X-Git-Url: https://git.libre-soc.org/?a=blobdiff_plain;f=debug%2Fgdbserver.py;h=a56d4a1f8a84216ac63596f0acf5944adccb1bcd;hb=c0aa8a601202a5de0d3334cb74f75105df627eee;hp=51c6ab6b09d550e2d1fbce5d4b8ee81ef09c5d35;hpb=a98122fc00d8a7178f41d27cb801a8c9069a7d05;p=riscv-tests.git

diff --git a/debug/gdbserver.py b/debug/gdbserver.py
index 51c6ab6..a56d4a1 100755
--- a/debug/gdbserver.py
+++ b/debug/gdbserver.py
@@ -65,15 +65,19 @@ def readable_binary_string(s):
     return "".join("%02x" % ord(c) for c in s)
 
 class SimpleRegisterTest(GdbTest):
-    def check_reg(self, name):
+    def check_reg(self, name, alias):
         a = random.randrange(1<<self.hart.xlen)
         b = random.randrange(1<<self.hart.xlen)
         self.gdb.p("$%s=0x%x" % (name, a))
+        assertEqual(self.gdb.p("$%s" % alias), a)
         self.gdb.stepi()
         assertEqual(self.gdb.p("$%s" % name), a)
-        self.gdb.p("$%s=0x%x" % (name, b))
+        assertEqual(self.gdb.p("$%s" % alias), a)
+        self.gdb.p("$%s=0x%x" % (alias, b))
+        assertEqual(self.gdb.p("$%s" % name), b)
         self.gdb.stepi()
         assertEqual(self.gdb.p("$%s" % name), b)
+        assertEqual(self.gdb.p("$%s" % alias), b)
 
     def setup(self):
         # 0x13 is nop
@@ -86,38 +90,64 @@ class SimpleRegisterTest(GdbTest):
 
 class SimpleS0Test(SimpleRegisterTest):
     def test(self):
-        self.check_reg("s0")
+        self.check_reg("s0", "x8")
 
 class SimpleS1Test(SimpleRegisterTest):
     def test(self):
-        self.check_reg("s1")
+        self.check_reg("s1", "x9")
 
 class SimpleT0Test(SimpleRegisterTest):
     def test(self):
-        self.check_reg("t0")
+        self.check_reg("t0", "x5")
 
 class SimpleT1Test(SimpleRegisterTest):
     def test(self):
-        self.check_reg("t1")
+        self.check_reg("t1", "x6")
 
 class SimpleF18Test(SimpleRegisterTest):
-    def check_reg(self, name):
-        self.gdb.p_raw("$mstatus=$mstatus | 0x00006000")
-        self.gdb.stepi()
-        a = random.random()
-        b = random.random()
-        self.gdb.p_raw("$%s=%f" % (name, a))
-        self.gdb.stepi()
-        assertLess(abs(float(self.gdb.p_raw("$%s" % name)) - a), .001)
-        self.gdb.p_raw("$%s=%f" % (name, b))
-        self.gdb.stepi()
-        assertLess(abs(float(self.gdb.p_raw("$%s" % name)) - b), .001)
+    def check_reg(self, name, alias):
+        if self.hart.extensionSupported('F'):
+            self.gdb.p_raw("$mstatus=$mstatus | 0x00006000")
+            self.gdb.stepi()
+            a = random.random()
+            b = random.random()
+            self.gdb.p_raw("$%s=%f" % (name, a))
+            assertLess(abs(float(self.gdb.p_raw("$%s" % alias)) - a), .001)
+            self.gdb.stepi()
+            assertLess(abs(float(self.gdb.p_raw("$%s" % name)) - a), .001)
+            assertLess(abs(float(self.gdb.p_raw("$%s" % alias)) - a), .001)
+            self.gdb.p_raw("$%s=%f" % (alias, b))
+            assertLess(abs(float(self.gdb.p_raw("$%s" % name)) - b), .001)
+            self.gdb.stepi()
+            assertLess(abs(float(self.gdb.p_raw("$%s" % name)) - b), .001)
+            assertLess(abs(float(self.gdb.p_raw("$%s" % alias)) - b), .001)
 
-    def early_applicable(self):
-        return self.hart.extensionSupported('F')
+            size = self.gdb.p("sizeof($%s)" % name)
+            if self.hart.extensionSupported('D'):
+                assertEqual(size, 8)
+            else:
+                assertEqual(size, 4)
+        else:
+            output = self.gdb.p_raw("$" + name)
+            assertEqual(output, "void")
+            output = self.gdb.p_raw("$" + alias)
+            assertEqual(output, "void")
+
+    def test(self):
+        self.check_reg("f18", "fs2")
 
+class SimpleNoExistTest(GdbTest):
     def test(self):
-        self.check_reg("f18")
+        try:
+            self.gdb.p("$csr2288")
+            assert False, "Reading csr2288 should have failed"
+        except testlib.CouldNotFetch:
+            pass
+        try:
+            self.gdb.p("$csr2288=5")
+            assert False, "Writing csr2288 should have failed"
+        except testlib.CouldNotFetch:
+            pass
 
 class SimpleMemoryTest(GdbTest):
     def access_test(self, size, data_type):
@@ -199,7 +229,7 @@ class MemTestBlock(GdbTest):
         self.gdb.command("dump ihex memory %s 0x%x 0x%x" % (b.name,
             self.hart.ram, self.hart.ram + self.length))
         self.gdb.command("shell cat %s" % b.name)
-        for line in b:
+        for line in b.xreadlines():
             record_type, address, line_data = ihex_parse(line)
             if record_type == 0:
                 written_data = data[address:address+len(line_data)]
@@ -388,6 +418,8 @@ class Registers(DebugTest):
             output = self.gdb.command(cmd)
             for reg in ('zero', 'ra', 'sp', 'gp', 'tp'):
                 assertIn(reg, output)
+            for line in output.splitlines():
+                assertRegexpMatches(line, r"^\S")
 
         #TODO
         # mcpuid is one of the few registers that should have the high bit set
@@ -465,9 +497,63 @@ class InterruptTest(GdbSingleHartTest):
         self.gdb.p("interrupt_count")
         self.gdb.p("local")
 
-# Fails nondeterministically.
-#class MulticoreRegTest(GdbTest):
-#    compile_args = ("programs/infinite_loop.S", "-DMULTICORE")
+class MulticoreRegTest(GdbTest):
+    compile_args = ("programs/infinite_loop.S", "-DMULTICORE")
+
+    def early_applicable(self):
+        return len(self.target.harts) > 1
+
+    def setup(self):
+        self.gdb.load()
+        for hart in self.target.harts:
+            self.gdb.select_hart(hart)
+            self.gdb.p("$pc=_start")
+
+    def test(self):
+        # Run to main
+        for hart in self.target.harts:
+            self.gdb.select_hart(hart)
+            self.gdb.b("main")
+            self.gdb.c()
+            assertIn("main", self.gdb.where())
+            self.gdb.command("delete breakpoints")
+
+        # Run through the entire loop.
+        for hart in self.target.harts:
+            self.gdb.select_hart(hart)
+            self.gdb.b("main_end")
+            self.gdb.c()
+            assertIn("main_end", self.gdb.where())
+
+        hart_ids = []
+        for hart in self.target.harts:
+            self.gdb.select_hart(hart)
+            # Check register values.
+            hart_id = self.gdb.p("$x1")
+            assertNotIn(hart_id, hart_ids)
+            hart_ids.append(hart_id)
+            for n in range(2, 32):
+                value = self.gdb.p("$x%d" % n)
+                assertEqual(value, hart_ids[-1] + n - 1)
+
+        # Confirmed that we read different register values for different harts.
+        # Write a new value to x1, and run through the add sequence again.
+
+        for hart in self.target.harts:
+            self.gdb.select_hart(hart)
+            self.gdb.p("$x1=0x%x" % (hart.index * 0x800))
+            self.gdb.p("$pc=main_post_csrr")
+            self.gdb.c()
+        for hart in self.target.harts:
+            self.gdb.select_hart(hart)
+            assertIn("main", self.gdb.where())
+            # Check register values.
+            for n in range(1, 32):
+                value = self.gdb.p("$x%d" % n)
+                assertEqual(value, hart.index * 0x800 + n - 1)
+
+#class MulticoreRunHaltStepiTest(GdbTest):
+#    compile_args = ("programs/multicore.c", "-DMULTICORE")
 #
 #    def early_applicable(self):
 #        return len(self.target.harts) > 1
@@ -476,90 +562,107 @@ class InterruptTest(GdbSingleHartTest):
 #        self.gdb.load()
 #        for hart in self.target.harts:
 #            self.gdb.select_hart(hart)
+#            self.gdb.p("$mhartid")
 #            self.gdb.p("$pc=_start")
 #
 #    def test(self):
-#        # Run to main
-#        # Hart 0 is the first to be resumed, so we have to set the breakpoint
-#        # there. gdb won't actually set the breakpoint until we tell it to
-#        # resume.
-#        self.gdb.select_hart(self.target.harts[0])
-#        self.gdb.b("main")
-#        self.gdb.c_all()
-#        for hart in self.target.harts:
-#            self.gdb.select_hart(hart)
-#            assertIn("main", self.gdb.where())
-#        self.gdb.select_hart(self.target.harts[0])
-#        self.gdb.command("delete breakpoints")
-#
-#        # Run through the entire loop.
-#        self.gdb.b("main_end")
-#        self.gdb.c_all()
-#
-#        hart_ids = []
-#        for hart in self.target.harts:
-#            self.gdb.select_hart(hart)
-#            assertIn("main_end", self.gdb.where())
-#            # Check register values.
-#            hart_id = self.gdb.p("$x1")
-#            assertNotIn(hart_id, hart_ids)
-#            hart_ids.append(hart_id)
-#            for n in range(2, 32):
-#                value = self.gdb.p("$x%d" % n)
-#                assertEqual(value, hart_ids[-1] + n - 1)
-#
-#        # Confirmed that we read different register values for different harts.
-#        # Write a new value to x1, and run through the add sequence again.
-#
-#        for hart in self.target.harts:
-#            self.gdb.select_hart(hart)
-#            self.gdb.p("$x1=0x%x" % (hart.index * 0x800))
-#            self.gdb.p("$pc=main_post_csrr")
-#        self.gdb.c_all()
-#        for hart in self.target.harts:
-#            self.gdb.select_hart(hart)
-#            assertIn("main", self.gdb.where())
-#            # Check register values.
-#            for n in range(1, 32):
-#                value = self.gdb.p("$x%d" % n)
-#                assertEqual(value, hart.index * 0x800 + n - 1)
-
-class MulticoreRunHaltStepiTest(GdbTest):
+#        previous_hart_count = [0 for h in self.target.harts]
+#        previous_interrupt_count = [0 for h in self.target.harts]
+#        # Check 10 times
+#        for i in range(10):
+#            # 3 attempts for each time we want the check to pass
+#            for attempt in range(3):
+#                self.gdb.global_command("echo round %d attempt %d\\n" % (i,
+#                    attempt))
+#                self.gdb.c_all(wait=False)
+#                time.sleep(2)
+#                self.gdb.interrupt_all()
+#                hart_count = self.gdb.p("hart_count")
+#                interrupt_count = self.gdb.p("interrupt_count")
+#                ok = True
+#                for i, h in enumerate(self.target.harts):
+#                    if hart_count[i] <= previous_hart_count[i]:
+#                        ok = False
+#                        break
+#                    if interrupt_count[i] <= previous_interrupt_count[i]:
+#                        ok = False
+#                        break
+#                    self.gdb.p("$mie")
+#                    self.gdb.p("$mip")
+#                    self.gdb.p("$mstatus")
+#                    self.gdb.p("$priv")
+#                    self.gdb.p("buf", fmt="")
+#                    self.gdb.select_hart(h)
+#                    pc = self.gdb.p("$pc")
+#                    self.gdb.stepi()
+#                    stepped_pc = self.gdb.p("$pc")
+#                    assertNotEqual(pc, stepped_pc)
+#                previous_hart_count = hart_count
+#                previous_interrupt_count = interrupt_count
+#                if ok:
+#                    break
+#            else:
+#                assert False, \
+#                        "hart count or interrupt didn't increment as expected"
+
+class MulticoreRunAllHaltOne(GdbTest):
     compile_args = ("programs/multicore.c", "-DMULTICORE")
 
     def early_applicable(self):
         return len(self.target.harts) > 1
 
     def setup(self):
+        self.gdb.select_hart(self.target.harts[0])
         self.gdb.load()
         for hart in self.target.harts:
             self.gdb.select_hart(hart)
             self.gdb.p("$pc=_start")
 
     def test(self):
-        previous_hart_count = [0 for h in self.target.harts]
-        previous_interrupt_count = [0 for h in self.target.harts]
-        for _ in range(10):
+        if not self.gdb.one_hart_per_gdb():
+            return 'not_applicable'
+
+        # Run harts in reverse order
+        for h in reversed(self.target.harts):
+            self.gdb.select_hart(h)
             self.gdb.c(wait=False)
-            time.sleep(2)
-            self.gdb.interrupt()
-            self.gdb.p("$mie")
-            self.gdb.p("$mip")
-            self.gdb.p("$mstatus")
-            self.gdb.p("$priv")
-            self.gdb.p("buf", fmt="")
-            hart_count = self.gdb.p("hart_count")
-            interrupt_count = self.gdb.p("interrupt_count")
-            for i, h in enumerate(self.target.harts):
-                assertGreater(hart_count[i], previous_hart_count[i])
-                assertGreater(interrupt_count[i], previous_interrupt_count[i])
-                self.gdb.select_hart(h)
-                pc = self.gdb.p("$pc")
-                self.gdb.stepi()
-                stepped_pc = self.gdb.p("$pc")
-                assertNotEqual(pc, stepped_pc)
-
-class StepTest(GdbTest):
+
+        self.gdb.interrupt()
+        # Give OpenOCD time to call poll() on both harts, which is what causes
+        # the bug.
+        time.sleep(1)
+        self.gdb.p("buf", fmt="")
+
+class MulticoreRtosSwitchActiveHartTest(GdbTest):
+    compile_args = ("programs/multicore.c", "-DMULTICORE")
+
+    def early_applicable(self):
+        return len(self.target.harts) > 1
+
+    def setup(self):
+        self.gdb.select_hart(self.target.harts[0])
+        self.gdb.load()
+        for hart in self.target.harts:
+            self.gdb.select_hart(hart)
+            self.gdb.p("$pc=_start")
+
+    def test(self):
+        if self.gdb.one_hart_per_gdb():
+            return 'not_applicable'
+
+        # Set breakpoint near '_start' label to increase the chances of a
+        # situation when all harts hit breakpoint immediately and
+        # simultaneously.
+        self.gdb.b("set_trap_handler")
+
+        # Check that all harts hit breakpoint one by one.
+        for _ in range(len(self.target.harts)):
+            output = self.gdb.c()
+            assertIn("hit Breakpoint", output)
+            assertIn("set_trap_handler", output)
+            assertNotIn("received signal SIGTRAP", output)
+
+class StepTest(GdbSingleHartTest):
     compile_args = ("programs/step.S", )
 
     def setup(self):
@@ -578,7 +681,30 @@ class StepTest(GdbTest):
             pc = self.gdb.p("$pc")
             assertEqual("%x" % (pc - main_address), "%x" % expected)
 
-class TriggerTest(GdbTest):
+class JumpHbreak(GdbSingleHartTest):
+    """'jump' resumes execution at location. Execution stops again immediately
+    if there is a breakpoint there.
+    That second line can be trouble."""
+    compile_args = ("programs/trigger.S", )
+
+    def early_applicable(self):
+        return self.hart.instruction_hardware_breakpoint_count >= 1
+
+    def setup(self):
+        self.gdb.load()
+        self.gdb.hbreak("main")
+        self.gdb.c()
+        self.gdb.command("delete 1")
+
+    def test(self):
+        self.gdb.b("read_loop")
+        self.gdb.command("hbreak just_before_read_loop")
+        output = self.gdb.command("jump just_before_read_loop")
+        assertRegexpMatches(output, r"Breakpoint \d, just_before_read_loop ")
+        output = self.gdb.c()
+        assertRegexpMatches(output, r"Breakpoint \d, read_loop ")
+
+class TriggerTest(GdbSingleHartTest):
     compile_args = ("programs/trigger.S", )
     def setup(self):
         self.gdb.load()
@@ -617,12 +743,18 @@ class TriggerLoadAddressInstant(TriggerTest):
         self.gdb.command("b just_before_read_loop")
         self.gdb.c()
         read_loop = self.gdb.p("&read_loop")
-        self.gdb.command("rwatch data")
+        read_again = self.gdb.p("&read_again")
+        data = self.gdb.p("&data")
+        self.gdb.command("rwatch *0x%x" % data)
         self.gdb.c()
         # Accept hitting the breakpoint before or after the load instruction.
         assertIn(self.gdb.p("$pc"), [read_loop, read_loop + 4])
         assertEqual(self.gdb.p("$a0"), self.gdb.p("&data"))
 
+        self.gdb.c()
+        assertIn(self.gdb.p("$pc"), [read_again, read_again + 4])
+        assertEqual(self.gdb.p("$a0"), self.gdb.p("&data"))
+
 # FIXME: Triggers aren't quite working yet
 #class TriggerStoreAddress(TriggerTest):
 #    def test(self):
@@ -640,7 +772,8 @@ class TriggerStoreAddressInstant(TriggerTest):
         self.gdb.command("b just_before_write_loop")
         self.gdb.c()
         write_loop = self.gdb.p("&write_loop")
-        self.gdb.command("watch data")
+        data = self.gdb.p("&data")
+        self.gdb.command("watch *0x%x" % data)
         self.gdb.c()
         # Accept hitting the breakpoint before or after the store instruction.
         assertIn(self.gdb.p("$pc"), [write_loop, write_loop + 4])
@@ -692,7 +825,7 @@ class TriggerDmode(TriggerTest):
         assertIn("clear_triggers", output)
         self.check_triggers((1<<6) | (1<<0), 0xfeedac00)
 
-class RegsTest(GdbTest):
+class RegsTest(GdbSingleHartTest):
     compile_args = ("programs/regs.S", )
     def setup(self):
         self.gdb.load()
@@ -769,16 +902,17 @@ class DownloadTest(GdbTest):
 
         self.binary = self.target.compile(self.hart, self.download_c.name,
                 "programs/checksum.c")
-        self.gdb.command("file %s" % self.binary)
+        self.gdb.global_command("file %s" % self.binary)
 
     def test(self):
         self.gdb.load()
+        self.parkOtherHarts()
         self.gdb.command("b _exit")
-        self.gdb.c(timeout=60)
+        self.gdb.c()
         assertEqual(self.gdb.p("status"), self.crc)
         os.unlink(self.download_c.name)
 
-#class MprvTest(GdbTest):
+#class MprvTest(GdbSingleHartTest):
 #    compile_args = ("programs/mprv.S", )
 #    def setup(self):
 #        self.gdb.load()
@@ -791,7 +925,7 @@ class DownloadTest(GdbTest):
 #        output = self.gdb.command("p/x *(int*)(((char*)&data)-0x80000000)")
 #        assertIn("0xbead", output)
 
-class PrivTest(GdbTest):
+class PrivTest(GdbSingleHartTest):
     compile_args = ("programs/priv.S", )
     def setup(self):
         # pylint: disable=attribute-defined-outside-init
@@ -810,6 +944,26 @@ class PrivTest(GdbTest):
 class PrivRw(PrivTest):
     def test(self):
         """Test reading/writing priv."""
+        # Disable physical memory protection by allowing U mode access to all
+        # memory.
+        try:
+            self.gdb.p("$pmpcfg0=0xf")  # TOR, R, W, X
+            self.gdb.p("$pmpaddr0=0x%x" %
+                    ((self.hart.ram + self.hart.ram_size) >> 2))
+        except testlib.CouldNotFetch:
+            # PMP registers are optional
+            pass
+
+        # Ensure Virtual Memory is disabled if applicable (SATP register is not
+        # reset)
+        try:
+            self.gdb.p("$satp=0")
+        except testlib.CouldNotFetch:
+            # SATP only exists if you have S mode.
+            pass
+
+        # Leave the PC at _start, where the first 4 instructions should be
+        # legal in any mode.
         for privilege in range(4):
             self.gdb.p("$priv=%d" % privilege)
             self.gdb.stepi()
@@ -858,9 +1012,7 @@ def main():
     global parsed   # pylint: disable=global-statement
     parsed = parser.parse_args()
     target = targets.target(parsed)
-
-    if parsed.xlen:
-        target.xlen = parsed.xlen
+    testlib.print_log_names = parsed.print_log_names
 
     module = sys.modules[__name__]