import collections
+import os
import os.path
import random
import re
import tempfile
import time
import traceback
+import pipes
import pexpect
+print_log_names = False
+real_stdout = sys.stdout
+
# Note that gdb comes with its own testsuite. I was unable to figure out how to
# run that testsuite against the spike simulator.
def find_file(path):
for directory in (os.getcwd(), os.path.dirname(__file__)):
fullpath = os.path.join(directory, path)
- if os.path.exists(fullpath):
- return fullpath
+ relpath = os.path.relpath(fullpath)
+ if len(relpath) >= len(fullpath):
+ relpath = fullpath
+ if os.path.exists(relpath):
+ return relpath
return None
def compile(args, xlen=32): # pylint: disable=redefined-builtin
cmd.append(found)
else:
cmd.append(arg)
+ header("Compile")
+ print "+", " ".join(cmd)
process = subprocess.Popen(cmd, stdout=subprocess.PIPE,
stderr=subprocess.PIPE)
stdout, stderr = process.communicate()
if process.returncode:
- print
- header("Compile failed")
- print "+", " ".join(cmd)
print stdout,
print stderr,
header("")
raise Exception("Compile failed!")
-def unused_port():
- # http://stackoverflow.com/questions/2838244/get-open-tcp-port-in-python/2838309#2838309
- import socket
- s = socket.socket(socket.AF_INET, socket.SOCK_STREAM)
- s.bind(("", 0))
- port = s.getsockname()[1]
- s.close()
- return port
-
class Spike(object):
- logname = "spike-%d.log" % os.getpid()
-
- def __init__(self, target, halted=False, timeout=None, with_jtag_gdb=True):
+ def __init__(self, target, halted=False, timeout=None, with_jtag_gdb=True,
+ isa=None, progbufsize=None):
"""Launch spike. Return tuple of its process and the port it's running
on."""
- if target.sim_cmd:
- cmd = shlex.split(target.sim_cmd)
- else:
- spike = os.path.expandvars("$RISCV/bin/spike")
- cmd = [spike]
- if target.xlen == 32:
- cmd += ["--isa", "RV32G"]
- else:
- cmd += ["--isa", "RV64G"]
- cmd += ["-m0x%x:0x%x" % (target.ram, target.ram_size)]
+ self.process = None
+ self.isa = isa
+ self.progbufsize = progbufsize
- if timeout:
- cmd = ["timeout", str(timeout)] + cmd
+ if target.harts:
+ harts = target.harts
+ else:
+ harts = [target]
- if halted:
- cmd.append('-H')
- if with_jtag_gdb:
- cmd += ['--rbb-port', '0']
- os.environ['REMOTE_BITBANG_HOST'] = 'localhost'
- self.infinite_loop = target.compile(
+ cmd = self.command(target, harts, halted, timeout, with_jtag_gdb)
+ self.infinite_loop = target.compile(harts[0],
"programs/checksum.c", "programs/tiny-malloc.c",
"programs/infinite_loop.S", "-DDEFINE_MALLOC", "-DDEFINE_FREE")
cmd.append(self.infinite_loop)
- logfile = open(self.logname, "w")
- logfile.write("+ %s\n" % " ".join(cmd))
- logfile.flush()
+ self.logfile = tempfile.NamedTemporaryFile(prefix="spike-",
+ suffix=".log")
+ self.logname = self.logfile.name
+ if print_log_names:
+ real_stdout.write("Temporary spike log: %s\n" % self.logname)
+ self.logfile.write("+ %s\n" % " ".join(cmd))
+ self.logfile.flush()
self.process = subprocess.Popen(cmd, stdin=subprocess.PIPE,
- stdout=logfile, stderr=logfile)
+ stdout=self.logfile, stderr=self.logfile)
if with_jtag_gdb:
self.port = None
os.environ['REMOTE_BITBANG_PORT'] = m.group(1)
break
time.sleep(0.11)
- assert self.port, "Didn't get spike message about bitbang " \
- "connection"
+ if not self.port:
+ print_log(self.logname)
+ raise Exception("Didn't get spike message about bitbang "
+ "connection")
+
+ def command(self, target, harts, halted, timeout, with_jtag_gdb):
+ # pylint: disable=no-self-use
+ if target.sim_cmd:
+ cmd = shlex.split(target.sim_cmd)
+ else:
+ spike = os.path.expandvars("$RISCV/bin/spike")
+ cmd = [spike]
+
+ cmd += ["-p%d" % len(harts)]
+
+ assert len(set(t.xlen for t in harts)) == 1, \
+ "All spike harts must have the same XLEN"
+
+ if self.isa:
+ isa = self.isa
+ else:
+ isa = "RV%dG" % harts[0].xlen
+
+ cmd += ["--isa", isa]
+ cmd += ["--debug-auth"]
+
+ if not self.progbufsize is None:
+ cmd += ["--progsize", str(self.progbufsize)]
+ cmd += ["--debug-sba", "32"]
+
+ assert len(set(t.ram for t in harts)) == 1, \
+ "All spike harts must have the same RAM layout"
+ assert len(set(t.ram_size for t in harts)) == 1, \
+ "All spike harts must have the same RAM layout"
+ cmd += ["-m0x%x:0x%x" % (harts[0].ram, harts[0].ram_size)]
+
+ if timeout:
+ cmd = ["timeout", str(timeout)] + cmd
+
+ if halted:
+ cmd.append('-H')
+ if with_jtag_gdb:
+ cmd += ['--rbb-port', '0']
+ os.environ['REMOTE_BITBANG_HOST'] = 'localhost'
+
+ return cmd
def __del__(self):
- try:
- self.process.kill()
- self.process.wait()
- except OSError:
- pass
+ if self.process:
+ try:
+ self.process.kill()
+ self.process.wait()
+ except OSError:
+ pass
def wait(self, *args, **kwargs):
return self.process.wait(*args, **kwargs)
class VcsSim(object):
- logname = "simv.log"
+ logfile = tempfile.NamedTemporaryFile(prefix='simv', suffix='.log')
+ logname = logfile.name
- def __init__(self, sim_cmd=None, debug=False):
+ def __init__(self, sim_cmd=None, debug=False, timeout=300):
if sim_cmd:
cmd = shlex.split(sim_cmd)
else:
if debug:
cmd[0] = cmd[0] + "-debug"
cmd += ["+vcdplusfile=output/gdbserver.vpd"]
+
logfile = open(self.logname, "w")
+ if print_log_names:
+ real_stdout.write("Temporary VCS log: %s\n" % self.logname)
logfile.write("+ %s\n" % " ".join(cmd))
logfile.flush()
+
listenfile = open(self.logname, "r")
listenfile.seek(0, 2)
self.process = subprocess.Popen(cmd, stdin=subprocess.PIPE,
stdout=logfile, stderr=logfile)
done = False
+ start = time.time()
while not done:
# Fail if VCS exits early
exit_code = self.process.poll()
self.port = int(match.group(1))
os.environ['JTAG_VPI_PORT'] = str(self.port)
+ if (time.time() - start) > timeout:
+ raise Exception("Timed out waiting for VCS to listen for JTAG "
+ "vpi")
+
def __del__(self):
try:
self.process.kill()
class Openocd(object):
logfile = tempfile.NamedTemporaryFile(prefix='openocd', suffix='.log')
logname = logfile.name
- print "OpenOCD Temporary Log File: %s" % logname
def __init__(self, server_cmd=None, config=None, debug=False, timeout=60):
+ self.timeout = timeout
+
if server_cmd:
cmd = shlex.split(server_cmd)
else:
if debug:
cmd.append("-d")
- logfile = Openocd.logfile
- logfile.write("+ %s\n" % " ".join(cmd))
+ logfile = open(Openocd.logname, "w")
+ if print_log_names:
+ real_stdout.write("Temporary OpenOCD log: %s\n" % Openocd.logname)
+ env_entries = ("REMOTE_BITBANG_HOST", "REMOTE_BITBANG_PORT")
+ env_entries = [key for key in env_entries if key in os.environ]
+ logfile.write("+ %s%s\n" % (
+ "".join("%s=%s " % (key, os.environ[key]) for key in env_entries),
+ " ".join(map(pipes.quote, cmd))))
logfile.flush()
- self.process = subprocess.Popen(cmd, stdin=subprocess.PIPE,
+
+ self.gdb_ports = []
+ self.process = self.start(cmd, logfile)
+
+ def start(self, cmd, logfile):
+ process = subprocess.Popen(cmd, stdin=subprocess.PIPE,
stdout=logfile, stderr=logfile)
try:
# attempt too early.
start = time.time()
messaged = False
+ fd = open(Openocd.logname, "r")
while True:
- log = open(Openocd.logname).read()
+ line = fd.readline()
+ if not line:
+ if not process.poll() is None:
+ raise Exception("OpenOCD exited early.")
+ time.sleep(0.1)
+ continue
+
m = re.search(r"Listening on port (\d+) for gdb connections",
- log)
+ line)
if m:
- self.port = int(m.group(1))
- break
+ self.gdb_ports.append(int(m.group(1)))
+
+ if "telnet server disabled" in line:
+ return process
- if not self.process.poll() is None:
- raise Exception(
- "OpenOCD exited before completing riscv_examine()")
if not messaged and time.time() - start > 1:
messaged = True
print "Waiting for OpenOCD to start..."
- if (time.time() - start) > timeout:
- raise Exception("ERROR: Timed out waiting for OpenOCD to "
+ if (time.time() - start) > self.timeout:
+ raise Exception("Timed out waiting for OpenOCD to "
"listen for gdb")
except Exception:
- header("OpenOCD log")
- sys.stdout.write(log)
+ print_log(Openocd.logname)
raise
def __del__(self):
Exception.__init__(self)
self.address = address
-Thread = collections.namedtuple('Thread', ('id', 'target_id', 'name',
- 'frame'))
+class CouldNotFetch(Exception):
+ def __init__(self, regname, explanation):
+ Exception.__init__(self)
+ self.regname = regname
+ self.explanation = explanation
+
+Thread = collections.namedtuple('Thread', ('id', 'description', 'target_id',
+ 'name', 'frame'))
class Gdb(object):
- logfile = tempfile.NamedTemporaryFile(prefix="gdb", suffix=".log")
- logname = logfile.name
- print "GDB Temporary Log File: %s" % logname
-
- def __init__(self,
- cmd=os.path.expandvars("$RISCV/bin/riscv64-unknown-elf-gdb")):
- self.child = pexpect.spawn(cmd)
- Gdb.logfile.write("+ %s\n" % cmd)
- self.wait()
- self.command("set confirm off")
- self.command("set width 0")
- self.command("set height 0")
- # Force consistency.
- self.command("set print entry-values no")
+ """A single gdb class which can interact with one or more gdb instances."""
+
+ # pylint: disable=too-many-public-methods
+ # pylint: disable=too-many-instance-attributes
+
+ def __init__(self, ports,
+ cmd=os.path.expandvars("$RISCV/bin/riscv64-unknown-elf-gdb"),
+ timeout=60, binary=None):
+ assert ports
+
+ self.ports = ports
+ self.cmd = cmd
+ self.timeout = timeout
+ self.binary = binary
+
+ self.stack = []
+ self.harts = {}
+
+ self.logfiles = []
+ self.children = []
+ for port in ports:
+ logfile = tempfile.NamedTemporaryFile(prefix="gdb@%d-" % port,
+ suffix=".log")
+ self.logfiles.append(logfile)
+ if print_log_names:
+ real_stdout.write("Temporary gdb log: %s\n" % logfile.name)
+ child = pexpect.spawn(cmd)
+ child.logfile = logfile
+ child.logfile.write("+ %s\n" % cmd)
+ self.children.append(child)
+ self.active_child = self.children[0]
+
+ def connect(self):
+ for port, child in zip(self.ports, self.children):
+ self.select_child(child)
+ self.wait()
+ self.command("set confirm off")
+ self.command("set width 0")
+ self.command("set height 0")
+ # Force consistency.
+ self.command("set print entry-values no")
+ self.command("set remotetimeout %d" % self.timeout)
+ self.command("target extended-remote localhost:%d" % port)
+ if self.binary:
+ self.command("file %s" % self.binary)
+ threads = self.threads()
+ for t in threads:
+ hartid = None
+ if t.name:
+ m = re.search(r"Hart (\d+)", t.name)
+ if m:
+ hartid = int(m.group(1))
+ if hartid is None:
+ if self.harts:
+ hartid = max(self.harts) + 1
+ else:
+ hartid = 0
+ # solo: True iff this is the only thread on this child
+ self.harts[hartid] = {'child': child,
+ 'thread': t,
+ 'solo': len(threads) == 1}
- def wait(self):
- """Wait for prompt."""
- self.child.expect(r"\(gdb\)")
+ def __del__(self):
+ for child in self.children:
+ del child
+
+ def one_hart_per_gdb(self):
+ return all(h['solo'] for h in self.harts.itervalues())
+
+ def lognames(self):
+ return [logfile.name for logfile in self.logfiles]
+
+ def select_child(self, child):
+ self.active_child = child
+
+ def select_hart(self, hart):
+ h = self.harts[hart.id]
+ self.select_child(h['child'])
+ if not h['solo']:
+ output = self.command("thread %s" % h['thread'].id, ops=5)
+ assert "Unknown" not in output
+
+ def push_state(self):
+ self.stack.append({
+ 'active_child': self.active_child
+ })
- def command(self, command, timeout=6000):
- self.child.sendline(command)
- self.child.expect("\n", timeout=timeout)
- self.child.expect(r"\(gdb\)", timeout=timeout)
- return self.child.before.strip()
+ def pop_state(self):
+ state = self.stack.pop()
+ self.active_child = state['active_child']
- def c(self, wait=True, timeout=-1, async=False):
+ def wait(self):
+ """Wait for prompt."""
+ self.active_child.expect(r"\(gdb\)")
+
+ def command(self, command, ops=1):
+ """ops is the estimated number of operations gdb will have to perform
+ to perform this command. It is used to compute a timeout based on
+ self.timeout."""
+ timeout = ops * self.timeout
+ self.active_child.sendline(command)
+ self.active_child.expect("\n", timeout=timeout)
+ self.active_child.expect(r"\(gdb\)", timeout=timeout)
+ return self.active_child.before.strip()
+
+ def global_command(self, command):
+ """Execute this command on every gdb that we control."""
+ with PrivateState(self):
+ for child in self.children:
+ self.select_child(child)
+ self.command(command)
+
+ def c(self, wait=True, async=False):
+ """
+ Dumb c command.
+ In RTOS mode, gdb will resume all harts.
+ In multi-gdb mode, this command will just go to the current gdb, so
+ will only resume one hart.
+ """
if async:
async = "&"
else:
async = ""
+ ops = 10
if wait:
- output = self.command("c%s" % async, timeout=timeout)
+ output = self.command("c%s" % async, ops=ops)
assert "Continuing" in output
return output
else:
- self.child.sendline("c%s" % async)
- self.child.expect("Continuing")
+ self.active_child.sendline("c%s" % async)
+ self.active_child.expect("Continuing", timeout=ops * self.timeout)
+
+ def c_all(self):
+ """
+ Resume every hart.
+
+ This function works fine when using multiple gdb sessions, but the
+ caller must be careful when using it nonetheless. gdb's behavior is to
+ not set breakpoints until just before the hart is resumed, and then
+ clears them as soon as the hart halts. That means that you can't set
+ one software breakpoint, and expect multiple harts to hit it. It's
+ possible that the first hart completes set/run/halt/clear before the
+ second hart even gets to resume, so it will never hit the breakpoint.
+ """
+ with PrivateState(self):
+ for child in self.children:
+ child.sendline("c")
+ child.expect("Continuing")
+
+ # Now wait for them all to halt
+ for child in self.children:
+ child.expect(r"\(gdb\)")
def interrupt(self):
- self.child.send("\003")
- self.child.expect(r"\(gdb\)", timeout=6000)
- return self.child.before.strip()
+ self.active_child.send("\003")
+ self.active_child.expect(r"\(gdb\)", timeout=6000)
+ return self.active_child.before.strip()
def x(self, address, size='w'):
output = self.command("x/%s %s" % (size, address))
raise CannotAccess(int(m.group(1), 0))
return output.split('=')[-1].strip()
- def p(self, obj):
- output = self.command("p/x %s" % obj)
+ def parse_string(self, text):
+ text = text.strip()
+ if text.startswith("{") and text.endswith("}"):
+ inner = text[1:-1]
+ return [self.parse_string(t) for t in inner.split(", ")]
+ elif text.startswith('"') and text.endswith('"'):
+ return text[1:-1]
+ else:
+ return int(text, 0)
+
+ def p(self, obj, fmt="/x"):
+ output = self.command("p%s %s" % (fmt, obj))
m = re.search("Cannot access memory at address (0x[0-9a-f]+)", output)
if m:
raise CannotAccess(int(m.group(1), 0))
- value = int(output.split('=')[-1].strip(), 0)
- return value
+ m = re.search(r"Could not fetch register \"(\w+)\"; (.*)$", output)
+ if m:
+ raise CouldNotFetch(m.group(1), m.group(2))
+ rhs = output.split('=')[-1]
+ return self.parse_string(rhs)
def p_string(self, obj):
output = self.command("p %s" % obj)
return value
def stepi(self):
- output = self.command("stepi", timeout=60)
+ output = self.command("stepi", ops=10)
return output
def load(self):
- output = self.command("load", timeout=6000)
+ output = self.command("load", ops=1000)
assert "failed" not in output
assert "Transfer rate" in output
+ output = self.command("compare-sections", ops=1000)
+ assert "MIS" not in output
def b(self, location):
- output = self.command("b %s" % location)
+ output = self.command("b %s" % location, ops=5)
assert "not defined" not in output
assert "Breakpoint" in output
return output
def hbreak(self, location):
- output = self.command("hbreak %s" % location)
+ output = self.command("hbreak %s" % location, ops=5)
assert "not defined" not in output
assert "Hardware assisted breakpoint" in output
return output
def threads(self):
- output = self.command("info threads")
+ output = self.command("info threads", ops=100)
threads = []
for line in output.splitlines():
m = re.match(
- r"[\s\*]*(\d+)\s*Thread (\d+)\s*\(Name: ([^\)]+)\s*(.*)",
- line)
+ r"[\s\*]*(\d+)\s*"
+ r"(Remote target|Thread (\d+)\s*\(Name: ([^\)]+))"
+ r"\s*(.*)", line)
if m:
threads.append(Thread(*m.groups()))
- if not threads:
- threads.append(Thread('1', '1', 'Default', '???'))
+ assert threads
+ #>>>if not threads:
+ #>>> threads.append(Thread('1', '1', 'Default', '???'))
return threads
def thread(self, thread):
return self.command("thread %s" % thread.id)
+ def where(self):
+ return self.command("where 1")
+
+class PrivateState(object):
+ def __init__(self, gdb):
+ self.gdb = gdb
+
+ def __enter__(self):
+ self.gdb.push_state()
+
+ def __exit__(self, _type, _value, _traceback):
+ self.gdb.pop_state()
+
def run_all_tests(module, target, parsed):
- if not os.path.exists(parsed.logs):
+ try:
os.makedirs(parsed.logs)
+ except OSError:
+ # There's a race where multiple instances of the test program might
+ # decide to create the logs directory at the same time.
+ pass
overall_start = time.time()
gdb_cmd = parsed.gdb
todo = []
- if parsed.misaval:
- target.misa = int(parsed.misaval, 16)
- print "Using $misa from command line: 0x%x" % target.misa
- elif target.misa:
- print "Using $misa from target definition: 0x%x" % target.misa
- else:
- todo.append(("ExamineTarget", ExamineTarget))
+ examine_added = False
+ for hart in target.harts:
+ if parsed.misaval:
+ hart.misa = int(parsed.misaval, 16)
+ print "Using $misa from command line: 0x%x" % hart.misa
+ elif hart.misa:
+ print "Using $misa from hart definition: 0x%x" % hart.misa
+ elif not examine_added:
+ todo.append(("ExamineTarget", ExamineTarget, None))
+ examine_added = True
for name in dir(module):
definition = getattr(module, name)
- if type(definition) == type and hasattr(definition, 'test') and \
+ if isinstance(definition, type) and hasattr(definition, 'test') and \
(not parsed.test or any(test in name for test in parsed.test)):
- todo.append((name, definition))
+ todo.append((name, definition, None))
results, count = run_tests(parsed, target, todo)
results = {}
count = 0
- for name, definition in todo:
- instance = definition(target)
+ for name, definition, hart in todo:
log_name = os.path.join(parsed.logs, "%s-%s-%s.log" %
(time.strftime("%Y%m%d-%H%M%S"), type(target).__name__, name))
log_fd = open(log_name, 'w')
- print "Running %s > %s ..." % (name, log_name),
+ print "[%s] Starting > %s" % (name, log_name)
+ instance = definition(target, hart)
sys.stdout.flush()
log_fd.write("Test: %s\n" % name)
log_fd.write("Target: %s\n" % type(target).__name__)
start = time.time()
+ global real_stdout # pylint: disable=global-statement
real_stdout = sys.stdout
sys.stdout = log_fd
try:
result = instance.run()
log_fd.write("Result: %s\n" % result)
+ log_fd.write("Logfile: %s\n" % log_name)
finally:
sys.stdout = real_stdout
log_fd.write("Time elapsed: %.2fs\n" % (time.time() - start))
- print "%s in %.2fs" % (result, time.time() - start)
+ log_fd.flush()
+ print "[%s] %s in %.2fs" % (name, result, time.time() - start)
if result not in good_results and parsed.print_failures:
sys.stdout.write(open(log_name).read())
sys.stdout.flush()
help="Exit as soon as any test fails.")
parser.add_argument("--print-failures", action="store_true",
help="When a test fails, print the log file to stdout.")
+ parser.add_argument("--print-log-names", "--pln", action="store_true",
+ help="Print names of temporary log files as soon as they are "
+ "created.")
parser.add_argument("test", nargs='*',
help="Run only tests that are named here.")
parser.add_argument("--gdb",
def print_log(path):
header(path)
- lines = open(path, "r").readlines()
- for l in lines:
+ for l in open(path, "r"):
sys.stdout.write(l)
print
class BaseTest(object):
compiled = {}
- def __init__(self, target):
+ def __init__(self, target, hart=None):
self.target = target
+ if hart:
+ self.hart = hart
+ else:
+ self.hart = random.choice(target.harts)
+ self.hart = target.harts[-1] #<<<
self.server = None
self.target_process = None
self.binary = None
compile_args = getattr(self, 'compile_args', None)
if compile_args:
if compile_args not in BaseTest.compiled:
- # pylint: disable=star-args
BaseTest.compiled[compile_args] = \
- self.target.compile(*compile_args)
+ self.target.compile(self.hart, *compile_args)
self.binary = BaseTest.compiled.get(compile_args)
def classSetup(self):
del self.server
del self.target_process
+ def postMortem(self):
+ pass
+
def run(self):
"""
If compile_args is set, compile a program and set self.binary.
print e.message
header("Traceback")
traceback.print_exc(file=sys.stdout)
+ try:
+ self.postMortem()
+ except Exception as e: # pylint: disable=broad-except
+ header("postMortem Exception")
+ print e
+ traceback.print_exc(file=sys.stdout)
return result
finally:
gdb_cmd = None
class GdbTest(BaseTest):
- def __init__(self, target):
- BaseTest.__init__(self, target)
+ def __init__(self, target, hart=None):
+ BaseTest.__init__(self, target, hart=hart)
self.gdb = None
def classSetup(self):
BaseTest.classSetup(self)
if gdb_cmd:
- self.gdb = Gdb(gdb_cmd)
+ self.gdb = Gdb(self.server.gdb_ports, gdb_cmd,
+ timeout=self.target.timeout_sec, binary=self.binary)
else:
- self.gdb = Gdb()
-
- self.logs.append(self.gdb.logname)
-
- if self.binary:
- self.gdb.command("file %s" % self.binary)
- if self.target:
- self.gdb.command("set arch riscv:rv%d" % self.target.xlen)
- self.gdb.command("set remotetimeout %d" % self.target.timeout_sec)
- if self.server.port:
- self.gdb.command(
- "target extended-remote localhost:%d" % self.server.port)
- # Select a random thread.
- # TODO: Allow a command line option to force a specific thread.
- thread = random.choice(self.gdb.threads())
- self.gdb.thread(thread)
+ self.gdb = Gdb(self.server.gdb_ports,
+ timeout=self.target.timeout_sec, binary=self.binary)
+
+ self.logs += self.gdb.lognames()
+ self.gdb.connect()
+
+ self.gdb.global_command("set remotetimeout %d" %
+ self.target.timeout_sec)
for cmd in self.target.gdb_setup:
self.gdb.command(cmd)
+ self.gdb.select_hart(self.hart)
+
# FIXME: OpenOCD doesn't handle PRIV now
#self.gdb.p("$priv=3")
+ def postMortem(self):
+ if not self.gdb:
+ return
+ self.gdb.interrupt()
+ self.gdb.command("disassemble", ops=20)
+ self.gdb.command("info registers all", ops=100)
+ self.gdb.command("flush regs")
+ self.gdb.command("info threads", ops=100)
+
def classTeardown(self):
del self.gdb
BaseTest.classTeardown(self)
+ def parkOtherHarts(self):
+ """Park harts besides the currently selected one in loop_forever()."""
+ for hart in self.target.harts:
+ # Park all harts that we're not using in a safe place.
+ if hart != self.hart:
+ self.gdb.select_hart(hart)
+ self.gdb.p("$pc=loop_forever")
+
+ self.gdb.select_hart(self.hart)
+
+class GdbSingleHartTest(GdbTest):
+ def classSetup(self):
+ GdbTest.classSetup(self)
+ self.parkOtherHarts()
+
class ExamineTarget(GdbTest):
def test(self):
- self.target.misa = self.gdb.p("$misa")
-
- txt = "RV"
- if (self.target.misa >> 30) == 1:
- txt += "32"
- elif (self.target.misa >> 62) == 2:
- txt += "64"
- elif (self.target.misa >> 126) == 3:
- txt += "128"
- else:
- raise TestFailed("Couldn't determine XLEN from $misa (0x%x)" %
- self.target.misa)
+ for hart in self.target.harts:
+ self.gdb.select_hart(hart)
+
+ hart.misa = self.gdb.p("$misa")
+
+ txt = "RV"
+ misa_xlen = 0
+ if ((hart.misa & 0xFFFFFFFF) >> 30) == 1:
+ misa_xlen = 32
+ elif ((hart.misa & 0xFFFFFFFFFFFFFFFF) >> 62) == 2:
+ misa_xlen = 64
+ elif ((hart.misa & 0xFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFF) >> 126) == 3:
+ misa_xlen = 128
+ else:
+ raise TestFailed("Couldn't determine XLEN from $misa (0x%x)" %
+ self.hart.misa)
+
+ if misa_xlen != hart.xlen:
+ raise TestFailed("MISA reported XLEN of %d but we were "\
+ "expecting XLEN of %d\n" % (misa_xlen, hart.xlen))
+
+ txt += ("%d" % misa_xlen)
- for i in range(26):
- if self.target.misa & (1<<i):
- txt += chr(i + ord('A'))
- print txt,
+ for i in range(26):
+ if hart.misa & (1<<i):
+ txt += chr(i + ord('A'))
+ print txt,
class TestFailed(Exception):
def __init__(self, message):