updated features for two different types of sniffing. fixed and scrolling. This can...
[goodfet] / client / GoodFETNRF.py
index 6d07171..70a0cb1 100644 (file)
@@ -5,7 +5,7 @@
 #
 # This code is being rewritten and refactored.  You've been warned!
 
-import sys, time, string, cStringIO, struct, glob, serial, os;
+import sys, time, string, cStringIO, struct, glob, os;
 
 from GoodFET import GoodFET;
 
@@ -26,6 +26,18 @@ class GoodFETNRF(GoodFET):
         self.writecmd(self.NRFAPP,0x00,len(data),data);
         return self.data;
     
+    def tune(self,tuning="aa,c78c65805e,14,09"):
+        """Tune the radio."""
+        #MAC,rA,r5,r6
+        fields=tuning.split(",");
+        ra=int(fields[1],16);
+        r5=int(fields[2],16);
+        r6=int(fields[3],16);
+        self.poke(0x0a,ra,5);
+        self.poke(0x05,r5,1);
+        self.poke(0x06,r6,1);
+        self.RF_setmaclen(3);
+        return;
     def peek(self,reg,bytes=-1):
         """Read an NRF Register.  For long regs, result is flipped."""
         data=[reg,0,0,0,0,0];
@@ -53,9 +65,11 @@ class GoodFETNRF(GoodFET):
             data=data+[(val>>(8*i))&0xFF];
         self.writecmd(self.NRFAPP,0x03,len(data),data);
         if self.peek(reg,bytes)!=val and reg!=0x07:
-            print "Warning, failed to set r%02x=%02x, got %02x." %(reg,
-                                                                 val,
-                                                                 self.peek(reg,bytes));
+            print "Warning, failed to set r%02x=%02x, got %02x." %(
+                reg,
+                val,
+                self.peek(reg,bytes));
+        
         return;
     
     def status(self):
@@ -74,7 +88,7 @@ class GoodFETNRF(GoodFET):
         return "GFSK";
     def RF_getrate(self):
         rate=self.peek(0x06)&0x28;
-        if rate==0x28:
+        if rate==0x20:
             rate=250*10**3; #256kbps
         elif rate==0x08:
             rate=2*10**6;  #2Mbps
@@ -91,7 +105,7 @@ class GoodFETNRF(GoodFET):
         elif rate==250*10**3:
             r6=r6|0x20;
         print "Setting r6=%02x." % r6;
-        self.poke(0x06,r6); #Write new setting.
+        self.poke(0x06,r6); #Write new rate.
     def RF_setfreq(self,frequency):
         """Set the frequency in Hz."""
         
@@ -100,6 +114,8 @@ class GoodFETNRF(GoodFET):
         
         chan=frequency/1000000-2400;
         self.poke(0x05,chan);
+
+
     def RF_getfreq(self):
         """Get the frequency in Hz."""
         
@@ -145,11 +161,24 @@ class GoodFETNRF(GoodFET):
             self.writecmd(self.NRFAPP,0x82,0,None); #Flush
             self.poke(0x07,0x40);#clear bit.
         return None;
+    def RF_txpacket(self,payload):
+        """Transmit a packet.  Untested."""
+        if self.peek(0x07) & 0x40:
+            #Packet has arrived.
+            self.writecmd(self.NRFAPP,0x81,0,None); #RX Packet
+            data=self.data;
+            self.poke(0x07,0x40);#clear bit.
+            return data;
+        elif self.peek(0x07)==0:
+            self.writecmd(self.NRFAPP,0x83,0,None); #Flush
+            self.poke(0x07,0x40);#clear bit.
+        return None;
+
     def RF_carrier(self):
         """Hold a carrier wave on the present frequency."""
         # Set CONT_WAVE, PLL_LOCK, and 0dBm in RF_SETUP            
         self.poke(0x06,8+10+4+2); 
-        
+    
     packetlen=16;
     def RF_setpacketlen(self,len=16):
         """Set the number of bytes in the expected payload."""
@@ -163,14 +192,16 @@ class GoodFETNRF(GoodFET):
     maclen=5;
     def RF_getmaclen(self):
         """Get the number of bytes in the MAC address."""
-        choices=[0, 3, 4, 5];
+        choices=[2, 3, 4, 5];
         choice=self.peek(0x03)&3;
         self.maclen=choices[choice];
         return self.maclen;
     def RF_setmaclen(self,len):
         """Set the number of bytes in the MAC address."""
-        choices=["illegal", "illegal", "illegal", 
-                 1, 2, 3];
+        choices=["illegal", "illegal",
+                 0,       #undocumented 
+                 1, 2, 3  #documented
+                 ];
         choice=choices[len];
         self.poke(0x03,choice);
         self.maclen=len;