X-Git-Url: http://git.rot13.org/?p=goodfet;a=blobdiff_plain;f=client%2Fgoodfet.cc;h=f5e46b5e160daca62218ef55b351c4d1cab8f83f;hp=52eb1dddabc8dc4335ff93d5cf1683a06d1d2843;hb=144771f910594345d1efda0363a01735670ce2e5;hpb=c7f111a9f649b3f7c0ce654f5b7ecb07140e438b diff --git a/client/goodfet.cc b/client/goodfet.cc index 52eb1dd..f5e46b5 100755 --- a/client/goodfet.cc +++ b/client/goodfet.cc @@ -9,16 +9,19 @@ import sys; import binascii; from GoodFETCC import GoodFETCC; +from GoodFETConsole import GoodFETConsole; from intelhex import IntelHex; - if(len(sys.argv)==1): print "Usage: %s verb [objects]\n" % sys.argv[0]; + print "%s erase" % sys.argv[0]; + print "%s flash $foo.hex" % sys.argv[0]; print "%s test" % sys.argv[0]; + print "%s term" % sys.argv[0]; print "%s info" % sys.argv[0]; + print "%s regs" % sys.argv[0]; print "%s dumpcode $foo.hex [0x$start 0x$stop]" % sys.argv[0]; print "%s dumpdata $foo.hex [0x$start 0x$stop]" % sys.argv[0]; - print "%s erase" % sys.argv[0]; print "%s writedata $foo.hex [0x$start 0x$stop]" % sys.argv[0]; print "%s verify $foo.hex [0x$start 0x$stop]" % sys.argv[0]; print "%s peekdata 0x$start [0x$stop]" % sys.argv[0]; @@ -29,6 +32,7 @@ if(len(sys.argv)==1): sys.exit(); #Initailize FET and set baud rate +#client=GoodFET.GoodFETCC.GoodFETCC(); client=GoodFETCC(); client.serInit() @@ -36,19 +40,21 @@ client.serInit() client.setup(); client.start(); + if(sys.argv[1]=="explore"): print "Exploring undefined commands." - print "Status: %s" %client.CCstatusstr(); + print "Status: %s" %client.status(); cmd=0x04; #read status for foo in range(0,0x5): client.CCcmd([(0x0F<<3)|(0x00)|0x03,0x09<<3]); - print "Status %02x: %s" % (foo,client.CCstatusstr()); + print "Status %02x: %s" % (foo,client.status()); for foo in range(0,3): print "PC: %04x" % client.CCgetPC(); - +if(sys.argv[1]=="term"): + GoodFETConsole(client).run(); if(sys.argv[1]=="test"): - client.CCtest(); + client.test(); if(sys.argv[1]=="deadtest"): for i in range(1,10): print "IDENT as %s" % client.CCidentstr(); @@ -89,11 +95,22 @@ if(sys.argv[1]=="dumpdata"): i+=1; h.write_hex_file(f); if(sys.argv[1]=="status"): - print "Status: %s" %client.CCstatusstr(); + print "Status: %s" %client.status(); +if(sys.argv[1]=="info"): + print "Ident %s" % client.CCidentstr(); + print "Freq %10.3f MHz" % (client.RF_getfreq()/10**6); + #print "Rate %10i kbps" % (client.RF_getrate()/1000); + #print "PacketLen %02i bytes" % client.RF_getpacketlen(); + #print "SMAC 0x%010x" % client.RF_getsmac(); + #print "TMAC 0x%010x" % client.RF_gettmac(); + +if(sys.argv[1]=="regs"): + client.CMDrs(); + if(sys.argv[1]=="erase"): - print "Status: %s" % client.CCstatusstr(); + print "Status: %s" % client.status(); client.CCchiperase(); - print "Status: %s" %client.CCstatusstr(); + print "Status: %s" %client.status(); if(sys.argv[1]=="peekinfo"): print "Select info flash." @@ -144,40 +161,11 @@ if(sys.argv[1]=="flash"): if(len(sys.argv)>4): stop=int(sys.argv[4],16); - h = IntelHex(f); - page = 0x0000; - pagelen = client.CCpagesize(); #2048; #2kB pages in 32-bit words - - bcount = 0; - - print "Wiping Flash." - #Wipe all of flash. - #client.CCchiperase(); - #Wipe the RAM buffer for the next flash page. - client.CCeraseflashbuffer(); - for i in h._buf.keys(): - while(i>page+pagelen): - if bcount>0: - client.CCflashpage(page); - #client.CCeraseflashbuffer(); - bcount=0; - print "Flashed page at %06x" % page - page+=pagelen; - - #Place byte into buffer. - client.CCpokedatabyte(0xF000+i-page, - h[i]); - bcount+=1; - if(i%0x100==0): - print "Buffering %04x toward %06x" % (i,page); - #last page - client.CCflashpage(page); - print "Flashed final page at %06x" % page; - + client.flash(f); if(sys.argv[1]=="lock"): - print "Status: %s" %client.CCstatusstr(); + print "Status: %s" %client.status(); client.CClockchip(); - print "Status: %s" %client.CCstatusstr(); + print "Status: %s" %client.status(); if(sys.argv[1]=="flashpage"): target=0; if(len(sys.argv)>2):