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authorDavid Brownell <dbrownell@users.sourceforge.net>2010-01-20 11:07:42 -0800
committerDavid Brownell <dbrownell@users.sourceforge.net>2010-01-20 11:07:42 -0800
commit2a0c9b08d7ee0c1b0eb5b593d18f68d0c910927d (patch)
treee1b860436ba0e5c491aaa41714ef39b3e6e743ae /testing
parent22d25e69213c49395ee0d40f6cc1eda935873ed2 (diff)
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Cortex-M3 vector_catch testing support
The "cm3-ftest.cfg" can be used to verify that OpenOCD handles certain faults correctly: - Test #1: it ignores faults that it wasn't told to catch - Test #2: if vector_catch is told to catch, it catches The "fault.c" generates ASM code to trigger faults, while the config script loads and runs pre-compiled code. This covers most, but not all, of the vector_catch options. Signed-off-by: David Brownell <dbrownell@users.sourceforge.net>
Diffstat (limited to 'testing')
-rw-r--r--testing/examples/cortex/cm3-ftest.cfg143
-rw-r--r--testing/examples/cortex/fault.c152
2 files changed, 295 insertions, 0 deletions
diff --git a/testing/examples/cortex/cm3-ftest.cfg b/testing/examples/cortex/cm3-ftest.cfg
new file mode 100644
index 0000000..2dae249
--- /dev/null
+++ b/testing/examples/cortex/cm3-ftest.cfg
@@ -0,0 +1,143 @@
+#
+# For each named Cortex-M3 vector_catch flag VECTOR ...
+# bus_err state_err
+# chk_err nocp_err
+# mm_err reset
+#
+# BUT NYET hard_err, int_err (their test cases don't yet work) ...
+#
+# Do the following:
+#
+# - Test #1: verify that OpenOCD ignores exceptions by default
+# + l_VECTOR (loads testcase to RAM)
+# + fault triggers loop-to-self exception "handler"
+# + "halt"
+# + observe fault "handling" -- loop-to-self from load_and_run (below)
+#
+# - Test #2: verify that "vector_catch" makes OpenOCD stops ignoring them
+# + cortex_m3 vector_catch none
+# + cortex_m3 vector_catch VECTOR
+# + l_VECTOR (loads testcase to RAM)
+# + fault triggers vector catch hardware
+# + observe OpenOCD entering debug state with no assistance
+#
+# NOTE "reset" includes the NVIC, so that test case gets its reset vector
+# from the flash, not from the vector table set up here. Which means that
+# for that vector_catch option, the Test #1 (above) "observe" step won't
+# use the SRAM address.
+#
+
+# we can fully automate test #2
+proc vector_test {tag} {
+ halt
+ # REVISIT -- annoying, we'd like to scrap vector_catch output
+ cortex_m3 vector_catch none
+ cortex_m3 vector_catch $tag
+ eval "l_$tag"
+}
+
+#
+# Load and start one vector_catch test case.
+#
+# name -- tag for the vector_catch flag being tested
+# halfwords -- array of instructions (some wide, some narrow)
+# n_instr -- how many instructions are in $halfwords
+#
+proc load_and_run { name halfwords n_instr } {
+ reset halt
+
+ # Load code at beginning of SRAM.
+ echo "# code to trigger $name vector"
+ set addr 0x20000000
+
+ # ocd_array2mem should be faster, though we'd need to
+ # compute the resulting $addr ourselves
+ foreach opcode $halfwords {
+ mwh $addr $opcode
+ incr addr 2
+ }
+
+ # create default loop-to-self at $addr ... it serves as
+ # (a) "main loop" on error
+ # (b) handler for all exceptions that get triggered
+ mwh $addr 0xe7fe
+
+ # disassemble, as sanity check and what's-happening trace
+ cortex_m3 disassemble 0x20000000 [expr 1 + $n_instr ]
+
+ # Assume that block of code is at most 16 halfwords long.
+ # Create a basic table of loop-to-self exception handlers.
+ mww 0x20000020 $addr 16
+ # Store its address in VTOR
+ mww 0xe000ed08 0x20000020
+ # Use SHCSR to ensure nothing escalates to a HardFault
+ mww 0xe000ed24 0x00070000
+
+ # now start, trigering the $name vector catch logic
+ resume 0x20000000
+}
+
+#proc l_hard_err {} {
+# IMPLEMENT ME
+# FORCED -- escalate something to HardFault
+#}
+
+#proc l_int_err {} {
+# IMPLEMENT ME
+# STKERR -- exception stack BusFault
+#}
+
+# BusFault, escalates to HardFault
+proc l_bus_err {} {
+ # PRECISERR -- assume less than 512 MBytes of SRAM
+ load_and_run bus_err {
+ 0xf06f 0x4040
+ 0x7800
+ } 2
+}
+
+# UsageFault, escalates to HardFault
+proc l_state_err {} {
+ # UNDEFINSTR -- issue architecturally undefined instruction
+ load_and_run state_err {
+ 0xde00
+ } 1
+}
+
+# UsageFault, escalates to HardFault
+proc l_chk_err {} {
+ # UNALIGNED -- LDM through unaligned pointer
+ load_and_run chk_err {
+ 0xf04f 0x0001
+ 0xe890 0x0006
+ } 2
+}
+
+# UsageFault, escalates to HardFault
+proc l_nocp_err {} {
+ # NOCP -- issue cp14 DCC instruction
+ load_and_run nocp_err {
+ 0xee10 0x0e15
+ } 1
+}
+
+# MemManage, escalates to HardFault
+proc l_mm_err {} {
+ # IACCVIOL -- instruction fetch from an XN region
+ load_and_run mm_err {
+ 0xf04f 0x4060
+ 0x4687
+ } 2
+}
+
+proc l_reset {} {
+ # issue SYSRESETREQ via AIRCR
+ load_and_run reset {
+ 0xf04f 0x0104
+ 0xf2c0 0x51fa
+ 0xf44f 0x406d
+ 0xf100 0x000c
+ 0xf2ce 0x0000
+ 0x6001
+ } 6
+}
diff --git a/testing/examples/cortex/fault.c b/testing/examples/cortex/fault.c
new file mode 100644
index 0000000..9a5fe19
--- /dev/null
+++ b/testing/examples/cortex/fault.c
@@ -0,0 +1,152 @@
+/*
+ * COMPILE: arm-none-eabi-gcc -mthumb -march=armv7-m ...
+ * ... plus, provide at least a default exception vector table.
+ *
+ * RUN: this is best run from SRAM. It starts at main() then triggers
+ * a fault before more than a handful of instructions have executed.
+ * Run each test case in two modes:
+ *
+ * (1) Faults caught on the Cortex-M3. Default handlers are usually
+ * loop-to-self NOPs, so a debugger won't notice faults until they
+ * halt the core and examine xSPR and other registers.
+ *
+ * To verify the fault triggered, issue "halt" from OpenOCD; you
+ * should be told about the fault and (some of) its details.
+ * Then it's time to run the next test.
+ *
+ * NOTE however that "reset" will restart everything; verify that
+ * case by observing your reset handler doing its normal work.
+ *
+ * (2) Faults intercepted by OpenOCD "vector_catch ..." commands.
+ *
+ * OpenOCD should tell you about the fault, and show the same
+ * details, without your "halt" command.
+ *
+ * Someday, a fancy version of this code could provide a vector table and
+ * fault handlers which use semihosting (when that works on Cortex-M3) to
+ * report what happened, again without needing a "halt" command.
+ */
+
+
+/* These symbols match the OpenOCD "cortex_m3 vector_catch" bit names. */
+enum vc_case {
+ hard_err,
+ int_err,
+ bus_err,
+ state_err,
+ chk_err,
+ nocp_err,
+ mm_err,
+ reset,
+};
+
+/* REVISIT come up with a way to avoid recompiling, maybe:
+ * - write it in RAM before starting
+ * - compiled-in BKPT, manual patch of r0, then resume
+ * - ...
+ */
+
+#ifndef VC_ID
+#warning "no VC_ID ... using reset"
+#define VC_ID reset
+#endif
+
+int main(void) __attribute__ ((externally_visible, noreturn));
+
+/*
+ * Trigger various Cortex-M3 faults to verify that OpenOCD behaves OK
+ * in terms of its vector_catch handling.
+ *
+ * Fault handling should be left entirely up to the application code
+ * UNLESS a "vector_catch" command tells OpenOCD to intercept a fault.
+ *
+ * See ARMv7-M architecure spec table B1-9 for the list of faults and
+ * their mappings to the vector catch bits.
+ */
+int main(void)
+{
+ /* One test case for each vector catch bit. We're not doing
+ * hardware testing; so it doesn't matter when some DEMCR bits
+ * could apply in multiple ways.
+ */
+ switch (VC_ID) {
+
+ /* "cortex_m3 vector_catch hard_err" */
+ case hard_err:
+ /* FORCED - Fault escalation */
+
+ /* FIXME code this */
+ break;
+
+ /* "cortex_m3 vector_catch int_err" */
+ case int_err:
+ /* STKERR -- Exception stack BusFault */
+
+ /* FIXME code this */
+ break;
+
+ /* "cortex_m3 vector_catch bus_err" */
+ case bus_err:
+ /* PRECISERR -- precise data bus read
+ * Here we assume a Cortex-M3 with 512 MBytes SRAM is very
+ * unlikely, so the last SRAM byte isn't a valid address.
+ */
+ __asm__ volatile(
+ "mov r0, #0x3fffffff\n"
+ "ldrb r0, [r0]\n"
+ );
+ break;
+
+ /* "cortex_m3 vector_catch state_err" */
+ case state_err:
+ /* UNDEFINSTR -- architectural undefined instruction */
+ __asm__ volatile(".hword 0xde00");
+ break;
+
+ /* "cortex_m3 vector_catch chk_err" */
+ case chk_err:
+ /* UNALIGNED ldm */
+ __asm__ volatile(
+ "mov r0, #1\n"
+ "ldm r0, {r1, r2}\n"
+ );
+ break;
+
+ /* "cortex_m3 vector_catch nocp_err" */
+ case nocp_err:
+ /* NOCP ... Cortex-M3 has no coprocessors (like CP14 DCC),
+ * but these instructions are allowed by ARMv7-M.
+ */
+ __asm__ volatile("mrc p14, 0, r0, c0, c5, 0");
+ break;
+
+ /* "cortex_m3 vector_catch mm_err" */
+ case mm_err:
+ /* IACCVIOL -- instruction fetch from an XN region */
+ __asm__ volatile(
+ "mov r0, #0xe0000000\n"
+ "mov pc, r0\n"
+ );
+ break;
+
+ /* "cortex_m3 vector_catch reset" */
+ case reset:
+ __asm__ volatile(
+ /* r1 = SYSRESETREQ */
+ "mov r1, #0x0004\n"
+ /* r1 |= VECTKEY */
+ "movt r1, #0x05fa\n"
+ /* r0 = &AIRCR */
+ "mov r0, #0xed00\n"
+ "add r0, #0xc\n"
+ "movt r0, #0xe000\n"
+ /* AIRCR = ... */
+ "str r1, [r0, #0]\n"
+ );
+ break;
+ }
+
+ /* don't return */
+ while (1)
+ continue;
+}