and the peek does the size better (without specifying an end, it was giving odd results)

[goodfet] / client / GoodFETARM7.py

diff --git a/client/GoodFETARM7.py b/client/GoodFETARM7.py
index cf0a1f4..307a1fe 100644 (file)
--- a/client/GoodFETARM7.py
+++ b/client/GoodFETARM7.py
@@ -10,7 +10,6 @@
 #  * set security (chip-specific)
 
 import sys, binascii, struct, time
-import atlasutils.smartprint as asp
 from GoodFET import GoodFET
 from intelhex import IntelHex
 
@@ -33,9 +32,10 @@ IR_SHIFT =                  0x80
 DR_SHIFT =                  0x81
 RESETTAP =                  0x82
 RESETTARGET =               0x83
-GET_REGISTER =              0x87
-SET_REGISTER =              0x88
-DEBUG_INSTR =               0x89
+DR_SHIFT_MORE =             0x87
+GET_REGISTER =              0x8d
+SET_REGISTER =              0x8e
+DEBUG_INSTR =               0x8f
 # Really ARM specific stuff
 WAIT_DBG =                  0x91
 CHAIN0 =                    0x93
@@ -123,6 +123,8 @@ 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_STRB_R1_r0_1 =    0xe4c01001L
+ARM_WRITE_MEM_BYTE =        ARM_INSTR_STRB_R1_r0_1
 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...
@@ -215,19 +217,38 @@ class GoodFETARM(GoodFET):
         """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):
+    def dump(self,fn,start=0,stop=0xffffffff):
         """Dump an intel hex file from code memory."""
+        
+        print "Dumping from %04x to %04x as %s." % (start,stop,f);
+        # FIXME: get mcu state and return it to that state
+        self.halt()
+
+        h = IntelHex(None);
+        i=start;
+        while i<=stop:
+            data=self.ARMreadChunk(i, 48, verbose=0);
+            print "Dumped %06x."%i;
+            for dword in data:
+                if i<=stop and dword != 0xdeadbeef:
+                    h.puts( i, struct.pack("<I", dword) )
+                i+=4;
+        # FIXME: get mcu state and return it to that state
+        self.resume()
+        h.write_hex_file(fn);
+
         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])
+        self.writecmd(0x13,DR_SHIFT,14,[bits&0xff, flags&0xff, 0, 0, data&0xff,(data>>8)&0xff,(data>>16)&0xff,(data>>24)&0xff, (data>>32)&0xff,(data>>40)&0xff,(data>>48)&0xff,(data>>56)&0xff,(data>>64)&0xff,(data>>72)&0xff])
+        return self.data
+    def ARMshift_DR_more(self, data, bits, flags):
+        self.writecmd(0x13,DR_SHIFT_MORE,14,[bits&0xff, flags&0xff, 0, 0, data&0xff,(data>>8)&0xff,(data>>16)&0xff,(data>>24)&0xff, (data>>32)&0xff,(data>>40)&0xff,(data>>48)&0xff,(data>>56)&0xff,(data>>64)&0xff,(data>>72)&0xff])
         return self.data
     def ARMwaitDBG(self, timeout=0xff):
         self.current_dbgstate = self.ARMget_dbgstate()
@@ -283,6 +304,7 @@ class GoodFETARM(GoodFET):
     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
+    getpc = ARMgetPC
     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
@@ -385,9 +407,10 @@ class GoodFETARM(GoodFET):
                 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])
+            #print hex(self.storedPC)
+            #print hex(self.ARMget_register(15))
+            #print hex(self.ARMchain0(self.storedPC,self.flags)[0])
+            self.ARMchain0(self.storedPC,self.flags)
             self.ARM_nop(0)
             self.ARM_nop(1)
             self.ARMdebuginstr(ARM_INSTR_B_IMM | 0xfffff0,0)
@@ -402,8 +425,8 @@ class GoodFETARM(GoodFET):
             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.storedPC)
+            #print hex(self.ARMget_register(15))
             print hex(self.ARMchain0(self.storedPC,self.flags)[0])
             self.ARMdebuginstr(THUMB_INSTR_B_IMM | (0x7fc07fc),0)
             self.ARM_nop(0)
@@ -477,7 +500,7 @@ class GoodFETARM(GoodFET):
             self.ARM_nop(0)
             self.ARMrestart()
             self.ARMwaitDBG()
-            print hex(self.ARMget_register(1))
+            #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])
@@ -491,7 +514,7 @@ class GoodFETARM(GoodFET):
         self.ARMset_register(1, r1);       # restore R0 and R1 
         self.ARMset_register(0, r0);
         return retval
-    def ARMreadChunk(self, adr, wordcount):         
+    def ARMreadChunk(self, adr, wordcount, verbose=1):         
         """ Only works in ARM mode currently
         WARNING: Addresses must be word-aligned!
         """
@@ -500,7 +523,7 @@ class GoodFETARM(GoodFET):
         output = []
         count = wordcount
         while (wordcount > 0):
-            if (wordcount%64 == 0):  sys.stderr.write(".")
+            if (verbose and wordcount%64 == 0):  sys.stderr.write(".")
             count = (wordcount, 0xe)[wordcount>0xd]
             bitmask = LDM_BITMASKS[count]
             self.ARMset_register(14,adr)
@@ -543,7 +566,7 @@ class GoodFETARM(GoodFET):
             adr += count*4
             #print hex(adr)
         # FIXME: handle the rest of the wordcount here.
-    def ARMwriteMem(self, adr, wordarray):
+    def ARMwriteMem(self, adr, wordarray, instr=ARM_WRITE_MEM):
         r0 = self.ARMget_register(0);        # store R0 and R1
         r1 = self.ARMget_register(1);
         #print >>sys.stderr,("CPSR:\t%x"%self.ARMget_regCPSR())
@@ -554,13 +577,16 @@ class GoodFETARM(GoodFET):
             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.ARMdebuginstr(instr, 0); # push STR R1, [R0], #4 into instruction pipeline  (autoincrements for consecutive writes)
             self.ARM_nop(0)
             self.ARMrestart()
             self.ARMwaitDBG()
-            print >>sys.stderr,hex(self.ARMget_register(1))
+            #print >>sys.stderr,hex(self.ARMget_register(1))
         self.ARMset_register(1, r1);       # restore R0 and R1 
         self.ARMset_register(0, r0);
+    def writeMemByte(self, adr, byte):
+        self.ARMwriteMem(adr, byte, ARM_WRITE_MEM_BYTE)
+
 
     ARMstatusbits={
                   0x10 : "TBIT",
@@ -580,10 +606,11 @@ class GoodFETARM(GoodFET):
         bulk = chop(address,4)
         bulk.extend(chop(bits,8))
         bulk.extend(chop(data,4))
-        print >>sys.stderr,(repr(bulk))
+        #print >>sys.stderr,(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)