from parse import Parse
import json
+from pprint import pprint
from spec.ifaceprint import display, display_fns, check_functions
from spec.ifaceprint import display_fixed
from collections import OrderedDict
'EINT': 'External Interrupt',
'PWM': 'PWM',
'JTAG': 'JTAG',
- 'TWI': 'I2C Master 1',
+ 'MTWI': 'I2C Master 1',
'SD0': 'SD/MMC 1',
'SDR': 'SDRAM',
'VDD': 'Power',
ps = PinSpec(pinbanks, fixedpins, function_names)
- ps.vss("", ('N', 0), 0, 0, 1)
- ps.vdd("", ('N', 1), 0, 0, 1)
+ ps.vss("E", ('N', 0), 0, 0, 1)
+ ps.vdd("E", ('N', 1), 0, 0, 1)
ps.sdram1("", ('N', 2), 0, 0, 30)
- ps.vss("", ('N', 30), 0, 1, 1)
- ps.vdd("", ('N', 31), 0, 1, 1)
+ ps.vss("I", ('N', 30), 0, 0, 1)
+ ps.vdd("I", ('N', 31), 0, 0, 1)
- ps.vss("", ('E', 0), 0, 2, 1)
- ps.sdram2("", ('E', 1), 0, 0, 12)
- ps.vdd("", ('E', 13), 0, 2, 1)
- ps.gpio("", ('E', 14), 0, 8, 8)
- ps.vss("", ('E', 23), 0, 3, 1)
- ps.jtag("", ('E', 24), 0, 0, 4)
- ps.vdd("", ('E', 31), 0, 3, 1)
+ ps.vss("E", ('E', 0), 0, 1, 1)
+ ps.vdd("E", ('E', 1), 0, 1, 1)
+ ps.sdram2("", ('E', 2), 0, 0, 12)
+ ps.vss("I", ('E', 14), 0, 1, 1)
+ ps.vdd("I", ('E', 15), 0, 1, 1)
+ ps.gpio("", ('E', 16), 0, 8, 8)
+ ps.jtag("", ('E', 25), 0, 0, 4)
- ps.vss("", ('S', 0), 0, 4, 1)
- ps.sys("", ('S', 1), 0, 0, 7)
- ps.vdd("", ('S', 8), 0, 4, 1)
- ps.i2c("", ('S', 9), 0, 0, 2)
- ps.mspi("0", ('S', 15), 0)
- ps.uart("0", ('S', 20), 0)
- ps.vss("", ('S', 22), 0, 5, 1)
- ps.gpio("", ('S', 23), 0, 0, 8)
- ps.vdd("", ('S', 31), 0, 5, 1)
+ ps.vss("I", ('S', 0), 0, 2, 1)
+ ps.vdd("I", ('S', 1), 0, 2, 1)
+ ps.mi2c("", ('S', 2), 0, 0, 2)
+ ps.mspi("0", ('S', 8), 0)
+ ps.uart("0", ('S', 13), 0)
+ ps.gpio("", ('S', 15), 0, 0, 8)
+ ps.sys("", ('S', 23), 0, 0, 7)
+ ps.vss("I", ('S', 30), 0, 3, 1)
+ ps.vdd("I", ('S', 31), 0, 3, 1)
- ps.vss("", ('W', 0), 0, 6, 1)
- ps.pwm("", ('W', 1), 0, 0, 2)
- ps.eint("", ('W', 3), 0, 0, 3)
- ps.mspi("1", ('W', 6), 0)
- ps.vdd("", ('W', 10), 0, 6, 1)
+ ps.vss("E", ('W', 0), 0, 2, 1)
+ ps.vdd("E", ('W', 1), 0, 2, 1)
+ ps.pwm("", ('W', 2), 0, 0, 2)
+ ps.eint("", ('W', 4), 0, 0, 3)
+ ps.mspi("1", ('W', 7), 0)
ps.sdmmc("0", ('W', 11), 0)
- ps.vss("", ('W', 17), 0, 7, 1)
- ps.vdd("", ('W', 31), 0, 7, 1)
+ ps.vss("I", ('W', 30), 0, 4, 1)
+ ps.vdd("I", ('W', 31), 0, 4, 1)
#ps.mspi("0", ('W', 8), 0)
#ps.mspi("1", ('W', 8), 0)
#ps.mquadspi("1", ('S', 0), 0)
+ print "ps clocks", ps.clocks
+
# Scenarios below can be spec'd out as either "find first interface"
# by name/number e.g. SPI1, or as "find in bank/mux" which must be
# spec'd as "BM:Name" where B is bank (A-F), M is Mux (0-3)
ls180 = ['SD0', 'UART0', 'GPIOS', 'GPIOE', 'JTAG', 'PWM', 'EINT',
'VDD', 'VSS', 'SYS',
- 'TWI', 'MSPI0', 'MSPI1', 'SDR']
+ 'MTWI', 'MSPI0', 'MSPI1', 'SDR']
ls180_eint = []
ls180_pwm = []#['B0:PWM_0']
descriptions = {
'SD0': 'user-facing: internal (on Card), multiplexed with JTAG\n'
'and UART2, for debug purposes',
- 'TWI': 'I2C.\n',
+ 'MTWI': 'I2C.\n',
'E2:SD1': '',
'MSPI1': '',
'UART0': '',
# map pins to litex name conventions, primarily for use in coriolis2
-def pinparse(pinspec):
+# yes this is a mess. it'll do the job though. improvements later
+def pinparse(psp, pinspec):
p = Parse(pinspec, verify=False)
+ pinmap = {}
print p.muxed_cells
print p.muxed_cells_bank
pads = {'N': pn, 'S': ps, 'E': pe, 'W': pw}
iopads = []
+ domains = {}
+ clocks = {}
- for (padnum, name, _), bank in zip(p.muxed_cells, p.muxed_cells_bank):
+ n_intpower = 0
+ n_extpower = 0
+ for (padnum, name, x), bank in zip(p.muxed_cells, p.muxed_cells_bank):
+ orig_name = name
+ domain = None # TODO, get this from the PinSpec. sigh
padnum = int(padnum)
start = p.bankstart[bank]
banknum = padnum - start
- print banknum, name, bank
+ print "bank", bank, banknum, "padname", name, padnum, x
padbank = pads[bank]
+ pad = None
# VSS
if name.startswith('vss'):
- #name = 'p_vssick_' + name[-1]
- #name = 'p_vsseck_0'
- #name = 'vss'
- name = ''
+ name = 'p_%s_' % name[:-2] + name[-1]
+ if 'i' in name:
+ name = 'ground_' + name[-1]
+ name2 = 'vss'
+ else:
+ name = 'ioground_' + name[-1]
+ name2 = 'iovss'
+ pad = [name, name2]
# VDD
elif name.startswith('vdd'):
- #name = 'p_vddick_' + name[-1]
- #name = 'p_vddeck_0'
- #name = 'vdd'
- name = ''
+ if 'i' in name:
+ n_intpower += 1
+ name = 'power_' + name[-1]
+ name2 = 'vdd'
+ else:
+ n_extpower += 1
+ name = 'iopower_' + name[-1]
+ name2 = 'iovdd'
+ pad = [name, name2]
# SYS
elif name.startswith('sys'):
+ domain = 'SYS'
if name == 'sys_clk':
- name = 'p_sys_clk_0'
+ pad = ["p_"+name, name, name]
elif name == 'sys_rst':
#name = 'p_sys_rst_1'
- iopads.append([name, name, name])
+ pad = [name, name, name]
padbank[banknum] = name
print "sys_rst add", bank, banknum, name
name = None
elif name == 'sys_pllclk':
name = None # ignore
+ elif name == 'sys_pllock':
+ name = 'sys_pll_lck_o'
+ pad = ['p_' + name, name, name]
elif name == 'sys_pllout':
- name = 'sys_pll_48_o'
- iopads.append(['p_' + name, name, name])
+ name = 'sys_pll_18_o'
+ pad = ['p_' + name, name, name]
elif name.startswith('sys_csel'):
i = name[-1]
name2 = 'sys_clksel_i(%s)' % i
name = 'p_sys_clksel_' + i
- iopads.append([name, name2, name2])
+ pad = [name, name2, name2]
#if name:
# iopads.append([pname, name, name])
print "sys pad", name
# SPI Card
elif name.startswith('mspi0') or name.startswith('mspi1'):
+ domain = 'MSPI'
suffix = name[6:]
if suffix == 'ck':
suffix = 'clk'
elif suffix == 'nss':
suffix = 'cs_n'
if name.startswith('mspi1'):
- prefix = 'spi_master_'
+ prefix = 'spimaster_'
else:
prefix = 'spisdcard_'
name = prefix + suffix
- iopads.append(['p_' + name, name, name])
+ pad = ['p_' + name, name, name]
# SD/MMC
elif name.startswith('sd0'):
+ domain = 'SD'
if name.startswith('sd0_d'):
i = name[5:]
name = 'sdcard_data' + i
name2 = 'sdcard_data_%%s(%s)' % i
pad = ['p_' + name, name, name2 % 'o', name2 % 'i',
'sdcard_data_oe']
- iopads.append(pad)
elif name.startswith('sd0_cmd'):
name = 'sdcard_cmd'
name2 = 'sdcard_cmd_%s'
- pad = ['p_' + name, name, name2 % 'o', name2 % 'i', name2 % 'oe']
- iopads.append(pad)
+ pad = ['p_'+name, name, name2 % 'o', name2 % 'i', name2 % 'oe']
else:
name = 'sdcard_' + name[4:]
- iopads.append(['p_' + name, name, name])
+ pad = ['p_' + name, name, name]
# SDRAM
elif name.startswith('sdr'):
+ domain = 'SDR'
if name == 'sdr_clk':
name = 'sdram_clock'
- iopads.append(['p_' + name, name, name])
+ pad = ['p_' + name, name, name]
elif name.startswith('sdr_ad'):
i = name[6:]
name = 'sdram_a_' + i
name2 = 'sdram_a(%s)' % i
- iopads.append(['p_' + name, name2, name2])
+ pad = ['p_' + name, name2, name2]
elif name.startswith('sdr_ba'):
i = name[-1]
name = 'sdram_ba_' + i
name2 = 'sdram_ba(%s)' % i
- iopads.append(['p_' + name, name2, name2])
+ pad = ['p_' + name, name2, name2]
elif name.startswith('sdr_dqm'):
i = name[-1]
name = 'sdram_dm_' + i
name2 = 'sdram_dm(%s)' % i
- iopads.append(['p_' + name, name2, name2])
+ pad = ['p_' + name, name2, name2]
elif name.startswith('sdr_d'):
i = name[5:]
name = 'sdram_dq_' + i
name2 = 'sdram_dq_%%s(%s)' % i
- pad = ['p_' + name, name, name2 % 'o', name2 % 'i', 'sdram_dq_oe']
- iopads.append(pad)
+ pad = ['p_'+name, name, name2 % 'o', name2 % 'i', 'sdram_dq_oe']
elif name == 'sdr_csn0':
name = 'sdram_cs_n'
- iopads.append(['p_' + name, name, name])
+ pad = ['p_' + name, name, name]
elif name[-1] == 'n':
name = 'sdram_' + name[4:-1] + '_n'
- iopads.append(['p_' + name, name, name])
+ pad = ['p_' + name, name, name]
else:
name = 'sdram_' + name[4:]
- iopads.append(['p_' + name, name, name])
+ pad = ['p_' + name, name, name]
# UART
elif name.startswith('uart'):
+ domain = 'UART'
name = 'uart_' + name[6:]
- iopads.append(['p_' + name, name, name])
+ pad = ['p_' + name, name, name]
# GPIO
elif name.startswith('gpio'):
+ domain = 'GPIO'
i = name[7:]
name = 'gpio_' + i
name2 = 'gpio_%%s(%s)' % i
pad = ['p_' + name, name, name2 % 'o', name2 % 'i', name2 % 'oe']
print ("GPIO pad", name, pad)
- iopads.append(pad)
- # I2C
- elif name.startswith('twi'):
- name = 'i2c' + name[3:]
+ # I2C master-only
+ elif name.startswith('mtwi'):
+ domain = 'MTWI'
+ name = 'i2c' + name[4:]
if name.startswith('i2c_sda'):
name2 = 'i2c_sda_%s'
- pad = ['p_' + name, name, name2 % 'o', name2 % 'i', name2 % 'oe']
+ pad = ['p_'+name, name, name2 % 'o', name2 % 'i', name2 % 'oe']
print ("I2C pad", name, pad)
- iopads.append(pad)
else:
- iopads.append(['p_' + name, name, name])
+ pad = ['p_' + name, name, name]
+ # I2C bi-directional
+ elif name.startswith('twi'):
+ domain = 'TWI'
+ name = 'i2c' + name[3:]
+ name2 = name + '_%s'
+ pad = ['p_'+name, name, name2 % 'o', name2 % 'i', name2 % 'oe']
+ print ("I2C pad", name, pad)
# EINT
elif name.startswith('eint'):
+ domain = 'EINT'
i = name[-1]
name = 'eint_%s' % i
name2 = 'eint(%s)' % i
pad = ['p_' + name, name2, name2]
- iopads.append(pad)
# PWM
elif name.startswith('pwm'):
+ domain = 'PWM'
name = name[:-4]
- pad = ['p_' + name, name, name]
- iopads.append(pad)
+ i = name[3:]
+ name2 = 'pwm(%s)' % i
+ pad = ['p_' + name, name2, name2]
else:
pad = ['p_' + name, name, name]
- iopads.append(pad)
print ("GPIO pad", name, pad)
+
+ # JTAG domain
+ if name and name.startswith('jtag'):
+ domain = 'JTAG'
+
if name and not name.startswith('p_'):
- name = 'p_' + name
+ if 'power' not in name and 'ground' not in name:
+ name = 'p_' + name
if name is not None:
padbank[banknum] = name
+ # create domains
+ if domain is not None:
+ if domain not in domains:
+ domains[domain] = []
+ domains[domain].append(name)
+ dl = domain.lower()
+ if domain in psp.clocks and orig_name.startswith(dl):
+ clk = psp.clocks[domain]
+ if clk.lower() in orig_name: # TODO, might over-match
+ clocks[domain] = name
+ # record remap
+ pinmap[orig_name] = name
- #pw[25] = 'p_sys_rst_1'
- pe[13] = 'p_vddeck_0'
- pe[23] = 'p_vsseck_0'
- pw[10] = 'p_vddick_0'
- pw[17] = 'p_vssick_0'
+ # add pad to iopads
+ if domain and pad is not None:
+ # append direction from spec/domain. damn awkward processing
+ # to find it.
+ fn, name = orig_name.split("_")
+ if domain == 'PWM':
+ name = fn[3:]
+ print psp.byspec
+ spec = None
+ for k in psp.byspec.keys():
+ if k.startswith(domain):
+ spec = psp.byspec[k]
+ print "spec found", domain, spec
+ assert spec is not None
+ found = None
+ for pname in spec:
+ if pname.lower().startswith(name):
+ found = pname
+ print "found spec", found
+ assert found is not None
+ # whewwww. add the direction onto the pad spec list
+ pad.append(found[-1])
+ iopads.append(pad)
+ elif pad is not None:
+ iopads.append(pad)
+ # not connected
nc_idx = 0
for pl in [pe, pw, pn, ps]:
for i in range(len(pl)):
if pl[i] == '':
- pl[i] = 'nc_%d' % nc_idx
+ name = 'nc_%d' % nc_idx
+ name2 = 'nc(%d)' % nc_idx
+ pl[i] = name
+ pinmap[name] = name
+ iopads.append([name, name2, name2, "-"])
nc_idx += 1
print p.bankstart
- print pn
- print ps
- print pe
- print pw
+ pprint(psp.clocks)
+
+ print
+ print "N pads", pn
+ print "S pads", ps
+ print "E pads", pe
+ print "W pads", pw
+
+ # do not want these
+ del clocks['SYS']
+ del domains['SYS']
+
+ print "chip domains (excluding sys-default)"
+ pprint(domains)
+ print "chip clocks (excluding sys-default)"
+ pprint(clocks)
+ print "pin spec"
+ pprint(psp.byspec)
chip = {
'pads.south' : ps,
'pads.east' : pe,
'pads.north' : pn,
'pads.west' : pw,
- 'pads.instances' : iopads
+ 'pads.instances' : iopads,
+ 'pins.specs' : psp.byspec,
+ 'pins.map' : pinmap,
+ 'chip.domains' : domains,
+ 'chip.clocks' : clocks,
+ 'chip.n_intpower': n_intpower,
+ 'chip.n_extpower': n_extpower,
}
chip = json.dumps(chip)
with open("ls180/litex_pinpads.json", "w") as f:
f.write(chip)
+ return pinmap