5e35df4cb7f7bb6b6e162d0121c27048c9c7ea8e
1 # ================================== Steps to add peripherals ============
2 # Step-1: create interface declaration for the peripheral to be added.
3 # Remember these are interfaces defined for the pinmux and hence
4 # will be opposite to those defined at the peripheral.
5 # For eg. the output TX from the UART will be input (method Action)
7 # These changes will have to be done in interface_decl.py
8 # Step-2 define the wires that will be required to transfer data from the
9 # peripheral interface to the IO cell and vice-versa. Create a
10 # mkDWire for each input/output between the peripheral and the
11 # pinmux. Also create an implicit wire of GenericIOType for each cell
12 # that can be connected to a each bit from the peripheral.
13 # These changes will have to be done in wire_def.py
14 # Step-3: create the definitions for each of the methods defined above.
15 # These changes will have to be done in interface_decl.py
16 # ========================================================================
18 # default module imports
24 # project module imports
25 from bsv
.interface_decl
import Interfaces
, mux_interface
, io_interface
26 from parse
import Parse
27 from bsv
.actual_pinmux
import init
28 from bsv
.bus_transactors
import axi4_lite
32 This BSV file has been generated by the PinMux tool available at:
33 https://bitbucket.org/casl/pinmux.
35 Authors: Neel Gala, Luke
36 Date of generation: ''' + time
.strftime("%c") + '''
39 header
= copyright
+ '''
49 def pinmuxgen(pth
=None, verify
=True):
50 """ populating the file with the code
53 p
= Parse(pth
, verify
)
54 iocells
= Interfaces()
55 iocells
.ifaceadd('io', p
.N_IO
, io_interface
, 0)
56 ifaces
= Interfaces(pth
)
57 #ifaces.ifaceadd('io', p.N_IO, io_interface, 0)
62 bp
= os
.path
.join(pth
, bp
)
63 if not os
.path
.exists(bp
):
65 bl
= os
.path
.join(bp
, 'bsv_lib')
66 if not os
.path
.exists(bl
):
69 cwd
= os
.path
.split(__file__
)[0]
71 # copy over template and library files
72 shutil
.copyfile(os
.path
.join(cwd
, 'Makefile.template'),
73 os
.path
.join(bp
, 'Makefile'))
74 cwd
= os
.path
.join(cwd
, 'bsv_lib')
75 for fname
in ['AXI4_Lite_Types.bsv', 'Semi_FIFOF.bsv',
76 'gpio.bsv', 'mux.bsv',
77 'AXI4_Types.bsv', 'defined_types.bsv',
78 'AXI4_Fabric.bsv', 'Uart16550.bsv',
79 'AXI4_Lite_Fabric.bsv', 'ConcatReg.bsv',
80 'Uart_bs.bsv', 'RS232_modified.bsv',
81 'AXI4Lite_AXI4_Bridge.bsv',
82 'I2C_top.bsv', 'I2C_Defs.bsv',
83 'plic.bsv', 'Cur_Cycle.bsv',
84 'ClockDiv.bsv', 'axi_addr_generator.bsv',
85 'pwm.bsv', 'qspi.bsv', 'qspi.defs',
87 shutil
.copyfile(os
.path
.join(cwd
, fname
),
88 os
.path
.join(bl
, fname
))
90 bus
= os
.path
.join(bp
, 'busenable.bsv')
91 pmp
= os
.path
.join(bp
, 'pinmux.bsv')
92 ptp
= os
.path
.join(bp
, 'PinTop.bsv')
93 bvp
= os
.path
.join(bp
, 'bus.bsv')
94 idef
= os
.path
.join(bp
, 'instance_defines.bsv')
95 slow
= os
.path
.join(bp
, 'slow_peripherals.bsv')
96 slowt
= os
.path
.join(cwd
, 'slow_peripherals_template.bsv')
98 write_pmp(pmp
, p
, ifaces
, iocells
)
99 write_ptp(ptp
, p
, ifaces
)
100 write_bvp(bvp
, p
, ifaces
)
101 write_bus(bus
, p
, ifaces
)
102 write_instances(idef
, p
, ifaces
)
103 write_slow(slow
, slowt
, p
, ifaces
, iocells
)
106 def write_slow(slow
, template
, p
, ifaces
, iocells
):
107 """ write out the slow_peripherals.bsv file.
108 joins all the peripherals together into one AXI Lite interface
110 with
open(template
) as bsv_file
:
111 template
= bsv_file
.read()
112 imports
= ifaces
.slowimport()
113 ifdecl
= ifaces
.slowifdeclmux()
114 regdef
= ifaces
.axi_reg_def()
115 slavedecl
= ifaces
.axi_slave_idx()
116 fnaddrmap
= ifaces
.axi_addr_map()
117 mkslow
= ifaces
.mkslow_peripheral()
118 mkcon
= ifaces
.mk_connection()
119 mkcellcon
= ifaces
.mk_cellconn()
120 pincon
= ifaces
.mk_pincon()
121 with
open(slow
, "w") as bsv_file
:
122 bsv_file
.write(template
.format(imports
, ifdecl
, regdef
, slavedecl
,
123 fnaddrmap
, mkslow
, mkcon
, mkcellcon
,
127 def write_bus(bus
, p
, ifaces
):
128 # package and interface declaration followed by
129 # the generic io_cell definition
130 with
open(bus
, "w") as bsv_file
:
131 ifaces
.busfmt(bsv_file
)
134 def write_pmp(pmp
, p
, ifaces
, iocells
):
135 # package and interface declaration followed by
136 # the generic io_cell definition
137 with
open(pmp
, "w") as bsv_file
:
138 bsv_file
.write(header
)
140 cell_bit_width
= 'Bit#(%d)' % p
.cell_bitwidth
142 interface MuxSelectionLines;
144 // declare the method which will capture the user pin-mux
145 // selection values.The width of the input is dependent on the number
146 // of muxes happening per IO. For now we have a generalized width
147 // where each IO will have the same number of muxes.''')
149 for cell
in p
.muxed_cells
:
150 bsv_file
.write(mux_interface
.ifacefmt(cell
[0], cell_bit_width
))
152 bsv_file
.write("\n endinterface\n")
156 interface IOCellSide;
157 // declare the interface to the IO cells.
158 // Each IO cell will have 1 input field (output from pin mux)
159 // and an output and out-enable field (input to pinmux)''')
161 # == create method definitions for all iocell interfaces ==#
162 iocells
.ifacefmt(bsv_file
)
164 # ===== finish interface definition and start module definition=======
165 bsv_file
.write("\n endinterface\n")
167 # ===== io cell definition =======
170 interface PeripheralSide;
171 // declare the interface to the peripherals
172 // Each peripheral's function will be either an input, output
173 // or be bi-directional. an input field will be an output from the
174 // peripheral and an output field will be an input to the peripheral.
175 // Bi-directional functions also have an output-enable (which
176 // again comes *in* from the peripheral)''')
177 # ==============================================================
179 # == create method definitions for all peripheral interfaces ==#
180 ifaces
.ifacefmt(bsv_file
)
181 bsv_file
.write("\n endinterface\n")
183 # ===== finish interface definition and start module definition=======
186 interface Ifc_pinmux;
187 // this interface controls how each IO cell is routed. setting
188 // any given IO cell's mux control value will result in redirection
189 // of not just the input or output to different peripheral functions
190 // but also the *direction* control - if appropriate - as well.
191 interface MuxSelectionLines mux_lines;
193 // this interface contains the inputs, outputs and direction-control
194 // lines for all peripherals. GPIO is considered to also be just
195 // a peripheral because it also has in, out and direction-control.
196 interface PeripheralSide peripheral_side;
198 // this interface is to be linked to the individual IO cells.
199 // if looking at a "non-muxed" GPIO design, basically the
200 // IO cell input, output and direction-control wires are cut
201 // (giving six pairs of dangling wires, named left and right)
202 // these iocells are routed in their place on one side ("left")
203 // and the matching *GPIO* peripheral interfaces in/out/dir
204 // connect to the OTHER side ("right"). the result is that
205 // the muxer settings end up controlling the routing of where
206 // the I/O from the IOcell actually goes.
207 interface IOCellSide iocell_side;
210 module mkpinmux(Ifc_pinmux);
212 # ====================================================================
214 # ======================= create wire and registers =================#
216 // the followins wires capture the pin-mux selection
217 // values for each mux assigned to a CELL
219 for cell
in p
.muxed_cells
:
220 bsv_file
.write(mux_interface
.wirefmt(
221 cell
[0], cell_bit_width
))
223 iocells
.wirefmt(bsv_file
)
224 ifaces
.wirefmt(bsv_file
)
227 # ====================================================================
228 # ========================= Actual pinmuxing ========================#
230 /*====== This where the muxing starts for each io-cell======*/
231 Wire#(Bit#(1)) val0<-mkDWire(0); // need a zero
233 bsv_file
.write(p
.pinmux
)
235 /*============================================================*/
237 # ====================================================================
238 # ================= interface definitions for each method =============#
240 interface mux_lines = interface MuxSelectionLines
242 for cell
in p
.muxed_cells
:
244 mux_interface
.ifacedef(
245 cell
[0], cell_bit_width
))
246 bsv_file
.write("\n endinterface;")
249 interface iocell_side = interface IOCellSide
251 iocells
.ifacedef(bsv_file
)
252 bsv_file
.write("\n endinterface;")
255 interface peripheral_side = interface PeripheralSide
257 ifaces
.ifacedef(bsv_file
)
258 bsv_file
.write("\n endinterface;")
260 bsv_file
.write(footer
)
261 print("BSV file successfully generated: bsv_src/pinmux.bsv")
262 # ======================================================================
265 def write_ptp(ptp
, p
, ifaces
):
266 with
open(ptp
, 'w') as bsv_file
:
267 bsv_file
.write(copyright
+ '''
270 interface Ifc_PintTop;
271 method ActionValue#(Bool) write(Bit#({0}) addr, Bit#({1}) data);
272 method Tuple2#(Bool,Bit#({1})) read(Bit#({0}) addr);
273 interface PeripheralSide peripheral_side;
276 module mkPinTop(Ifc_PintTop);
277 // instantiate the pin-mux module here
278 Ifc_pinmux pinmux <-mkpinmux;
280 // declare the registers which will be used to mux the IOs
281 '''.format(p
.ADDR_WIDTH
, p
.DATA_WIDTH
))
283 cell_bit_width
= str(p
.cell_bitwidth
)
284 for cell
in p
.muxed_cells
:
286 Reg#(Bit#({0})) rg_muxio_{1} <-mkReg(0);'''.format(
287 cell_bit_width
, cell
[0]))
290 // rule to connect the registers to the selection lines of the
292 rule connect_selection_registers;''')
294 for cell
in p
.muxed_cells
:
296 pinmux.mux_lines.cell{0}_mux(rg_muxio_{0});'''.format(cell
[0]))
300 // method definitions for the write user interface
301 method ActionValue#(Bool) write(Bit#({2}) addr, Bit#({3}) data);
303 case (addr[{0}:{1}])'''.format(p
.upper_offset
, p
.lower_offset
,
304 p
.ADDR_WIDTH
, p
.DATA_WIDTH
))
306 for cell
in p
.muxed_cells
:
308 {0}: rg_muxio_{1}<=truncate(data);'''.format(index
, cell
[0]))
318 // method definitions for the read user interface
319 method Tuple2#(Bool,Bit#({3})) read(Bit#({2}) addr);
322 case (addr[{0}:{1}])'''.format(p
.upper_offset
, p
.lower_offset
,
323 p
.ADDR_WIDTH
, p
.DATA_WIDTH
))
325 for cell
in p
.muxed_cells
:
327 {0}: data=zeroExtend(rg_muxio_{1});'''.format(index
, cell
[0]))
333 return tuple2(err,data);
335 interface peripheral_side=pinmux.peripheral_side;
341 def write_bvp(bvp
, p
, ifaces
):
342 # ######## Generate bus transactors ################
343 gpiocfg
= '\t\tinterface GPIO_config#({4}) bank{3}_config;\n' \
344 '\t\tinterface AXI4_Lite_Slave_IFC#({0},{1},{2}) bank{3}_slave;'
345 muxcfg
= '\t\tinterface MUX_config#({4}) muxb{3}_config;\n' \
346 '\t\tinterface AXI4_Lite_Slave_IFC#({0},{1},{2}) muxb{3}_slave;'
348 gpiodec
= '\tGPIO#({0}) mygpio{1} <- mkgpio();'
349 muxdec
= '\tMUX#({0}) mymux{1} <- mkmux();'
350 gpioifc
= '\tinterface bank{0}_config=mygpio{0}.pad_config;\n' \
351 '\tinterface bank{0}_slave=mygpio{0}.axi_slave;'
352 muxifc
= '\tinterface muxb{0}_config=mymux{0}.mux_config;\n' \
353 '\tinterface muxb{0}_slave=mymux{0}.axi_slave;'
354 with
open(bvp
, 'w') as bsv_file
:
355 # assume here that all muxes have a 1:1 gpio
359 iks
= sorted(ifaces
.keys())
361 if not iname
.startswith('gpio'): # TODO: declare other interfaces
365 npins
= len(ifc
.pinspecs
)
366 cfg
.append(gpiocfg
.format(p
.ADDR_WIDTH
, p
.DATA_WIDTH
,
369 cfg
.append(muxcfg
.format(p
.ADDR_WIDTH
, p
.DATA_WIDTH
,
372 decl
.append(gpiodec
.format(npins
, bank
))
373 decl
.append(muxdec
.format(npins
, bank
))
374 idec
.append(gpioifc
.format(bank
))
375 idec
.append(muxifc
.format(bank
))
378 print dir(ifaces
['gpioa'])
379 print ifaces
['gpioa'].pinspecs
380 gpiodecl
= '\n'.join(decl
) + '\n' + '\n'.join(idec
)
381 gpiocfg
= '\n'.join(cfg
)
382 bsv_file
.write(axi4_lite
.format(gpiodecl
, gpiocfg
))
383 # ##################################################
386 def write_instances(idef
, p
, ifaces
):
387 with
open(idef
, 'w') as bsv_file
:
392 `define Reg_width {1}
395 // TODO: work out if these are needed
399 `define DCACHE_BLOCK_SIZE 4
400 `define DCACHE_WORD_SIZE 8
401 `define PERFMONITORS 64
402 `define DCACHE_WAYS 4
403 `define DCACHE_TAG_BITS 20 // tag_bits = 52
405 `define PLICBase 'h0c000000
406 `define PLICEnd 'h10000000
407 `define INTERRUPT_PINS 64
409 `define BAUD_RATE 130
411 `define BAUD_RATE 5 //130 //
414 bsv_file
.write(txt
.format(p
.ADDR_WIDTH
, p
.DATA_WIDTH
))