from __future__ import print_function ''' # Copyright (C) 2015, Elphel.inc. # Parsing Verilog parameters from the header files # This program is free software: you can redistribute it and/or modify # it under the terms of the GNU General Public License as published by # the Free Software Foundation, either version 3 of the License, or # (at your option) any later version. # # This program is distributed in the hope that it will be useful, # but WITHOUT ANY WARRANTY; without even the implied warranty of # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the # GNU General Public License for more details. # # You should have received a copy of the GNU General Public License # along with this program. If not, see . @author: Andrey Filippov @copyright: 2015 Elphel, Inc. @license: GPLv3.0+ @contact: andrey@elphel.coml @deffield updated: Updated ''' __author__ = "Andrey Filippov" __copyright__ = "Copyright 2015, Elphel, Inc." __license__ = "GPL" __version__ = "3.0+" __maintainer__ = "Andrey Filippov" __email__ = "andrey@elphel.com" __status__ = "Development" import os #from import_verilog_parameters import VerilogParameters from x393_mem import X393Mem #from verilog_utils import hx,concat, bits #from verilog_utils import hx #from subprocess import call from time import sleep import vrlg # global parameters import x393_axi_control_status import shutil DEFAULT_BITFILE="/usr/local/verilog/x393.bit" FPGA_RST_CTRL = 0xf8000240 FPGA0_THR_CTRL = 0xf8000178 FPGA_LVL_SHFTR = 0xf8000900 # 0xf: all enabled, 0x0 - disable all FPGA_DEVCFG_CTRL = 0xf8007000 # &= (1 << 30) - reset FPGA_LOAD_BITSTREAM="/dev/xdevcfg" INT_STS= 0xf800700c #SAVE_FILE_NAME="Some_name"# None class X393Utils(object): # global SAVE_FILE_NAME DRY_MODE= True # True DEBUG_MODE=1 # vpars=None x393_mem=None # enabled_channels=0 # currently enabled channels saveFileName=None x393_axi_tasks=None # verbose=1 def __init__(self, debug_mode=1,dry_mode=True ,saveFileName=None): self.DEBUG_MODE=debug_mode self.DRY_MODE=dry_mode if saveFileName: self.saveFileName=saveFileName.strip() self.x393_mem=X393Mem(debug_mode,dry_mode) # self.x393_axi_tasks=X393AxiControlStatus(debug_mode,dry_mode) self.x393_axi_tasks=x393_axi_control_status.X393AxiControlStatus(debug_mode,dry_mode) # self.__dict__.update(VerilogParameters.__dict__["_VerilogParameters__shared_state"]) # Add verilog parameters to the class namespace def reset_get(self): """ Get current reset state """ return self.x393_mem.read_mem(FPGA_RST_CTRL) def reset_once(self): """ Pulse reset ON, then OFF """ self.reset((0,0xa)) def reset(self,data): """ Write data to FPGA_RST_CTRL register currently data=1 - reset on, data=0 - reset on data can also be a list/tuple of integers, then it will be applied in sequence (0,0xe) will turn reset on, then off """ if isinstance(data, (int,long)): self.x393_mem.write_mem(FPGA_RST_CTRL,data) else: for d in data: self.x393_mem.write_mem(FPGA_RST_CTRL,d) def fpga_shutdown(self, quiet = 1): if quiet < 2: print ("fpga_shutdown(): FPGA clock OFF") self.x393_mem.write_mem(FPGA0_THR_CTRL,1) if quiet < 2: print ("fpga_shutdown(): Reset ON") self.reset(0) if quiet < 2: print ("fpga_shutdown(): Disabling level shifters") # turn off level shifters self.x393_mem.write_mem(FPGA_LVL_SHFTR,0) old_devcfg_ctrl = self.x393_mem.read_mem(FPGA_DEVCFG_CTRL) if quiet < 2: print ("fpga_shutdown():FPGA_DEVCFG_CTRL was 0x%08x"%(old_devcfg_ctrl)) print ("fpga_shutdown(): Applying PROG_B") self.x393_mem.write_mem(FPGA_DEVCFG_CTRL,old_devcfg_ctrl & ~(1 << 30)) def bitstream_get_path(self): return DEFAULT_BITFILE def bitstream_set_path(self, bitfile): global DEFAULT_BITFILE DEFAULT_BITFILE = bitfile def bitstream(self, bitfile=None, quiet=1): """ Turn FPGA clock OFF, reset ON, load bitfile, turn clock ON and reset OFF @param bitfile path to bitfile if provided, otherwise default bitfile will be used @param quiet Reduce output """ if bitfile is None: bitfile=DEFAULT_BITFILE print ("Sensor ports power off") # POWER393_PATH = '/sys/devices/elphel393-pwr.1' POWER393_PATH = '/sys/devices/soc0/elphel393-pwr@0' # with open (POWER393_PATH + "/channels_dis","w") as f: # print("vcc_sens01 vp33sens01 vcc_sens23 vp33sens23", file = f) print ("FPGA clock OFF") self.x393_mem.write_mem(FPGA0_THR_CTRL,1) print ("Reset ON") self.reset(0) print ("cat %s >%s"%(bitfile,FPGA_LOAD_BITSTREAM)) if not self.DRY_MODE: l=0 with open(bitfile, 'rb') as src, open(FPGA_LOAD_BITSTREAM, 'wb') as dst: buffer_size=1024*1024 while True: copy_buffer=src.read(buffer_size) if not copy_buffer: break dst.write(copy_buffer) l+=len(copy_buffer) if quiet < 4 : print("sent %d bytes to FPGA"%l) print("Loaded %d bytes to FPGA"%l) # call(("cat",bitfile,">"+FPGA_LOAD_BITSTREAM)) if quiet < 4 : print("Wait for DONE") if not self.DRY_MODE: for _ in range(100): if (self.x393_mem.read_mem(INT_STS) & 4) != 0: break sleep(0.1) else: print("Timeout waiting for DONE, [0x%x]=0x%x"%(INT_STS,self.x393_mem.read_mem(INT_STS))) return if quiet < 4 : print ("FPGA clock ON") self.x393_mem.write_mem(FPGA0_THR_CTRL,0) if quiet < 4 : print ("Reset OFF") self.reset(0xa) self.x393_axi_tasks.init_state() def exp_gpio (self, mode="in", gpio_low=54, gpio_high=None): """ Export GPIO pins connected to PL (full range is 54..117) GPIO mode: "in" or "out" lowest GPIO to export Highest GPIO to export. Set to if not provided """ if gpio_high is None: gpio_high=gpio_low print ("Exporting as \""+mode+"\":", end=""), for gpio_n in range (gpio_low, gpio_high + 1): print (" %d"%gpio_n, end="") print() if not self.DRY_MODE: for gpio in range (gpio_low, gpio_high + 1): try: with open ("/sys/class/gpio/export","w") as f: print (gpio,file=f) except: print ("failed \"echo %d > /sys/class/gpio/export"%gpio) try: with open ("/sys/class/gpio/gpio%d/direction"%gpio,"w") as f: print (mode,file=f) except: print ("failed \"echo %s > /sys/class/gpio/gpio%d/direction"%(mode,gpio)) def mon_gpio (self, gpio_low=54, gpio_high=None): """ Get state of the GPIO pins connected to PL (full range is 54..117) lowest GPIO to export Highest GPIO to export. Set to if not provided Returns data as list of 0,1 or None """ if gpio_high is None: gpio_high=gpio_low print ("gpio %d.%d: "%(gpio_high,gpio_low), end="") d=[] for gpio in range (gpio_high, gpio_low-1,-1): if gpio != gpio_high and ((gpio-gpio_low+1) % 4) == 0: print (".",end="") if not self.DRY_MODE: try: with open ("/sys/class/gpio/gpio%d/value"%gpio,"r") as f: b=int(f.read(1)) print ("%d"%b,end="") d.append(b) except: print ("X",end="") d.append(None) else: print ("X",end="") d.append(None) print() return d def getParTmpl(self): return ({"name":"DLY_LANE0_ODELAY", "width": 80, "decl_width":"","disable":False}, # decl_width can be "[7:0]", "integer", etc {"name":"DLY_LANE0_IDELAY", "width": 72, "decl_width":"","disable":False}, {"name":"DLY_LANE1_ODELAY", "width": 80, "decl_width":"","disable":False}, {"name":"DLY_LANE1_IDELAY", "width": 72, "decl_width":"","disable":False}, {"name":"DLY_CMDA", "width":256, "decl_width":"","disable":False}, {"name":"DLY_PHASE", "width": 8, "decl_width":"","disable":False}, {"name":"DFLT_WBUF_DELAY", "width": 4, "decl_width":"","disable":True}, {"name":"DFLT_WSEL", "width": 1, "decl_width":"","disable":True}, {"name":"DFLT_RSEL", "width": 1, "decl_width":"","disable":True}, ) def localparams(self, quiet=False): """ Generate verilog include file with localparam definitions for the DDR3 timing parameters Returns definition as a string """ nameLen=0 declWidth=0 for p in self.getParTmpl(): #parTmpl: nameLen=max(nameLen,len(p['name'])) declWidth=max(declWidth,len(p['decl_width'])) txt="" for p in self.getParTmpl(): # parTmpl: numDigits = (p["width"]+3)/4 frmt="localparam %%%ds %%%ds %3d'h%%0%dx;\n"%(declWidth,nameLen+2,p["width"],numDigits) try: pv=vrlg.__dict__[p['name']] if p['disable']: txt += '// ' txt+=frmt%(p['decl_width'],p['name']+" =",pv) except: # parameter does not exist pass if not quiet: print (txt) return txt def save_defaults(self, allPars=False): """ Save current parameter values to defaults (as read at start up) use all parameters, if false - only for the ones used in 'save' file """ # global parTmpl if allPars: vrlg.save_default() else: for par in self.getParTmpl(): # parTmpl: vrlg.save_default(par['name']) def restore_defaults(self, allPars=False): """ Restore parameter values from defaults (as read at start up) use all parameters, if false - only for the ones used in 'save' file """ global parTmpl if allPars: vrlg.restore_default() else: for par in parTmpl: vrlg.restore_default(par['name']) def save(self, fileName=None): """ Write Verilog include file with localparam definitions for the DDR3 timing parameters Also copies the same parameter values to defaults - optional path to write, pre-defined name if not specified """ header= """/* This is a generated file with the current DDR3 memory timing parameters */ """ self.save_defaults(False) # copy current parameters to defaults if not fileName: fileName=self.saveFileName txt=self.localparams(True) #quiet if fileName: try: with open(fileName, "w") as text_file: text_file.write(header) text_file.write(txt) print ("Verilog parameters are written to %s"%(os.path.abspath(fileName))) except: print ("Failed to write to %s"%(os.path.abspath(fileName))) else: print(txt) def copy (self, src, dst): """ Copy files in the file system @param src - source path @param dst - destination path/directory """ shutil.copy2(src, dst)