Mercurial > lcfOS
view python/stlink.py @ 249:e41e4109addd
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author | Windel Bouwman |
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date | Fri, 26 Jul 2013 20:26:05 +0200 |
parents | c694ec551f34 |
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import struct, time from usb import UsbContext, UsbDevice from devices import Interface, STLinkException, registerInterface import adi """ More or less copied from: https://github.com/texane/stlink Tracing from: https://github.com/obe1line/stlink-trace """ ST_VID, STLINK2_PID = 0x0483, 0x3748 def checkDevice(device): return device.VendorId == ST_VID and device.ProductId == STLINK2_PID DFU_MODE, MASS_MODE, DEBUG_MODE = 0, 1, 2 CORE_RUNNING = 0x80 CORE_HALTED = 0x81 # Commands: GET_VERSION = 0xf1 DEBUG_COMMAND = 0xf2 DFU_COMMAND = 0xf3 GET_CURRENT_MODE = 0xf5 # dfu commands: DFU_EXIT = 0x7 # debug commands: DEBUG_ENTER = 0x20 DEBUG_EXIT = 0x21 DEBUG_ENTER_SWD = 0xa3 DEBUG_GETSTATUS = 0x01 DEBUG_FORCEDEBUG = 0x02 DEBUG_RESETSYS = 0x03 DEBUG_READALLREGS = 0x04 DEBUG_READREG = 0x5 DEBUG_WRITEREG = 0x6 DEBUG_READMEM_32BIT = 0x7 DEBUG_WRITEMEM_32BIT = 0x8 DEBUG_RUNCORE = 0x9 DEBUG_STEPCORE = 0xa JTAG_WRITEDEBUG_32BIT = 0x35 JTAG_READDEBUG_32BIT = 0x36 TRACE_GET_BYTE_COUNT = 0x42 # cortex M3 CM3_REG_CPUID = 0xE000ED00 @registerInterface((ST_VID, STLINK2_PID)) class STLink2(Interface): """ STlink2 interface implementation. """ def __init__(self, stlink2=None): self.devHandle = None if not stlink2: context = UsbContext() stlink2s = list(filter(checkDevice, context.DeviceList)) if not stlink2s: raise STLinkException('Could not find an ST link 2 interface') if len(stlink2s) > 1: print('More then one stlink2 found, picking first one') stlink2 = stlink2s[0] assert isinstance(stlink2, UsbDevice) # Nifty type checking assert checkDevice(stlink2) self.stlink2 = stlink2 def __del__(self): if self.IsOpen: if self.CurrentMode == DEBUG_MODE: self.exitDebugMode() self.close() def __str__(self): if self.IsOpen: return 'STlink2 device version {0}'.format(self.Version) else: return 'STlink2 device' def open(self): if self.IsOpen: return self.devHandle = self.stlink2.open() if self.devHandle.Configuration != 1: self.devHandle.Configuration = 1 self.devHandle.claimInterface(0) # First initialization: if self.CurrentMode == DFU_MODE: self.exitDfuMode() if self.CurrentMode != DEBUG_MODE: self.enterSwdMode() #self.reset() def close(self): if self.IsOpen: self.devHandle.close() self.devHandle = None @property def IsOpen(self): return self.devHandle != None # modes: def getCurrentMode(self): cmd = bytearray(16) cmd[0] = GET_CURRENT_MODE reply = self.send_recv(cmd, 2) # Expect 2 bytes back return reply[0] CurrentMode = property(getCurrentMode) @property def CurrentModeString(self): modes = {DFU_MODE: 'dfu', MASS_MODE: 'massmode', DEBUG_MODE:'debug'} return modes[self.CurrentMode] def exitDfuMode(self): cmd = bytearray(16) cmd[0:2] = DFU_COMMAND, DFU_EXIT self.send_recv(cmd) def enterSwdMode(self): cmd = bytearray(16) cmd[0:3] = DEBUG_COMMAND, DEBUG_ENTER, DEBUG_ENTER_SWD self.send_recv(cmd) def exitDebugMode(self): cmd = bytearray(16) cmd[0:2] = DEBUG_COMMAND, DEBUG_EXIT self.send_recv(cmd) def getVersion(self): cmd = bytearray(16) cmd[0] = GET_VERSION data = self.send_recv(cmd, 6) # Expect 6 bytes back # Parse 6 bytes into various versions: b0, b1, b2, b3, b4, b5 = data stlink_v = b0 >> 4 jtag_v = ((b0 & 0xf) << 2) | (b1 >> 6) swim_v = b1 & 0x3f vid = (b3 << 8) | b2 pid = (b5 << 8) | b4 return 'stlink={0} jtag={1} swim={2} vid:pid={3:04X}:{4:04X}'.format(\ stlink_v, jtag_v, swim_v, vid, pid) Version = property(getVersion) @property def ChipId(self): return self.read_debug32(0xE0042000) @property def CpuId(self): u32 = self.read_debug32(CM3_REG_CPUID) implementer_id = (u32 >> 24) & 0x7f variant = (u32 >> 20) & 0xf part = (u32 >> 4) & 0xfff revision = u32 & 0xf return implementer_id, variant, part, revision def getStatus(self): cmd = bytearray(16) cmd[0:2] = DEBUG_COMMAND, DEBUG_GETSTATUS reply = self.send_recv(cmd, 2) return reply[0] Status = property(getStatus) @property def StatusString(self): s = self.Status statii = {CORE_RUNNING: 'CORE RUNNING', CORE_HALTED: 'CORE HALTED'} if s in statii: return statii[s] return 'Unknown status' def reset(self): cmd = bytearray(16) cmd[0:2] = DEBUG_COMMAND, DEBUG_RESETSYS self.send_recv(cmd, 2) # debug commands: def step(self): cmd = bytearray(16) cmd[0:2] = DEBUG_COMMAND, DEBUG_STEPCORE self.send_recv(cmd, 2) def run(self): cmd = bytearray(16) cmd[0:2] = DEBUG_COMMAND, DEBUG_RUNCORE self.send_recv(cmd, 2) def halt(self): cmd = bytearray(16) cmd[0:2] = DEBUG_COMMAND, DEBUG_FORCEDEBUG self.send_recv(cmd, 2) # Tracing: def traceEnable(self): self.write_debug32(0xE000EDF0, 0xA05F0003) # Enable TRCENA: DEMCR = 0xE000EDFC v = self.read_debug32(DEMCR) v |= (1 << 24) self.write_debug32(DEMCR, v) # ?? Enable write?? self.write_debug32(0xE0002000, 0x2) # # DBGMCU_CR: self.write_debug32(0xE0042004, 0x27) # Enable trace in async mode # TPIU config: self.write_debug32(0xE0040004, 0x00000001) # current port size register --> 1 == port size = 1 self.write_debug32(0xE0040010, 0x23) # random clock divider?? self.write_debug32(0xE00400F0, 0x2) # selected pin protocol (2 == NRZ) self.write_debug32(0xE0040304, 0x100) # continuous formatting # ITM config: self.write_debug32(0xE0000FB0, 0xC5ACCE55) # Unlock write access to ITM self.write_debug32(0xE0000F80, 0x00010005) # ITM Enable, sync enable, ATB=1 self.write_debug32(0xE0000E00, 0xFFFFFFFF) # Enable all trace ports in ITM self.write_debug32(0xE0000E40, 0x0000000F) # Set privilege mask for all 32 ports. def writePort0(self, v32): self.write_debug32(0xE0000000, v32) def getTraceByteCount(self): cmd = bytearray(16) cmd[0:2] = DEBUG_COMMAND, 0x42 reply = self.send_recv(cmd, 2) return struct.unpack('<H', reply[0:2])[0] def readTraceData(self): bsize = self.getTraceByteCount() if bsize > 0: td = self.recv_ep3(bsize) print(td) else: print('no trace data') # Helper 1 functions: def write_debug32(self, address, value): cmd = bytearray(16) cmd[0:2] = DEBUG_COMMAND, JTAG_WRITEDEBUG_32BIT cmd[2:10] = struct.pack('<II', address, value) r = self.send_recv(cmd, 2) def read_debug32(self, address): cmd = bytearray(16) cmd[0:2] = DEBUG_COMMAND, JTAG_READDEBUG_32BIT cmd[2:6] = struct.pack('<I', address) # pack into u32 little endian reply = self.send_recv(cmd, 8) return struct.unpack('<I', reply[4:8])[0] def write_reg(self, reg, value): cmd = bytearray(16) cmd[0:3] = DEBUG_COMMAND, DEBUG_WRITEREG, reg cmd[3:7] = struct.pack('<I', value) r = self.send_recv(cmd, 2) def read_reg(self, reg): cmd = bytearray(16) cmd[0:3] = DEBUG_COMMAND, DEBUG_READREG, reg reply = self.send_recv(cmd, 4) return struct.unpack('<I', reply)[0] def read_all_regs(self): cmd = bytearray(16) cmd[0:2] = DEBUG_COMMAND, DEBUG_READALLREGS reply = self.send_recv(cmd, 84) fmt = '<' + 'I' * 21 # unpack 21 register values return list(struct.unpack(fmt, reply)) def write_mem32(self, address, content): assert len(content) % 4 == 0 cmd = bytearray(16) cmd[0:2] = DEBUG_COMMAND, DEBUG_WRITEMEM_32BIT cmd[2:8] = struct.pack('<IH', address, len(content)) self.send_recv(cmd) self.send_recv(content) def read_mem32(self, address, length): assert length % 4 == 0 cmd = bytearray(16) cmd[0:2] = DEBUG_COMMAND, DEBUG_READMEM_32BIT cmd[2:8] = struct.pack('<IH', address, length) reply = self.send_recv(cmd, length) # expect memory back! return reply # Helper 2 functions: def send_recv(self, tx, rxsize=0): """ Helper function that transmits and receives data in bulk mode. """ # TODO: we could use here the non-blocking libusb api. tx = bytes(tx) #assert len(tx) == 16 self.devHandle.bulkWrite(2, tx) # write to endpoint 2 if rxsize > 0: return self.devHandle.bulkRead(1, rxsize) # read from endpoint 1 def recv_ep3(self, rxsize): return self.devHandle.bulkRead(3, rxsize) if __name__ == '__main__': # Test program sl = STLink2() sl.open() sl.reset() print('version:', sl.Version) print('mode before doing anything:', sl.CurrentModeString) if sl.CurrentMode == DFU_MODE: sl.exitDfuMode() sl.enterSwdMode() print('mode after entering swd mode:', sl.CurrentModeString) i = sl.ChipId print('chip id: 0x{0:X}'.format(i)) print('cpu: {0}'.format(sl.CpuId)) print('status: {0}'.format(sl.StatusString)) # test registers: sl.write_reg(0, 0xdeadbeef) sl.write_reg(1, 0xcafebabe) sl.write_reg(2, 0xc0ffee) sl.write_reg(3, 0x1337) sl.write_reg(5, 0x1332) sl.write_reg(6, 0x12345) assert sl.read_reg(3) == 0x1337 assert sl.read_reg(5) == 0x1332 assert sl.read_reg(6) == 0x12345 regs = sl.read_all_regs() for i in range(len(regs)): print('R{0}=0x{1:X}'.format(i, regs[i])) print('tracing') sl.traceEnable() sl.run() sl.writePort0(0x1337) # For test time.sleep(0.1) td = sl.readTraceData() print('trace data:', td) # Test CoreSight registers: idr4 = sl.read_debug32(0xE0041fd0) print('idr4 =', idr4) print('== ADI ==') a = adi.Adi(sl) a.parseRomTable(0xE00FF000) # why is rom table at 0xE00FF000? print('== ADI ==') # Detect ROM table: id4 = sl.read_debug32(0xE00FFFD0) id5 = sl.read_debug32(0xE00FFFD4) id6 = sl.read_debug32(0xE00FFFD8) id7 = sl.read_debug32(0xE00FFFDC) id0 = sl.read_debug32(0xE00FFFE0) id1 = sl.read_debug32(0xE00FFFE4) id2 = sl.read_debug32(0xE00FFFE8) id3 = sl.read_debug32(0xE00FFFEC) pIDs = [id0, id1, id2, id3, id4, id5, id6, id7] print(pIDs) print('reading from 0xE00FF000') scs = sl.read_debug32(0xE00FF000) print('scs {0:08X}'.format(scs)) dwt = sl.read_debug32(0xE00FF004) print('dwt {0:08X}'.format(dwt)) fpb = sl.read_debug32(0xE00FF008) print('fpb {0:08X}'.format(fpb)) itm = sl.read_debug32(0xE00FF00C) print('itm {0:08X}'.format(itm)) tpiu = sl.read_debug32(0xE00FF010) print('tpiu {0:08X}'.format(tpiu)) etm = sl.read_debug32(0xE00FF014) print('etm {0:08X}'.format(etm)) assert sl.read_debug32(0xE00FF018) == 0x0 # end marker devid = sl.read_debug32(0xE0040FC8) print('TPIU_DEVID: {0:X}'.format(devid)) devtype = sl.read_debug32(0xE0040FCC) print('TPIU_TYPEID: {0:X}'.format(devtype)) sl.exitDebugMode() print('mode at end:', sl.CurrentModeString) sl.close() print('Test succes!')