updated f7 template to the new glorious pythonic way of doing things!

templates/f7/test

@@ -5,242 +5,89 @@ import sys
 import time
 import struct
 import serial
-import subprocess
+import pylink
+sys.path.insert(0, '.')
+from test_common import (
+    SaleaeTimeMeasurements,
+    parse_nist_aead_test_vectors,
+    DeviceUnderTestAeadUARTP,
+    run_nist_aead_test,
+)
 
 
-RAM_SIZE = 0x50000
-
 def eprint(*args, **kargs):
     print(*args, file=sys.stderr, **kargs)
 
 
-def popen_jlink():
-    pipe = subprocess.PIPE
-    cmd = ['JLinkExe']
-    cmd.extend(['-autoconnect', '1'])
-    cmd.extend(['-device', 'STM32F746ZG'])
-    cmd.extend(['-if', 'swd'])
-    cmd.extend(['-speed', '4000'])
-    return subprocess.Popen(cmd, stdout=sys.stderr, stdin=pipe)
-
+def get_serial():
+    import serial.tools.list_ports
+    ports = serial.tools.list_ports.comports()
+    for port in ports:
+        print(port.serial_number)
+    devices = [
+        p.device
+        for p in ports
+        if p.serial_number == 'FT2XA9MY'
+    ]
+    devices.sort()
+    return serial.Serial(
+        devices[0],
+        baudrate=115200,
+        timeout=5)
 
-def flash():
-    p = popen_jlink()
-    return p.communicate(("""
-loadbin build/f7.bin 0x8000000
-r
-g
-exit
-    """).encode('ascii'))
 
+class F7(DeviceUnderTestAeadUARTP):
+    RAM_SIZE = 0x50000
+    def __init__(self):
+        DeviceUnderTestAeadUARTP.__init__(self, get_serial())
+        self.jlink = pylink.JLink()
+        self.jlink.open(779340002)
 
-def fill_ram():
-    p = popen_jlink()
-    return p.communicate(("""
-h
-loadbin ram_pattern.bin 0x20000000
-savebin ram_copy.bin 0x20000000 0x%x
-r
-g
-exit
-    """ % RAM_SIZE).encode('ascii'))
 
+    def flash(self):
+        jlink = self.jlink
+        jlink.connect('STM32F746ZG')
+        jlink.flash_file('build/f7.bin', 0x8000000)
+        jlink.flash_file('ram_pattern.bin', 0x20000000)
+        jlink.reset()
+        jlink.restart()
 
-def dump_ram():
-    p = popen_jlink()
-    return p.communicate(("""
-h
-savebin ram_dump.bin 0x20000000 0x%x
-exit
-    """ % RAM_SIZE).encode('ascii'))
+    def dump_ram(self):
+        jlink = self.jlink
+        return bytes(jlink.memory_read8(0x20000000, F7.RAM_SIZE))
 
 
-def get_serial():
-    import serial.tools.list_ports
-    ports = serial.tools.list_ports.comports()
-    devices = [ p.device for p in ports ]
-    devices.sort()
-    return devices[-1]
-
-
-class UARTP:
-    def __init__(self, ser):
-        UARTP.SYN = 0xf9
-        UARTP.FIN = 0xf3
-        self.ser = ser
-
-    def uart_read(self):
-        r = self.ser.read(1)
-        if len(r) != 1:
-            raise Exception("Serial read error")
-        return r[0]
-
-    def uart_write(self, c):
-        b = struct.pack("B", c)
-        r = self.ser.write(b)
-        if r != len(b):
-            raise Exception("Serial write error")
-        return r
-
-    def send(self, buf):
-        self.uart_write(UARTP.SYN)
-        len_ind_0 = 0xff & len(buf)
-        len_ind_1 = 0xff & (len(buf) >> 7)
-        if len(buf) < 128:
-            self.uart_write(len_ind_0)
-        else:
-            self.uart_write(len_ind_0 | 0x80)
-            self.uart_write(len_ind_1)
-        fcs = 0
-        for i in range(len(buf)):
-            info = buf[i]
-            fcs = (fcs + info) & 0xff
-            self.uart_write(buf[i])
-        fcs = (0xff - fcs) & 0xff
-        self.uart_write(fcs)
-        self.uart_write(UARTP.FIN)
-        eprint("sent frame '%s'" % buf.hex())
-
-    def recv(self):
-        tag_old = UARTP.FIN
-        while 1:
-            tag = tag_old
-            while 1:
-                if tag_old == UARTP.FIN:
-                    if tag == UARTP.SYN:
-                        break
-                tag_old = tag
-                tag = self.uart_read()
-            tag_old = tag
-
-            l = self.uart_read()
-            if l & 0x80:
-                l &= 0x7f
-                l |= self.uart_read() << 7
-
-            fcs = 0
-            buf = []
-            for i in range(l):
-                info = self.uart_read()
-                buf.append(info)
-                fcs = (fcs + info) & 0xff
-            fcs = (fcs + self.uart_read()) & 0xff
-
-            tag = self.uart_read()
-            if fcs == 0xff:
-                if tag == UARTP.FIN:
-                    buf = bytes(buf)
-                    eprint("rcvd frame '%s'" % buf.hex())
-                    if len(buf) >= 1 and buf[0] == 0xde:
-                        sys.stderr.buffer.write(buf[1:])
-                        sys.stderr.flush()
-                    else:
-                        return buf
+def main(argv):
+    if len(argv) < 2:
+        print("Usage: test LWC_AEAD_KAT.txt")
 
+    kat = list(parse_nist_aead_test_vectors(argv[1]))
 
-def main(argv):
     eprint(argv[0])
     script_dir = os.path.split(argv[0])[0]
     if len(script_dir) > 0:
         os.chdir(script_dir)
 
-    dev = get_serial()
-    ser = serial.Serial(dev, baudrate=115200, timeout=5)
-    uartp = UARTP(ser)
+    dut = F7()
 
-    flash()
-    fill_ram()
+    dut.flash()
     eprint("Flashed")
-    time.sleep(0.1)
-
-    def stdin_read(n):
-        b = sys.stdin.buffer.read(n)
-        if len(b) != n:
-            sys.exit(1)
-        return b
-
-    def stdin_readvar():
-        l = stdin_read(4)
-        (l, ) = struct.unpack("<I", l)
-        v = stdin_read(l)
-        return v
-
-    exp_hello = b"Hello, World!"
-    hello = ser.read(ser.in_waiting)
-    if hello[-13:] != exp_hello:
-        eprint("Improper board initialization message: %s" % hello)
-        return 1
+    dut.prepare()
     eprint("Board initialized properly")
     sys.stdout.write("Hello, World!\n")
     sys.stdout.flush()
 
-    while 1:
-        action = stdin_read(1)[0]
-        eprint("Command %c from stdin" % action)
-
-        if action in b"ackmps":
-            v = stdin_readvar()
-            uartp.send(struct.pack("B", action) + v)
-            ack = uartp.recv()
-            if len(ack) != 1 or ack[0] != action:
-                raise Exception("Unacknowledged variable transfer")
-            eprint("Var %c successfully sent to board" % action)
-
-        elif action in b"ACKMPS":
-            c = struct.pack("B", action)
-            uartp.send(c)
-            v = uartp.recv()
-            if len(v) < 1 or v[0] != action:
-                raise Exception("Could not obtain variable from board")
-            v = v[1:]
-            eprint("Var %c received from board: %s" % (action, v.hex()))
-            l = struct.pack("<I", len(v))
-            sys.stdout.buffer.write(l + v)
-            sys.stdout.flush()
-
-        elif action in b"ed":
-            c = struct.pack("B", action)
-            uartp.send(c)
-            ack = uartp.recv()
-            if len(ack) != 1 or ack[0] != action:
-                raise Exception("Unacknowledged variable transfer")
-            eprint("Operation %c completed successfully" % action)
-
-        elif action in b"u":
-            dump_ram()
-            with open("ram_copy.bin", 'rb') as dump:
-                dump_a = dump.read()
-            with open("ram_dump.bin", 'rb') as dump:
-                dump_b = dump.read()
-            
-            if len(dump_a) != RAM_SIZE or len(dump_b) != RAM_SIZE:
-                raise Exception("Wrong dump sizes: 0x%x, 0x%x" % (len(dump_a), len(dump_b)))
-           
-            streaks = []
-            streak_beg = 0
-            streak_end = 0
-            for i in range(len(dump_a)):
-                if dump_a[i] == dump_b[i]:
-                    streak_end = i
-                else:
-                    if streak_end != streak_beg:
-                        streaks.append((streak_beg, streak_end))
-                    streak_beg = i
-                    streak_end = i
-
-            for b, e in streaks:
-                eprint("equal bytes from 0x%x to 0x%x (length: %d)" % (b, e, e-b))
-
-            b, e = max(streaks, key=lambda a: a[1]-a[0])
-            eprint("longest equal bytes streak from 0x%x to 0x%x (length: %d)" % (b, e, e-b))
-            v = struct.pack("<II", 4, e-b)
-            sys.stdout.buffer.write(v)
-            sys.stdout.flush()
-
-        else:
-            raise Exception("Unknown action %c" % action)
-
-    return 0
+    try:
+        run_nist_aead_test(dut, kat)
+        return 0
+
+    except Exception as ex:
+        print("TEST FAILED")
+        raise ex
+
+    finally:
+        sys.stdout.flush()
+        sys.stderr.flush()
 
 
 if __name__ == "__main__":

test_common.py

@@ -22,7 +22,7 @@ class DeviceUnderTest:
         """
         pass
 
-    def ram_dump(self):
+    def dump_ram(self):
         """
         This should be overridden to return the RAM dump as a bytes string.
         """
@@ -142,7 +142,7 @@ class UARTP:
 
 
 def run_nist_aead_test(dut, kat):
-    dump_a = dut.ram_dump()
+    dump_a = dut.dump_ram()
 
     tool = SaleaeTimeMeasurements()
     tool.begin_measurement()
@@ -150,8 +150,8 @@ def run_nist_aead_test(dut, kat):
         for i, m, ad, k, npub, c in kat:
             run_nist_aead_test_line(dut, i, m, ad, k, npub, c)
 
-            if dump_a is not None and i == 0:
-                dump_b = dut.ram_dump()
+            if dump_a is not None and i == 1:
+                dump_b = dut.dump_ram()
                 longest = compare_dumps(dump_a, dump_b)
                 print("  longest chunk of untouched memory = %d" % longest)
     finally: