--- /dev/null
+#!/usr/bin/env python
+# GoodFET ARM Client Library
+#
+#
+# Good luck with alpha / beta code.
+# Contributions and bug reports welcome.
+#
+# todo:
+# * full cycle debugging.. halt to resume
+# * ensure correct PC handling
+# * flash manipulation (probably need to get the specific chip for this one)
+# * set security (chip-specific)
+# * -ancilary/faster- ldm/stm versions of memory access (had trouble in past, possibly also due to haphazard abuse of DCLK)
+#
+# fixme now stuff:
+# * thumb mode get/set_register
+# * thumb to arm mode
+# * rethink the whole python/c trade-off for cross-python session debugging
+
+import sys, binascii, struct, time
+import atlasutils.smartprint as asp
+from GoodFET import GoodFET
+from intelhex import IntelHex
+
+
+#Global Commands
+READ = 0x00
+WRITE = 0x01
+PEEK = 0x02
+POKE = 0x03
+SETUP = 0x10
+START = 0x20
+STOP = 0x21
+CALL = 0x30
+EXEC = 0x31
+NOK = 0x7E
+OK = 0x7F
+
+# ARM7TDMI JTAG commands
+IR_SHIFT = 0x80
+DR_SHIFT = 0x81
+RESETTAP = 0x82
+RESETTARGET = 0x86
+GET_REGISTER = 0x87
+SET_REGISTER = 0x88
+DEBUG_INSTR = 0x89
+# Really ARM specific stuff
+WAIT_DBG = 0x91
+CHAIN0 = 0x93
+SCANCHAIN1 = 0x94
+EICE_READ = 0x95
+EICE_WRITE = 0x96
+
+IR_EXTEST = 0x0
+IR_SCAN_N = 0x2
+IR_SAMPLE = 0x3
+IR_RESTART = 0x4
+IR_CLAMP = 0x5
+IR_HIGHZ = 0x7
+IR_CLAMPZ = 0x9
+IR_INTEST = 0xC
+IR_IDCODE = 0xE
+IR_BYPASS = 0xF
+
+DBG_DBGACK = 1
+DBG_DBGRQ = 2
+DBG_IFEN = 4
+DBG_cgenL = 8
+DBG_TBIT = 16
+
+
+EICE_DBGCTRL = 0 # read 3 bit - Debug Control
+EICE_DBGCTRL_BITLEN = 3
+EICE_DBGSTATUS = 1 # read 5 bit - Debug Status
+EICE_DBGSTATUS_BITLEN = 5
+EICE_DBGCCR = 4 # read 6 bit - Debug Comms Control Register
+EICE_DBGCCR_BITLEN = 6
+EICE_DBGCDR = 5 # r/w 32 bit - Debug Comms Data Register
+EICE_WP0ADDR = 8 # r/w 32 bit - Watchpoint 0 Address
+EICE_WP0ADDRMASK = 9 # r/w 32 bit - Watchpoint 0 Addres Mask
+EICE_WP0DATA = 10 # r/w 32 bit - Watchpoint 0 Data
+EICE_WP0DATAMASK = 11 # r/w 32 bit - Watchpoint 0 Data Masl
+EICE_WP0CTRL = 12 # r/w 9 bit - Watchpoint 0 Control Value
+EICE_WP0CTRLMASK = 13 # r/w 8 bit - Watchpoint 0 Control Mask
+EICE_WP1ADDR = 16 # r/w 32 bit - Watchpoint 0 Address
+EICE_WP1ADDRMASK = 17 # r/w 32 bit - Watchpoint 0 Addres Mask
+EICE_WP1DATA = 18 # r/w 32 bit - Watchpoint 0 Data
+EICE_WP1DATAMASK = 19 # r/w 32 bit - Watchpoint 0 Data Masl
+EICE_WP1CTRL = 20 # r/w 9 bit - Watchpoint 0 Control Value
+EICE_WP1CTRLMASK = 21 # r/w 8 bit - Watchpoint 0 Control Mask
+
+MSB = 0
+LSB = 1
+NOEND = 2
+NORETIDLE = 4
+
+F_TBIT = 1<<40
+
+PM_usr = 0b10000
+PM_fiq = 0b10001
+PM_irq = 0b10010
+PM_svc = 0b10011
+PM_abt = 0b10111
+PM_und = 0b11011
+PM_sys = 0b11111
+proc_modes = {
+ 0: ("UNKNOWN, MESSED UP PROCESSOR MODE","fsck", "This should Never happen. MCU is in funky state!"),
+ PM_usr: ("User Processor Mode", "usr", "Normal program execution mode"),
+ PM_fiq: ("FIQ Processor Mode", "fiq", "Supports a high-speed data transfer or channel process"),
+ PM_irq: ("IRQ Processor Mode", "irq", "Used for general-purpose interrupt handling"),
+ PM_svc: ("Supervisor Processor Mode", "svc", "A protected mode for the operating system"),
+ PM_abt: ("Abort Processor Mode", "abt", "Implements virtual memory and/or memory protection"),
+ PM_und: ("Undefined Processor Mode", "und", "Supports software emulation of hardware coprocessor"),
+ PM_sys: ("System Processor Mode", "sys", "Runs privileged operating system tasks (ARMv4 and above)"),
+}
+
+PSR_bits = [
+ None, None, None, None, None, "Thumb", "nFIQ_int", "nIRQ_int",
+ "nImprDataAbort_int", "BIGendian", None, None, None, None, None, None,
+ "GE_0", "GE_1", "GE_2", "GE_3", None, None, None, None,
+ "Jazelle", None, None, "Q (DSP-overflow)", "oVerflow", "Carry", "Zero", "Neg",
+ ]
+
+ARM_INSTR_NOP = 0xe1a00000L
+ARM_INSTR_BX_R0 = 0xe12fff10L
+ARM_INSTR_STR_Rx_r14 = 0xe58f0000L # from atmel docs
+ARM_READ_REG = ARM_INSTR_STR_Rx_r14
+ARM_INSTR_LDR_Rx_r14 = 0xe59f0000L # from atmel docs
+ARM_WRITE_REG = ARM_INSTR_LDR_Rx_r14
+ARM_INSTR_LDR_R1_r0_4 = 0xe4901004L
+ARM_READ_MEM = ARM_INSTR_LDR_R1_r0_4
+ARM_INSTR_STR_R1_r0_4 = 0xe4801004L
+ARM_WRITE_MEM = ARM_INSTR_STR_R1_r0_4
+ARM_INSTR_MRS_R0_CPSR = 0xe10f0000L
+ARM_INSTR_MSR_cpsr_cxsf_R0 =0xe12ff000L
+ARM_INSTR_STMIA_R14_r0_rx = 0xE88E0000L # add up to 65k to indicate which registers...
+ARM_STORE_MULTIPLE = ARM_INSTR_STMIA_R14_r0_rx
+ARM_INSTR_SKANKREGS = 0xE88F7fffL
+ARM_INSTR_CLOBBEREGS = 0xE89F7fffL
+
+ARM_INSTR_B_IMM = 0xea000000L
+ARM_INSTR_B_PC = 0xea000000L
+ARM_INSTR_BX_PC = 0xe1200010L # need to set r0 to the desired address
+THUMB_INSTR_LDR_R0_r0 = 0x68006800L
+THUMB_WRITE_REG = THUMB_INSTR_LDR_R0_r0
+THUMB_INSTR_STR_R0_r0 = 0x60006000L
+THUMB_READ_REG = THUMB_INSTR_STR_R0_r0
+THUMB_INSTR_MOV_R0_PC = 0x46b846b8L
+THUMB_INSTR_MOV_PC_R0 = 0x46474647L
+THUMB_INSTR_BX_PC = 0x47784778L
+THUMB_INSTR_NOP = 0x1c001c00L
+THUMB_INSTR_B_IMM = 0xe000e000L
+ARM_REG_PC = 15
+
+nRW = 0
+MAS0 = 1
+MAS1 = 2
+nOPC = 3
+nTRANS = 4
+EXTERN = 5
+CHAIN = 6
+RANGE = 7
+ENABLE = 8
+
+DBGCTRLBITS = {
+ 'nRW':nRW,
+ 'MAS0':MAS0,
+ 'MAS1':MAS1,
+ 'nOPC':nOPC,
+ 'nTRANS':nTRANS,
+ 'EXTERN':EXTERN,
+ 'CHAIN':CHAIN,
+ 'RANGE':RANGE,
+ 'ENABLE':ENABLE,
+ 1<<nRW:'nRW',
+ 1<<MAS0:'MAS0',
+ 1<<MAS1:'MAS1',
+ 1<<nOPC:'nOPC',
+ 1<<nTRANS:'nTRANS',
+ 1<<EXTERN:'EXTERN',
+ 1<<CHAIN:'CHAIN',
+ 1<<RANGE:'RANGE',
+ 1<<ENABLE:'ENABLE',
+ }
+
+
+def debugstr(strng):
+ print >>sys.stderr,(strng)
+def PSRdecode(psrval):
+ output = [ "(%s mode)"%proc_modes[psrval&0x1f][1] ]
+ for x in xrange(5,32):
+ if psrval & (1<<x):
+ output.append(PSR_bits[x])
+ return " ".join(output)
+
+fmt = [None, "B", "<H", None, "<L", None, None, None, "<Q"]
+def chop(val,byts):
+ s = struct.pack(fmt[byts], val)
+ return [ord(b) for b in s ]
+
+class GoodFETARM(GoodFET):
+ """A GoodFET variant for use with ARM7TDMI microprocessor."""
+ def __init__(self):
+ GoodFET.__init__(self)
+ self.storedPC = 0xffffffff
+ self.current_dbgstate = 0xffffffff
+ self.flags = 0xffffffff
+ self.nothing = 0xffffffff
+ def __del__(self):
+ try:
+ if (self.ARMget_dbgstate()&9) == 9:
+ self.resume()
+ except:
+ sys.excepthook(*sys.exc_info())
+ def setup(self):
+ """Move the FET into the JTAG ARM application."""
+ #print "Initializing ARM."
+ self.writecmd(0x13,SETUP,0,self.data)
+ def getpc(self):
+ return self.ARMgetPC()
+ def flash(self,file):
+ """Flash an intel hex file to code memory."""
+ print "Flash not implemented.";
+ def dump(self,file,start=0,stop=0xffff):
+ """Dump an intel hex file from code memory."""
+ print "Dump not implemented.";
+ def ARMshift_IR(self, IR, noretidle=0):
+ self.writecmd(0x13,IR_SHIFT,2, [IR, LSB|noretidle])
+ return self.data
+ def ARMshift_DR(self, data, bits, flags):
+ self.writecmd(0x13,DR_SHIFT,8,[bits&0xff, flags&0xff, 0, 0, data&0xff,(data>>8)&0xff,(data>>16)&0xff,(data>>24)&0xff])
+ return self.data
+ def ARMwaitDBG(self, timeout=0xff):
+ self.current_dbgstate = self.ARMget_dbgstate()
+ while ( not ((self.current_dbgstate & 9L) == 9)):
+ timeout -=1
+ self.current_dbgstate = self.ARMget_dbgstate()
+ return timeout
+ def ARMident(self):
+ """Get an ARM's ID."""
+ self.ARMshift_IR(IR_IDCODE,0)
+ self.ARMshift_DR(0,32,LSB)
+ retval = struct.unpack("<L", "".join(self.data[0:4]))[0]
+ return retval
+ def ARMidentstr(self):
+ ident=self.ARMident()
+ ver = ident >> 28
+ partno = (ident >> 12) & 0x10
+ mfgid = ident & 0xfff
+ return "mfg: %x\npartno: %x\nver: %x\n(%x)" % (ver, partno, mfgid, ident);
+ def ARMeice_write(self, reg, val):
+ data = chop(val,4)
+ data.extend([reg])
+ retval = self.writecmd(0x13, EICE_WRITE, 5, data)
+ return retval
+ def ARMeice_read(self, reg):
+ self.writecmd(0x13, EICE_READ, 1, [reg])
+ retval, = struct.unpack("<L",self.data)
+ return retval
+ def ARMget_dbgstate(self):
+ """Read the config register of an ARM."""
+ self.ARMeice_read(EICE_DBGSTATUS)
+ self.current_dbgstate = struct.unpack("<L", self.data[:4])[0]
+ return self.current_dbgstate
+ status = ARMget_dbgstate
+ def statusstr(self):
+ """Check the status as a string."""
+ status=self.status()
+ str=""
+ i=1
+ while i<0x20:
+ if(status&i):
+ str="%s %s" %(self.ARMstatusbits[i],str)
+ i*=2
+ return str
+ def ARMget_dbgctrl(self):
+ """Read the config register of an ARM."""
+ self.ARMeice_read(EICE_DBGCTRL)
+ retval = struct.unpack("<L", self.data[:4])[0]
+ return retval
+ def ARMset_dbgctrl(self,config):
+ """Write the config register of an ARM."""
+ self.ARMeice_write(EICE_DBGCTRL, config&7)
+ def ARMgetPC(self):
+ """Get an ARM's PC. Note: real PC gets all wonky in debug mode, this is the "saved" PC"""
+ return self.storedPC
+ def ARMsetPC(self, val):
+ """Set an ARM's PC. Note: real PC gets all wonky in debug mode, this changes the "saved" PC which is used when exiting debug mode"""
+ self.storedPC = val
+ def ARMget_register(self, reg):
+ """Get an ARM's Register"""
+ self.writecmd(0x13,GET_REGISTER,1,[reg&0xff])
+ retval = struct.unpack("<L", "".join(self.data[0:4]))[0]
+ return retval
+ def ARMset_register(self, reg, val):
+ """Get an ARM's Register"""
+ self.writecmd(0x13,SET_REGISTER,8,[val&0xff, (val>>8)&0xff, (val>>16)&0xff, val>>24, reg,0,0,0])
+ retval = struct.unpack("<L", "".join(self.data[0:4]))[0]
+ return retval
+ def ARMget_registers(self):
+ """Get ARM Registers"""
+ regs = [ self.ARMget_register(x) for x in range(15) ]
+ regs.append(self.ARMgetPC()) # make sure we snag the "static" version of PC
+ return regs
+ def ARMset_registers(self, regs, mask):
+ """Set ARM Registers"""
+ for x in xrange(15):
+ if (1<<x) & mask:
+ self.ARMset_register(x,regs.pop())
+ if (1<<15) & mask: # make sure we set the "static" version of PC or changes will be lost
+ self.ARMsetPC(regs.pop())
+ def ARMdebuginstr(self,instr,bkpt):
+ if type (instr) == int or type(instr) == long:
+ instr = struct.pack("<L", instr)
+ instr = [int("0x%x"%ord(x),16) for x in instr]
+ instr.extend([bkpt])
+ self.writecmd(0x13,DEBUG_INSTR,len(instr),instr)
+ return (self.data)
+ def ARM_nop(self, bkpt):
+ if self.status() & DBG_TBIT:
+ return self.ARMdebuginstr(THUMB_INSTR_NOP, bkpt)
+ return self.ARMdebuginstr(ARM_INSTR_NOP, bkpt)
+ def ARMrestart(self):
+ self.ARMshift_IR(IR_RESTART)
+ def ARMset_watchpoint0(self, addr, addrmask, data, datamask, ctrl, ctrlmask):
+ self.ARMeice_write(EICE_WP0ADDR, addr); # write 0 in watchpoint 0 address
+ self.ARMeice_write(EICE_WP0ADDRMASK, addrmask); # write 0xffffffff in watchpoint 0 address mask
+ self.ARMeice_write(EICE_WP0DATA, data); # write 0 in watchpoint 0 data
+ self.ARMeice_write(EICE_WP0DATAMASK, datamask); # write 0xffffffff in watchpoint 0 data mask
+ self.ARMeice_write(EICE_WP0CTRL, ctrl); # write 0x00000100 in watchpoint 0 control value register (enables watchpoint)
+ self.ARMeice_write(EICE_WP0CTRLMASK, ctrlmask); # write 0xfffffff7 in watchpoint 0 control mask - only detect the fetch instruction
+ return self.data
+ def ARMset_watchpoint1(self, addr, addrmask, data, datamask, ctrl, ctrlmask):
+ self.ARMeice_write(EICE_WP1ADDR, addr); # write 0 in watchpoint 1 address
+ self.ARMeice_write(EICE_WP1ADDRMASK, addrmask); # write 0xffffffff in watchpoint 1 address mask
+ self.ARMeice_write(EICE_WP1DATA, data); # write 0 in watchpoint 1 data
+ self.ARMeice_write(EICE_WP1DATAMASK, datamask); # write 0xffffffff in watchpoint 1 data mask
+ self.ARMeice_write(EICE_WP1CTRL, ctrl); # write 0x00000100 in watchpoint 1 control value register (enables watchpoint)
+ self.ARMeice_write(EICE_WP1CTRLMASK, ctrlmask); # write 0xfffffff7 in watchpoint 1 control mask - only detect the fetch instruction
+ return self.data
+ def THUMBgetPC(self):
+ r0 = self.ARMget_register(0)
+ self.ARMdebuginstr(THUMB_INSTR_MOV_R0_PC, 0)
+ retval = self.ARMget_register(0)
+ self.ARMset_register(0,r0)
+ return retval
+ def ARMhaltcpu(self):
+ """Halt the CPU."""
+ if not(self.ARMget_dbgstate()&1):
+ self.ARMset_dbgctrl(2)
+ if (self.ARMwaitDBG() == 0):
+ raise Exception("Timeout waiting to enter DEBUG mode on HALT")
+ self.ARMset_dbgctrl(0)
+ self.last_dbg_state = self.ARMget_dbgstate()
+ if self.last_dbg_state&0x10:
+ self.storedPC = self.THUMBgetPC()
+ else:
+ self.storedPC = self.ARMget_register(15)
+ self.storedPC, self.flags, self.nothing = self.ARMchain0(0)
+ if self.ARMget_dbgstate() & DBG_TBIT:
+ self.ARMsetModeARM()
+ if self.storedPC ^ 4:
+ self.ARMset_register(15,self.storedPC&0xfffffffc)
+ print "CPSR: (%s) %s"%(self.ARMget_regCPSRstr())
+ halt = ARMhaltcpu
+ def ARMreleasecpu(self):
+ """Resume the CPU."""
+ # restore registers FIXME: DO THIS
+ if self.ARMget_dbgstate()&1 == 0:
+ return
+ currentPC, self.currentflags, nothing = self.ARMchain0(self.storedPC,self.flags)
+ if not(self.flags & F_TBIT): # need to be in arm mode
+ if self.currentflags & F_TBIT: # currently in thumb mode
+ self.ARMsetModeARM()
+ # branch to the right address
+ self.ARMset_register(15, self.storedPC)
+ print hex(self.storedPC)
+ print hex(self.ARMget_register(15))
+ print hex(self.ARMchain0(self.storedPC,self.flags)[0])
+ self.ARM_nop(0)
+ self.ARM_nop(1)
+ self.ARMdebuginstr(ARM_INSTR_B_IMM | 0xfffff0,0)
+ self.ARM_nop(0)
+ self.ARMrestart()
+
+ elif self.flags & F_TBIT: # need to be in thumb mode
+ if not (self.currentflags & F_TBIT): # currently in arm mode
+ self.ARMsetModeThumb()
+ r0=self.ARMget_register(0)
+ self.ARMset_register(0, self.storedPC)
+ self.ARMdebuginstr(THUMB_INSTR_MOV_PC_R0,0)
+ self.ARM_nop(0)
+ self.ARM_nop(1)
+ print hex(self.storedPC)
+ print hex(self.ARMget_register(15))
+ print hex(self.ARMchain0(self.storedPC,self.flags)[0])
+ self.ARMdebuginstr(THUMB_INSTR_B_IMM | (0x7fc07fc))
+ self.ARM_nop()
+ self.ARMrestart()
+
+
+ resume = ARMreleasecpu
+ def resettap(self):
+ self.writecmd(0x13, RESETTAP, 0,[])
+ def ARMsetModeARM(self):
+ r0 = None
+ if ((self.current_dbgstate & DBG_TBIT)):
+ debugstr("=== Switching to ARM mode ===")
+ #r0 = self.ARMget_register(0)
+ self.ARM_nop(0)
+ #self.ARMdebuginstr(THUMB_INSTR_NOP,0)
+ #self.ARMdebuginstr(THUMB_INSTR_STR_R0_r0,0)
+ #self.ARMdebuginstr(THUMB_INSTR_MOV_R0_PC,0)
+ #self.ARMdebuginstr(THUMB_INSTR_STR_R0_r0,0)
+ self.ARMdebuginstr(THUMB_INSTR_BX_PC,0)
+ self.ARM_nop(0)
+ self.ARM_nop(0)
+ self.resettap()
+ self.current_dbgstate = self.ARMget_dbgstate();
+ return self.current_dbgstate
+ def ARMsetModeThumb(self): # needs serious work and truing
+ self.resettap()
+ debugstr("=== Switching to THUMB mode ===")
+ if ( not (self.current_dbgstate & DBG_TBIT)):
+ self.storedPC |= 1
+ self.ARMset_register(0, self.storedPC)
+ self.ARM_nop(0)
+ self.ARMdebuginstr(ARM_INSTR_BX_R0,0)
+ self.ARM_nop(0)
+ self.ARM_nop(0)
+ self.resettap()
+ self.current_dbgstate = self.ARMget_dbgstate();
+ return self.current_dbgstate
+ def ARMget_regCPSRstr(self):
+ psr = self.ARMget_regCPSR()
+ return hex(psr), PSRdecode(psr)
+ def ARMget_regCPSR(self):
+ """Get an ARM's Register"""
+ r0 = self.ARMget_register(0)
+ self.ARM_nop( 0) # push nop into pipeline - clean out the pipeline...
+ self.ARMdebuginstr(ARM_INSTR_MRS_R0_CPSR, 0) # push MRS_R0, CPSR into pipeline - fetch
+ self.ARM_nop( 0) # push nop into pipeline - decoded
+ self.ARM_nop( 0) # push nop into pipeline - execute
+ retval = self.ARMget_register(0)
+ self.ARMset_register(0, r0)
+ return retval
+ def ARMset_regCPSR(self, val):
+ """Get an ARM's Register"""
+ r0 = self.ARMget_register(0)
+ self.ARMset_register(0, val)
+ self.ARM_nop( 0) # push nop into pipeline - clean out the pipeline...
+ self.ARMdebuginstr(ARM_INSTR_MSR_cpsr_cxsf_R0, 0) # push MSR cpsr_cxsf, R0 into pipeline - fetch
+ self.ARM_nop( 0) # push nop into pipeline - decoded
+ self.ARM_nop( 0) # push nop into pipeline - execute
+ self.ARMset_register(0, r0)
+ return(val)
+ def ARMreadMem(self, adr, wrdcount=1):
+ retval = []
+ r0 = self.ARMget_register(0); # store R0 and R1
+ r1 = self.ARMget_register(1);
+ #print >>sys.stderr,("CPSR:\t%x"%self.ARMget_regCPSR())
+ self.ARMset_register(0, adr); # write address into R0
+ self.ARMset_register(1, 0xdeadbeef)
+ for word in range(adr, adr+(wrdcount*4), 4):
+ #sys.stdin.readline()
+ self.ARM_nop(0)
+ self.ARM_nop(1)
+ self.ARMdebuginstr(ARM_READ_MEM, 0); # push LDR R1, [R0], #4 into instruction pipeline (autoincrements for consecutive reads)
+ self.ARM_nop(0)
+ self.ARMrestart()
+ self.ARMwaitDBG()
+ print hex(self.ARMget_register(1))
+
+ # FIXME: this may end up changing te current debug-state. should we compare to current_dbgstate?
+ #print repr(self.data[4])
+ if (len(self.data)>4 and self.data[4] == '\x00'):
+ print >>sys.stderr,("FAILED TO READ MEMORY/RE-ENTER DEBUG MODE")
+ raise Exception("FAILED TO READ MEMORY/RE-ENTER DEBUG MODE")
+ return (-1);
+ else:
+ retval.append( self.ARMget_register(1) ) # read memory value from R1 register
+ #print >>sys.stderr,("CPSR: %x\t\tR0: %x\t\tR1: %x"%(self.ARMget_regCPSR(),self.ARMget_register(0),self.ARMget_register(1)))
+ self.ARMset_register(1, r1); # restore R0 and R1
+ self.ARMset_register(0, r0);
+ return retval
+
+ def ARMwriteMem(self, adr, wordarray):
+ r0 = self.ARMget_register(0); # store R0 and R1
+ r1 = self.ARMget_register(1);
+ #print >>sys.stderr,("CPSR:\t%x"%self.ARMget_regCPSR())
+ for widx in xrange(len(wordarray)):
+ address = adr + (widx*4)
+ word = wordarray[widx]
+ self.ARMset_register(0, address); # write address into R0
+ self.ARMset_register(1, word); # write address into R0
+ self.ARM_nop(0)
+ self.ARM_nop(1)
+ self.ARMdebuginstr(ARM_WRITE_MEM, 0); # push STR R1, [R0], #4 into instruction pipeline (autoincrements for consecutive writes)
+ self.ARM_nop(0)
+ self.ARMrestart()
+ self.ARMwaitDBG()
+ print hex(self.ARMget_register(1))
+ self.ARMset_register(1, r1); # restore R0 and R1
+ self.ARMset_register(0, r0);
+
+ ARMstatusbits={
+ 0x10 : "TBIT",
+ 0x08 : "cgenL",
+ 0x04 : "Interrupts Enabled (or not?)",
+ 0x02 : "DBGRQ",
+ 0x01 : "DGBACK"
+ }
+ ARMctrlbits={
+ 0x04 : "disable interrupts",
+ 0x02 : "force dbgrq",
+ 0x01 : "force dbgack"
+ }
+
+ def ARMchain0(self, address, bits=0x819684c054, data=0):
+ bulk = chop(address,4)
+ bulk.extend(chop(bits,8))
+ bulk.extend(chop(data,4))
+ print (repr(bulk))
+ self.writecmd(0x13,CHAIN0,16,bulk)
+ d1,b1,a1 = struct.unpack("<LQL",self.data)
+ return (a1,b1,d1)
+ def start(self):
+ """Start debugging."""
+ self.writecmd(0x13,START,0,self.data)
+ ident=self.ARMidentstr()
+ print "Target identifies as %s." % ident
+ print "Debug Status: %s." % self.statusstr()
+ #print "System State: %x." % self.ARMget_regCPSRstr()
+ def stop(self):
+ """Stop debugging."""
+ self.writecmd(0x13,STOP,0,self.data)
+ #def ARMstep_instr(self):
+ # """Step one instruction."""
+ # self.writecmd(0x13,STEP_INSTR,0,self.data)
+ #def ARMflashpage(self,adr):
+ # """Flash 2kB a page of flash from 0xF000 in XDATA"""
+ # data=[adr&0xFF,
+ # (adr>>8)&0xFF,
+ # (adr>>16)&0xFF,
+ # (adr>>24)&0xFF]
+ # print "Flashing buffer to 0x%06x" % adr
+ # self.writecmd(0x13,MASS_FLASH_PAGE,4,data)
+
+