] and x[1] != "cyc"]
		comb += [f.Assign(getattr(slave[1], name[1]), getattr(self.master, name[0]))
			for name in m2s_names for slave in self.slaves]
		
		# combine cyc with slave selection signals
		i = 0
		for slave in self.slaves:
			comb.append(f.Assign(slave[1].cyc_i, self.master.cyc_o & self._slave_sel_r[i]))
			i += 1
		
		# generate master ack (resp. err) by ORing all slave acks (resp. errs)
		ackv = f.Constant(0)
		errv = f.Constant(0)
		for slave in self.slaves:
			ackv = ackv | slave[1].ack_o
			errv = errv | slave[1].err_o
		comb.append(f.Assign(self.master.ack_i, ackv))
		comb.append(f.Assign(self.master.err_i, errv))
		
		# mux (1-hot) slave data return
		i = 0
		datav = f.Constant(0, self.master.dat_i.bv)
		for slave in self.slaves:
			datav = datav | (f.Replicate(self._slave_sel_r[i], self.master.dat_i.bv.width) & slave[1].dat_o)
			i += 1
		comb.append(f.Assign(self.master.dat_i, datav))
		
		return f.Fragment(comb, sync)

class InterconnectShared:
	def __init__(self, masters, slaves, offset=0, register=False):
		self._shared = Master("shr")
		self._arbiter = Arbiter(masters, self._shared)
		self._decoder = Decoder(self._shared, slaves, offset, register)
		self.addresses = self._decoder.addresses
	
	def GetFragment(self):
		return self._arbiter.GetFragment() + self._decoder.GetFragment()
Wishbone declarations 2011-12-08 12:47:41 -05:00			`from migen.fhdl import structure as f`
wishbone: arbiter 2011-12-08 17:21:25 -05:00			`from migen.corelogic import roundrobin, multimux`
			`from .simple import Simple, GetSigName`
			`from functools import partial`
Wishbone declarations 2011-12-08 12:47:41 -05:00
			`_desc = [`
			`(True, "adr", 32),`
			`(True, "dat", 32),`
			`(False, "dat", 32),`
wishbone: add missing SEL 2011-12-08 13:09:32 -05:00			`(True, "sel", 4),`
Wishbone declarations 2011-12-08 12:47:41 -05:00			`(True, "cyc", 1),`
			`(True, "stb", 1),`
			`(False, "ack", 1),`
			`(True, "we", 1),`
			`(True, "cti", 3),`
			`(True, "bte", 2),`
			`(False, "err", 1)`
			`]`

			`class Master(Simple):`
Named buses 2011-12-08 13:16:08 -05:00			`def __init__(self, name=""):`
			`Simple.__init__(self, _desc, False, name)`
Wishbone declarations 2011-12-08 12:47:41 -05:00
			`class Slave(Simple):`
Named buses 2011-12-08 13:16:08 -05:00			`def __init__(self, name=""):`
			`Simple.__init__(self, _desc, True, name)`
wishbone: arbiter 2011-12-08 17:21:25 -05:00
			`class Arbiter:`
			`def __init__(self, masters, target):`
			`self.masters = masters`
			`self.target = target`
			`self.rr = roundrobin.Inst(len(self.masters))`

			`def GetFragment(self):`
			`comb = []`

			`# mux master->slave signals`
			`m2s_names = [GetSigName(x, False) for x in _desc if x[0]]`
			`m2s_masters = [[getattr(m, name) for name in m2s_names] for m in self.masters]`
			`m2s_target = [getattr(self.target, name) for name in m2s_names]`
			`comb += multimux.MultiMux(self.rr.grant, m2s_masters, m2s_target)`

			`# connect slave->master signals`
			`s2m_names = [GetSigName(x, False) for x in _desc if not x[0]]`
			`for name in s2m_names:`
			`source = getattr(self.target, name)`
			`for m in self.masters:`
			`dest = getattr(m, name)`
			`comb.append(f.Assign(dest, source))`

			`# connect bus requests to round-robin selector`
			`reqs = [m.cyc_o for m in self.masters]`
			`comb.append(f.Assign(self.rr.request, f.Cat(*reqs)))`

			`return f.Fragment(comb) + self.rr.GetFragment()`

wishbone: decoder + shared bus interconnect 2011-12-09 07:11:52 -05:00
			`class Decoder:`
			`# slaves is a list of pairs:`
			`# 0) structure.Constant defining address (always decoded on the upper bits)`
			`# Slaves can have differing numbers of address bits, but addresses`
			`# must not conflict.`
			`# 1) wishbone.Slave reference`
			`# Addresses are decoded from bit 31-offset and downwards.`
			`# register adds flip-flops after the address comparators. Improves timing,`
			`# but breaks Wishbone combinatorial feedback.`
			`def __init__(self, master, slaves, offset=0, register=False):`
			`self.master = master`
			`self.slaves = slaves`
			`self.offset = offset`
			`self.register = register`

			`addresses = [slave[0] for slave in self.slaves]`
			`maxbits = max([f.BitsFor(addr) for addr in addresses])`
			`def mkconst(x):`
			`if isinstance(x, int):`
			`return f.Constant(x, f.BV(maxbits))`
			`else:`
			`return x`
			`self.addresses = list(map(mkconst, addresses))`

			`ns = len(self.slaves)`
			`d = partial(f.Declare, self)`
			`d("_slave_sel", f.BV(ns))`
			`d("_slave_sel_r", f.BV(ns))`

			`def GetFragment(self):`
			`comb = []`
			`sync = []`

			`# decode slave addresses`
			`i = 0`
			`hi = self.master.adr_o.bv.width - self.offset`
			`for addr in self.addresses:`
			`comb.append(f.Assign(self._slave_sel[i],`
			`self.master.adr_o[hi-addr.bv.width:hi] == addr))`
			`i += 1`
			`if self.register:`
			`sync.append(f.Assign(self._slave_sel_r, self._slave_sel))`
			`else:`
			`comb.append(f.Assign(self._slave_sel_r, self._slave_sel))`

			`# connect master->slaves signals except cyc`
			`m2s_names = [(GetSigName(x, False), GetSigName(x, True))`
			`for x in _desc if x[0] and x[1] != "cyc"]`
			`comb += [f.Assign(getattr(slave[1], name[1]), getattr(self.master, name[0]))`
			`for name in m2s_names for slave in self.slaves]`

			`# combine cyc with slave selection signals`
			`i = 0`
			`for slave in self.slaves:`
			`comb.append(f.Assign(slave[1].cyc_i, self.master.cyc_o & self._slave_sel_r[i]))`
			`i += 1`

			`# generate master ack (resp. err) by ORing all slave acks (resp. errs)`
			`ackv = f.Constant(0)`
			`errv = f.Constant(0)`
			`for slave in self.slaves:`
			`ackv = ackv \| slave[1].ack_o`
			`errv = errv \| slave[1].err_o`
			`comb.append(f.Assign(self.master.ack_i, ackv))`
			`comb.append(f.Assign(self.master.err_i, errv))`

			`# mux (1-hot) slave data return`
			`i = 0`
			`datav = f.Constant(0, self.master.dat_i.bv)`
			`for slave in self.slaves:`
			`datav = datav \| (f.Replicate(self._slave_sel_r[i], self.master.dat_i.bv.width) & slave[1].dat_o)`
			`i += 1`
			`comb.append(f.Assign(self.master.dat_i, datav))`

			`return f.Fragment(comb, sync)`

			`class InterconnectShared:`
			`def __init__(self, masters, slaves, offset=0, register=False):`
			`self._shared = Master("shr")`
			`self._arbiter = Arbiter(masters, self._shared)`
			`self._decoder = Decoder(self._shared, slaves, offset, register)`
			`self.addresses = self._decoder.addresses`

			`def GetFragment(self):`
			`return self._arbiter.GetFragment() + self._decoder.GetFragment()`