import random
import binascii
+MSTATUS_UIE = 0x00000001
+MSTATUS_SIE = 0x00000002
+MSTATUS_HIE = 0x00000004
+MSTATUS_MIE = 0x00000008
+MSTATUS_UPIE = 0x00000010
+MSTATUS_SPIE = 0x00000020
+MSTATUS_HPIE = 0x00000040
+MSTATUS_MPIE = 0x00000080
+MSTATUS_SPP = 0x00000100
+MSTATUS_HPP = 0x00000600
+MSTATUS_MPP = 0x00001800
+MSTATUS_FS = 0x00006000
+MSTATUS_XS = 0x00018000
+MSTATUS_MPRV = 0x00020000
+MSTATUS_PUM = 0x00040000
+MSTATUS_MXR = 0x00080000
+MSTATUS_VM = 0x1F000000
+MSTATUS32_SD = 0x80000000
+MSTATUS64_SD = 0x8000000000000000
+
+def ihex_line(address, record_type, data):
+ assert len(data) < 128
+ line = ":%02X%04X%02X" % (len(data), address, record_type)
+ check = len(data)
+ check += address % 256
+ check += address >> 8
+ check += record_type
+ for char in data:
+ value = ord(char)
+ check += value
+ line += "%02X" % value
+ line += "%02X\n" % ((256-check)%256)
+ return line
+
+def ihex_parse(line):
+ assert line.startswith(":")
+ line = line[1:]
+ data_len = int(line[:2], 16)
+ address = int(line[2:6], 16)
+ record_type = int(line[6:8], 16)
+ data = ""
+ for i in range(data_len):
+ data += "%c" % int(line[8+2*i:10+2*i], 16)
+ return record_type, address, data
+
class DeleteServer(unittest.TestCase):
def tearDown(self):
del self.server
-class MemoryTest(DeleteServer):
+class SimpleRegisterTest(DeleteServer):
+ def setUp(self):
+ self.server = target.server()
+ self.gdb = testlib.Gdb()
+ # For now gdb has to be told what the architecture is when it's not
+ # given an ELF file.
+ self.gdb.command("set arch riscv:rv%d" % target.xlen)
+
+ self.gdb.command("target extended-remote localhost:%d" % self.server.port)
+
+ # 0x13 is nop
+ self.gdb.command("p *((int*) 0x%x)=0x13" % target.ram)
+ self.gdb.command("p *((int*) 0x%x)=0x13" % (target.ram + 4))
+ self.gdb.command("p *((int*) 0x%x)=0x13" % (target.ram + 8))
+ self.gdb.p("$pc=0x%x" % target.ram)
+
+ def check_reg(self, name):
+ a = random.randrange(1<<target.xlen)
+ b = random.randrange(1<<target.xlen)
+ self.gdb.p("$%s=0x%x" % (name, a))
+ self.gdb.stepi()
+ self.assertEqual(self.gdb.p("$%s" % name), a)
+ self.gdb.p("$%s=0x%x" % (name, b))
+ self.gdb.stepi()
+ self.assertEqual(self.gdb.p("$%s" % name), b)
+
+ def test_s0(self):
+ # S0 is saved/restored in DSCRATCH
+ self.check_reg("s0")
+
+ def test_s1(self):
+ # S1 is saved/restored in Debug RAM
+ self.check_reg("s1")
+
+ def test_t0(self):
+ # T0 is not saved/restored at all
+ self.check_reg("t2")
+
+ def test_t2(self):
+ # T2 is not saved/restored at all
+ self.check_reg("t2")
+
+class SimpleMemoryTest(DeleteServer):
def setUp(self):
self.server = target.server()
self.gdb = testlib.Gdb()
+ self.gdb.command("set arch riscv:rv%d" % target.xlen)
self.gdb.command("target extended-remote localhost:%d" % self.server.port)
def access_test(self, size, data_type):
+ self.assertEqual(self.gdb.p("sizeof(%s)" % data_type),
+ size)
a = 0x86753095555aaaa & ((1<<(size*8))-1)
b = 0xdeadbeef12345678 & ((1<<(size*8))-1)
self.gdb.p("*((%s*)0x%x) = 0x%x" % (data_type, target.ram, a))
self.access_test(2, 'short')
def test_32(self):
- self.access_test(4, 'long')
+ self.access_test(4, 'int')
def test_64(self):
self.access_test(8, 'long long')
+ def test_block(self):
+ length = 1024
+ line_length = 16
+ a = tempfile.NamedTemporaryFile(suffix=".ihex")
+ data = ""
+ for i in range(length / line_length):
+ line_data = "".join(["%c" % random.randrange(256) for _ in range(line_length)])
+ data += line_data
+ a.write(ihex_line(i * line_length, 0, line_data))
+ a.flush()
+
+ self.gdb.command("restore %s 0x%x" % (a.name, target.ram))
+ for offset in range(0, length, 19*4) + [length-4]:
+ value = self.gdb.p("*((int*)0x%x)" % (target.ram + offset))
+ written = ord(data[offset]) | \
+ (ord(data[offset+1]) << 8) | \
+ (ord(data[offset+2]) << 16) | \
+ (ord(data[offset+3]) << 24)
+ self.assertEqual(value, written)
+
+ b = tempfile.NamedTemporaryFile(suffix=".ihex")
+ self.gdb.command("dump ihex memory %s 0x%x 0x%x" % (b.name, target.ram,
+ target.ram + length))
+ for line in b:
+ record_type, address, line_data = ihex_parse(line)
+ if (record_type == 0):
+ self.assertEqual(line_data, data[address:address+len(line_data)])
+
class InstantHaltTest(DeleteServer):
def setUp(self):
self.server = target.server()
self.gdb = testlib.Gdb()
+ self.gdb.command("set arch riscv:rv%d" % target.xlen)
self.gdb.command("target extended-remote localhost:%d" % self.server.port)
def test_instant_halt(self):
- self.assertEqual(0x1000, self.gdb.p("$pc"))
- # For some reason instret resets to 0.
- self.assertLess(self.gdb.p("$instret"), 8)
- self.gdb.command("stepi")
- self.assertNotEqual(0x1000, self.gdb.p("$pc"))
+ self.assertEqual(target.reset_vector, self.gdb.p("$pc"))
+ # mcycle and minstret have no defined reset value.
+ mstatus = self.gdb.p("$mstatus")
+ self.assertEqual(mstatus & (MSTATUS_MIE | MSTATUS_MPRV |
+ MSTATUS_VM), 0)
def test_change_pc(self):
"""Change the PC right as we come out of reset."""
self.gdb.command("p *((int*) 0x%x)=0x13" % (target.ram + 4))
self.gdb.command("p *((int*) 0x%x)=0x13" % (target.ram + 8))
self.gdb.p("$pc=0x%x" % target.ram)
- self.gdb.command("stepi")
- self.assertEqual((target.ram + 4), self.gdb.p("$pc"))
- self.gdb.command("stepi")
+ self.gdb.stepi()
self.assertEqual((target.ram + 4), self.gdb.p("$pc"))
+ self.gdb.stepi()
+ self.assertEqual((target.ram + 8), self.gdb.p("$pc"))
class DebugTest(DeleteServer):
def setUp(self):
- self.binary = target.compile("programs/debug.c", "programs/checksum.c")
+ # Include malloc so that gdb can make function calls. I suspect this
+ # malloc will silently blow through the memory set aside for it, so be
+ # careful.
+ self.binary = target.compile("programs/debug.c", "programs/checksum.c",
+ "programs/tiny-malloc.c", "-DDEFINE_MALLOC", "-DDEFINE_FREE")
self.server = target.server()
self.gdb = testlib.Gdb()
self.gdb.command("file %s" % self.binary)
self.gdb.load()
self.gdb.b("_exit")
- def exit(self):
+ def exit(self, expected_result = 0xc86455d4):
output = self.gdb.c()
self.assertIn("Breakpoint", output)
self.assertIn("_exit", output)
- self.assertEqual(self.gdb.p("status"), 0xc86455d4)
+ self.assertEqual(self.gdb.p("status"), expected_result)
+
+ def test_function_call(self):
+ self.gdb.b("main:start")
+ self.gdb.c()
+ text = "Howdy, Earth!"
+ gdb_length = self.gdb.p('strlen("%s")' % text)
+ self.assertEqual(gdb_length, len(text))
+ self.exit()
+
+ def test_change_string(self):
+ text = "This little piggy went to the market."
+ self.gdb.b("main:start")
+ self.gdb.c()
+ self.gdb.p('fox = "%s"' % text)
+ self.exit(0x43b497b8)
def test_turbostep(self):
"""Single step a bunch of times."""
self.gdb.command("p i=0");
last_pc = None
+ advances = 0
+ jumps = 0
for _ in range(100):
- self.gdb.command("stepi")
- pc = self.gdb.command("p $pc")
+ self.gdb.stepi()
+ pc = self.gdb.p("$pc")
self.assertNotEqual(last_pc, pc)
+ if (last_pc and pc > last_pc and pc - last_pc <= 4):
+ advances += 1
+ else:
+ jumps += 1
last_pc = pc
+ # Some basic sanity that we're not running between breakpoints or
+ # something.
+ self.assertGreater(jumps, 10)
+ self.assertGreater(advances, 50)
def test_exit(self):
self.exit()
+ def test_symbols(self):
+ self.gdb.b("main")
+ self.gdb.b("rot13")
+ output = self.gdb.c()
+ self.assertIn(", main ", output)
+ output = self.gdb.c()
+ self.assertIn(", rot13 ", output)
+
def test_breakpoint(self):
self.gdb.b("rot13")
# The breakpoint should be hit exactly 2 times.
for i in range(2):
output = self.gdb.c()
+ self.gdb.p("$pc")
self.assertIn("Breakpoint ", output)
+ #TODO self.assertIn("rot13 ", output)
self.exit()
+ def test_hwbp_1(self):
+ if target.instruction_hardware_breakpoint_count < 1:
+ return
+
+ self.gdb.hbreak("rot13")
+ # The breakpoint should be hit exactly 2 times.
+ for i in range(2):
+ output = self.gdb.c()
+ self.gdb.p("$pc")
+ self.assertIn("Breakpoint ", output)
+ #TODO self.assertIn("rot13 ", output)
+ self.exit()
+
+ def test_hwbp_2(self):
+ if target.instruction_hardware_breakpoint_count < 2:
+ return
+
+ self.gdb.hbreak("main")
+ self.gdb.hbreak("rot13")
+ # We should hit 3 breakpoints.
+ for i in range(3):
+ output = self.gdb.c()
+ self.gdb.p("$pc")
+ self.assertIn("Breakpoint ", output)
+ #TODO self.assertIn("rot13 ", output)
+ self.exit()
+
+ def test_too_many_hwbp(self):
+ for i in range(30):
+ self.gdb.hbreak("*rot13 + %d" % (i * 4))
+
+ output = self.gdb.c()
+ self.assertIn("Cannot insert hardware breakpoint", output)
+ # Clean up, otherwise the hardware breakpoints stay set and future
+ # tests may fail.
+ self.gdb.command("D")
+
def test_registers(self):
# Get to a point in the code where some registers have actually been
# used.
# instret = self.gdb.p("$instret")
# self.assertNotEqual(instret, last_instret)
# last_instret = instret
- # self.gdb.command("stepi")
+ # self.gdb.stepi()
self.exit()
"""Sending gdb ^C while the program is running should cause it to halt."""
self.gdb.b("main:start")
self.gdb.c()
- self.gdb.command("p i=123");
+ self.gdb.p("i=123");
self.gdb.c(wait=False)
time.sleep(0.1)
output = self.gdb.interrupt()
- assert "main" in output
+ #TODO: assert "main" in output
self.assertGreater(self.gdb.p("j"), 10)
self.gdb.p("i=0");
self.exit()
+class StepTest(DeleteServer):
+ def setUp(self):
+ self.binary = target.compile("programs/step.S")
+ self.server = target.server()
+ self.gdb = testlib.Gdb()
+ self.gdb.command("file %s" % self.binary)
+ self.gdb.command("target extended-remote localhost:%d" % self.server.port)
+ self.gdb.load()
+ self.gdb.b("main")
+ self.gdb.c()
+
+ def test_step(self):
+ main = self.gdb.p("$pc")
+ for expected in (4, 8, 0xc, 0x10, 0x18, 0x1c, 0x28, 0x20, 0x2c, 0x2c):
+ self.gdb.stepi()
+ pc = self.gdb.p("$pc")
+ self.assertEqual("%x" % pc, "%x" % (expected + main))
+
class RegsTest(DeleteServer):
def setUp(self):
self.binary = target.compile("programs/regs.S")
self.gdb = testlib.Gdb()
self.gdb.command("file %s" % self.binary)
self.gdb.command("target extended-remote localhost:%d" % self.server.port)
- self.gdb.command("load")
+ self.gdb.load()
self.gdb.b("main")
self.gdb.b("handle_trap")
self.gdb.c()
def test_write_gprs(self):
- # Note a0 is missing from this list since it's used to hold the
- # address.
- regs = ("ra", "sp", "gp", "tp", "t0", "t1", "t2", "fp", "s1",
- "a1", "a2", "a3", "a4", "a5", "a6", "a7", "s2", "s3", "s4",
- "s5", "s6", "s7", "s8", "s9", "s10", "s11", "t3", "t4", "t5",
- "t6")
+ regs = [("x%d" % n) for n in range(2, 32)]
self.gdb.p("$pc=write_regs")
for i, r in enumerate(regs):
self.gdb.command("p $%s=%d" % (r, (0xdeadbeef<<i)+17))
- self.gdb.command("p $a0=data")
+ self.gdb.command("p $x1=data")
self.gdb.command("b all_done")
output = self.gdb.c()
self.assertIn("Breakpoint ", output)
self.gdb.command("info registers")
for n in range(len(regs)):
self.assertEqual(self.gdb.x("data+%d" % (8*n), 'g'),
- (0xdeadbeef<<n)+17)
+ ((0xdeadbeef<<n)+17) & ((1<<target.xlen)-1))
def test_write_csrs(self):
# As much a test of gdb as of the simulator.
class DownloadTest(DeleteServer):
def setUp(self):
- length = 2**20
- fd = file("download.c", "w")
- fd.write("#include <stdint.h>\n")
- fd.write("unsigned int crc32a(uint8_t *message, unsigned int size);\n")
- fd.write("uint32_t length = %d;\n" % length)
- fd.write("uint8_t d[%d] = {\n" % length)
+ length = min(2**20, target.ram_size - 2048)
+ download_c = tempfile.NamedTemporaryFile(prefix="download_", suffix=".c")
+ download_c.write("#include <stdint.h>\n")
+ download_c.write("unsigned int crc32a(uint8_t *message, unsigned int size);\n")
+ download_c.write("uint32_t length = %d;\n" % length)
+ download_c.write("uint8_t d[%d] = {\n" % length)
self.crc = 0
for i in range(length / 16):
- fd.write(" /* 0x%04x */ " % (i * 16));
+ download_c.write(" /* 0x%04x */ " % (i * 16));
for _ in range(16):
value = random.randrange(1<<8)
- fd.write("%d, " % value)
+ download_c.write("%d, " % value)
self.crc = binascii.crc32("%c" % value, self.crc)
- fd.write("\n");
- fd.write("};\n");
- fd.write("uint8_t *data = &d[0];\n");
- fd.write("uint32_t main() { return crc32a(data, length); }\n")
- fd.close()
+ download_c.write("\n");
+ download_c.write("};\n");
+ download_c.write("uint8_t *data = &d[0];\n");
+ download_c.write("uint32_t main() { return crc32a(data, length); }\n")
+ download_c.flush()
if self.crc < 0:
self.crc += 2**32
- self.binary = target.compile("download.c", "programs/checksum.c")
+ self.binary = target.compile(download_c.name, "programs/checksum.c")
self.server = target.server()
self.gdb = testlib.Gdb()
self.gdb.command("file %s" % self.binary)
def test_mprv(self):
"""Test that the debugger can access memory when MPRV is set."""
self.gdb.c(wait=False)
+ time.sleep(0.5)
self.gdb.interrupt()
output = self.gdb.command("p/x *(int*)(((char*)&data)-0x80000000)")
self.assertIn("0xbead", output)
class Target(object):
+ directory = None
+
def server(self):
raise NotImplementedError
def compile(self, *sources):
- return testlib.compile(sources +
+ binary_name = "%s_%s" % (
+ self.name,
+ os.path.basename(os.path.splitext(sources[0])[0]))
+ if parsed.isolate:
+ self.temporary_binary = tempfile.NamedTemporaryFile(
+ prefix=binary_name + "_")
+ binary_name = self.temporary_binary.name
+ testlib.compile(sources +
("programs/entry.S", "programs/init.c",
"-I", "../env",
- "-T", "targets/%s/link.lds" % self.name,
+ "-T", "targets/%s/link.lds" % (self.directory or self.name),
"-nostartfiles",
- "-mcmodel=medany"), xlen=self.xlen)
+ "-mcmodel=medany",
+ "-o", binary_name),
+ xlen=self.xlen)
+ return binary_name
class SpikeTarget(Target):
- name = "spike"
- xlen = 64
+ directory = "spike"
ram = 0x80010000
+ ram_size = 5 * 1024 * 1024
+ instruction_hardware_breakpoint_count = 0
+ reset_vector = 0x1000
+
+class Spike64Target(SpikeTarget):
+ name = "spike64"
+ xlen = 64
def server(self):
return testlib.Spike(parsed.cmd, halted=True)
-class MicroSemiTarget(Target):
- name = "m2gl_m2s"
+class Spike32Target(SpikeTarget):
+ name = "spike32"
+ xlen = 32
+
+ def server(self):
+ return testlib.Spike(parsed.cmd, halted=True, xlen=32)
+
+class FreedomE300Target(Target):
+ name = "freedom-e300"
xlen = 32
ram = 0x80000000
+ ram_size = 16 * 1024
+ instruction_hardware_breakpoint_count = 2
def server(self):
return testlib.Openocd(cmd=parsed.cmd,
config="targets/%s/openocd.cfg" % self.name)
targets = [
- SpikeTarget,
- MicroSemiTarget
+ Spike32Target,
+ Spike64Target,
+ FreedomE300Target
]
def main():
- parser = argparse.ArgumentParser()
+ parser = argparse.ArgumentParser(
+ epilog="""
+ Example command line from the real world:
+ Run all RegsTest cases against a MicroSemi m2gl_m2s board, with custom openocd command:
+ ./gdbserver.py --m2gl_m2s --cmd "$HOME/SiFive/openocd/src/openocd -s $HOME/SiFive/openocd/tcl -d" -- -vf RegsTest
+ """)
group = parser.add_mutually_exclusive_group(required=True)
for t in targets:
group.add_argument("--%s" % t.name, action="store_const", const=t,
dest="target")
parser.add_argument("--cmd",
help="The command to use to start the debug server.")
+ parser.add_argument("--isolate", action="store_true",
+ help="Try to run in such a way that multiple instances can run at "
+ "the same time. This may make it harder to debug a failure if it "
+ "does occur.")
parser.add_argument("unittest", nargs="*")
global parsed
parsed = parser.parse_args()