Palmer Dabbelt
GitHub
commit
3cff4213a4
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@ -706,7 +706,7 @@ static int init_target(struct command_context *cmd_ctx,
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LOG_DEBUG("init");
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riscv_info_t *generic_info = (riscv_info_t *) target->arch_info;
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riscv_info_init(generic_info);
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riscv_info_init(target, generic_info);
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generic_info->get_register = &riscv013_get_register;
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generic_info->set_register = &riscv013_set_register;
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generic_info->select_current_hart = &riscv013_select_current_hart;
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@ -832,6 +832,9 @@ static int add_trigger(struct target *target, struct trigger *trigger)
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uint64_t tdata1_rb;
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for (int hartid = 0; hartid < riscv_count_harts(target); ++hartid) {
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if (!riscv_hart_enabled(target, hartid))
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continue;
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riscv_set_current_hartid(target, hartid);
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if (hartid > 0) {
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@ -918,6 +921,9 @@ static int remove_trigger(struct target *target, struct trigger *trigger)
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}
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LOG_DEBUG("Stop using resource %d for bp %d", i, trigger->unique_id);
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for (int hartid = 0; hartid < riscv_count_harts(target); ++hartid) {
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if (!riscv_hart_enabled(target, hartid))
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continue;
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riscv_set_current_hartid(target, hartid);
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register_write_direct(target, GDB_REGNO_TSELECT, i);
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register_write_direct(target, GDB_REGNO_TDATA1, 0);
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@ -1123,17 +1129,23 @@ static int examine(struct target *target)
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/* Before doing anything else we must first enumerate the harts. */
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RISCV_INFO(r);
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if (riscv_rtos_enabled(target)) {
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for (int i = 0; i < RISCV_MAX_HARTS; ++i) {
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riscv_set_current_hartid(target, i);
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uint32_t s = dmi_read(target, DMI_DMSTATUS);
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if (get_field(s, DMI_DMSTATUS_ANYNONEXISTENT))
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break;
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r->hart_count = i + 1;
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int original_coreid = target->coreid;
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for (int i = 0; i < RISCV_MAX_HARTS; ++i) {
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/* Fake being a non-RTOS targeted to this core so we can see if
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* it exists. This avoids the assertion in
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* riscv_set_current_hartid() that ensures non-RTOS targets
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* don't touch the harts they're not assigned to. */
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target->coreid = i;
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r->hart_count = i + 1;
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riscv_set_current_hartid(target, i);
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uint32_t s = dmi_read(target, DMI_DMSTATUS);
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if (get_field(s, DMI_DMSTATUS_ANYNONEXISTENT)) {
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r->hart_count--;
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break;
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}
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} else {
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r->hart_count = 1;
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}
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target->coreid = original_coreid;
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LOG_DEBUG("Enumerated %d harts", r->hart_count);
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@ -1143,6 +1155,9 @@ static int examine(struct target *target)
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/* Find the address of the program buffer, which must be done without
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* knowing anything about the target. */
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for (int i = 0; i < riscv_count_harts(target); ++i) {
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if (!riscv_hart_enabled(target, i))
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continue;
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riscv_set_current_hartid(target, i);
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/* Without knowing anything else we can at least mess with the
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@ -1225,6 +1240,9 @@ static int examine(struct target *target)
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/* Then we check the number of triggers availiable to each hart. */
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for (int i = 0; i < riscv_count_harts(target); ++i) {
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if (!riscv_hart_enabled(target, i))
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continue;
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for (uint32_t t = 0; t < RISCV_MAX_TRIGGERS; ++t) {
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riscv_set_current_hartid(target, i);
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@ -1239,6 +1257,7 @@ static int examine(struct target *target)
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/* Resumes all the harts, so the debugger can later pause them. */
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riscv_resume_all_harts(target);
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target->state = TARGET_RUNNING;
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target_set_examined(target);
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if (target->rtos) {
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@ -1333,9 +1352,6 @@ static int read_memory(struct target *target, target_addr_t address,
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size, address);
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select_dmi(target);
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/* There was a bug in the memory system and only accesses from hart 0 actually
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* worked correctly. This should be obselete now. -palmer */
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riscv_set_current_hartid(target, 0);
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/* This program uses two temporary registers. A word of data and the
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* associated address are stored at some location in memory. The
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@ -1531,9 +1547,6 @@ static int write_memory(struct target *target, target_addr_t address,
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LOG_DEBUG("writing %d words of %d bytes to 0x%08lx", count, size, (long)address);
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select_dmi(target);
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/* There was a bug in the memory system and only accesses from hart 0 actually
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* worked correctly. This should be obselete now. -palmer */
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riscv_set_current_hartid(target, 0);
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/* This program uses two temporary registers. A word of data and the
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* associated address are stored at some location in memory. The
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@ -448,11 +448,12 @@ static int riscv_get_gdb_reg_list(struct target *target,
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{
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RISCV_INFO(r);
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LOG_DEBUG("reg_class=%d", reg_class);
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LOG_DEBUG("riscv_get_gdb_reg_list: rtos_hartid=%d current_hartid=%d", r->rtos_hartid, r->current_hartid);
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if (r->rtos_hartid != -1)
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LOG_DEBUG("rtos_hartid=%d current_hartid=%d", r->rtos_hartid, r->current_hartid);
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if (r->rtos_hartid != -1 && riscv_rtos_enabled(target))
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riscv_set_current_hartid(target, r->rtos_hartid);
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else
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riscv_set_current_hartid(target, 0);
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riscv_set_current_hartid(target, target->coreid);
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switch (reg_class) {
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case REG_CLASS_GENERAL:
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@ -872,11 +873,12 @@ struct target_type riscv_target =
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/*** RISC-V Interface ***/
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void riscv_info_init(riscv_info_t *r)
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void riscv_info_init(struct target *target, riscv_info_t *r)
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{
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memset(r, 0, sizeof(*r));
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r->dtm_version = 1;
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r->registers_initialized = false;
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r->current_hartid = target->coreid;
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for (size_t h = 0; h < RISCV_MAX_HARTS; ++h) {
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r->xlen[h] = -1;
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@ -889,11 +891,11 @@ void riscv_info_init(riscv_info_t *r)
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int riscv_halt_all_harts(struct target *target)
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{
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if (riscv_rtos_enabled(target)) {
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for (int i = 0; i < riscv_count_harts(target); ++i)
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riscv_halt_one_hart(target, i);
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} else {
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riscv_halt_one_hart(target, riscv_current_hartid(target));
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for (int i = 0; i < riscv_count_harts(target); ++i) {
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if (!riscv_hart_enabled(target, i))
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continue;
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riscv_halt_one_hart(target, i);
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}
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return ERROR_OK;
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@ -915,11 +917,11 @@ int riscv_halt_one_hart(struct target *target, int hartid)
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int riscv_resume_all_harts(struct target *target)
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{
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if (riscv_rtos_enabled(target)) {
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for (int i = 0; i < riscv_count_harts(target); ++i)
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riscv_resume_one_hart(target, i);
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} else {
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riscv_resume_one_hart(target, riscv_current_hartid(target));
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for (int i = 0; i < riscv_count_harts(target); ++i) {
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if (!riscv_hart_enabled(target, i))
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continue;
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riscv_resume_one_hart(target, i);
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}
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riscv_invalidate_register_cache(target);
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@ -943,11 +945,11 @@ int riscv_resume_one_hart(struct target *target, int hartid)
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int riscv_reset_all_harts(struct target *target)
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{
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if (riscv_rtos_enabled(target)) {
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for (int i = 0; i < riscv_count_harts(target); ++i)
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riscv_reset_one_hart(target, i);
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} else {
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riscv_reset_one_hart(target, riscv_current_hartid(target));
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for (int i = 0; i < riscv_count_harts(target); ++i) {
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if (!riscv_hart_enabled(target, i))
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continue;
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riscv_reset_one_hart(target, i);
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}
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riscv_invalidate_register_cache(target);
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@ -1017,10 +1019,9 @@ void riscv_set_current_hartid(struct target *target, int hartid)
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int previous_hartid = riscv_current_hartid(target);
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r->current_hartid = hartid;
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assert(riscv_rtos_enabled(target) || target->coreid == hartid);
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assert(riscv_hart_enabled(target, hartid));
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LOG_DEBUG("setting hartid to %d, was %d", hartid, previous_hartid);
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if (riscv_rtos_enabled(target))
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r->select_current_hart(target);
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r->select_current_hart(target);
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/* This might get called during init, in which case we shouldn't be
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* setting up the register cache. */
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@ -1068,10 +1069,7 @@ void riscv_invalidate_register_cache(struct target *target)
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int riscv_current_hartid(const struct target *target)
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{
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RISCV_INFO(r);
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if (riscv_rtos_enabled(target))
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return r->current_hartid;
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else
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return target->coreid;
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return r->current_hartid;
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}
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void riscv_set_all_rtos_harts(struct target *target)
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@ -1236,3 +1234,12 @@ int riscv_dmi_write_u64_bits(struct target *target)
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RISCV_INFO(r);
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return r->dmi_write_u64_bits(target);
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}
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bool riscv_hart_enabled(struct target *target, int hartid)
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{
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/* FIXME: Add a hart mask to the RTOS. */
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if (riscv_rtos_enabled(target))
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return hartid < riscv_count_harts(target);
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return hartid == target->coreid;
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}
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@ -134,7 +134,7 @@ int riscv_openocd_deassert_reset(struct target *target);
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/*** RISC-V Interface ***/
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/* Initializes the shared RISC-V structure. */
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void riscv_info_init(riscv_info_t *r);
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void riscv_info_init(struct target *target, riscv_info_t *r);
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/* Run control, possibly for multiple harts. The _all_harts versions resume
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* all the enabled harts, which when running in RTOS mode is all the harts on
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@ -215,4 +215,7 @@ int riscv_dmi_write_u64_bits(struct target *target);
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/* Invalidates the register cache. */
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void riscv_invalidate_register_cache(struct target *target);
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/* Returns TRUE when a hart is enabled in this target. */
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bool riscv_hart_enabled(struct target *target, int hartid);
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#endif
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