namespace simgrid {
namespace mc {
+// Free functions
+
+static void mc_frame_free(void* frame)
+{
+ delete (simgrid::mc::Frame*)frame;
+}
+
+static void mc_type_free(void* t)
+{
+ delete (simgrid::mc::Type*)t;
+}
+
// Type
Type::Type()
this->byte_size = 0;
this->element_count = 0;
this->is_pointer_type = 0;
+ this->type_id = 0;
this->subtype = nullptr;
this->full_type = nullptr;
}
this->dwarf_offset = 0;
this->global = 0;
this->type = nullptr;
+ this->type_id = 0;
this->address = nullptr;
this->start_scope = 0;
this->object_info = nullptr;
// ObjectInformations
-mc_frame_t ObjectInformation::find_function(const void *ip) const
+ObjectInformation::ObjectInformation()
+{
+ this->flags = 0;
+ this->start = nullptr;
+ this->end = nullptr;
+ this->start_exec = nullptr;
+ this->end_exec = nullptr;
+ this->start_rw = nullptr;
+ this->end_rw = nullptr;
+ this->start_ro = nullptr;
+ this->end_ro = nullptr;
+}
+
+/** Find the DWARF offset for this ELF object
+ *
+ * An offset is applied to address found in DWARF:
+ *
+ * <ul>
+ * <li>for an executable obejct, addresses are virtual address
+ * (there is no offset) i.e. \f$\text{virtual address} = \{dwarf address}\f$;</li>
+ * <li>for a shared object, the addreses are offset from the begining
+ * of the shared object (the base address of the mapped shared
+ * object must be used as offset
+ * i.e. \f$\text{virtual address} = \text{shared object base address}
+ * + \text{dwarf address}\f$.</li>
+ *
+ */
+void *ObjectInformation::base_address() const
+{
+ if (this->executable())
+ return nullptr;
+
+ void *result = this->start_exec;
+ if (this->start_rw != NULL && result > (void *) this->start_rw)
+ result = this->start_rw;
+ if (this->start_ro != NULL && result > (void *) this->start_ro)
+ result = this->start_ro;
+ return result;
+}
+
+/* Find a function by instruction pointer */
+simgrid::mc::Frame* ObjectInformation::find_function(const void *ip) const
{
- xbt_dynar_t dynar = this->functions_index;
- mc_function_index_item_t base =
- (mc_function_index_item_t) xbt_dynar_get_ptr(dynar, 0);
+ /* This is implemented by binary search on a sorted array.
+ *
+ * We do quite a lot ot those so we want this to be cache efficient.
+ * We pack the only information we need in the index entries in order
+ * to successfully do the binary search. We do not need the high_pc
+ * during the binary search (only at the end) so it is not included
+ * in the index entry. We could use parallel arrays as well.
+ *
+ * We cannot really use the std:: alogrithm for this.
+ * We could use std::binary_search by including the high_pc inside
+ * the FunctionIndexEntry.
+ */
+ const simgrid::mc::FunctionIndexEntry* base =
+ this->functions_index.data();
int i = 0;
- int j = xbt_dynar_length(dynar) - 1;
+ int j = this->functions_index.size() - 1;
while (j >= i) {
int k = i + ((j - i) / 2);
- if (ip < base[k].low_pc) {
+ if (ip < base[k].low_pc)
j = k - 1;
- } else if (ip >= base[k].high_pc) {
+ else if (k < j && ip >= base[k + 1].low_pc)
i = k + 1;
- } else {
+ else if (ip < base[k].function->high_pc)
return base[k].function;
- }
+ else
+ return nullptr;
}
return nullptr;
}