void LogicalPartition::GetPartitionDescriptor(partition_descriptor* descriptor, bool inner) const { PrimaryPartition* primary = GetPrimaryPartition(); if (inner) { descriptor->start = (PartitionTableOffset() - primary->Offset()) / BlockSize(); descriptor->type = primary->Type(); } else { descriptor->start = (Offset() - PartitionTableOffset()) / BlockSize(); descriptor->type = Type(); } descriptor->size = Size() / BlockSize(); descriptor->active = 0x00; descriptor->begin.Unset(); descriptor->end.Unset(); }
// pm_scan_partition static status_t pm_scan_partition(int fd, partition_data* partition, void* cookie) { // check parameters if (fd < 0 || !partition || !cookie) return B_ERROR; TRACE(("intel: pm_scan_partition(%d, %ld: %lld, %lld, %ld)\n", fd, partition->id, partition->offset, partition->size, partition->block_size)); PartitionMapCookie* map = (PartitionMapCookie*)cookie; // fill in the partition_data structure partition->status = B_PARTITION_VALID; partition->flags |= B_PARTITION_PARTITIONING_SYSTEM; partition->content_size = partition->size; // (no content_name and content_parameters) // (content_type is set by the system) partition->content_cookie = map; // children status_t error = B_OK; int32 index = 0; for (int32 i = 0; i < 4; i++) { PrimaryPartition* primary = map->PrimaryPartitionAt(i); if (!primary->IsEmpty()) { partition_data* child = create_child_partition(partition->id, index, partition->offset + primary->Offset(), primary->Size(), -1); index++; if (!child) { // something went wrong error = B_ERROR; break; } child->block_size = partition->block_size; // (no name) char type[B_FILE_NAME_LENGTH]; primary->GetTypeString(type); child->type = strdup(type); // parameters char buffer[128]; sprintf(buffer, "type = %u ; active = %d", primary->Type(), primary->Active()); child->parameters = strdup(buffer); child->cookie = primary; // check for allocation problems if (!child->type || !child->parameters) { error = B_NO_MEMORY; break; } } } // keep map on success or cleanup on error if (error == B_OK) { atomic_add(&map->ref_count, 1); } else { partition->content_cookie = NULL; for (int32 i = 0; i < partition->child_count; i++) { if (partition_data* child = get_child_partition(partition->id, i)) child->cookie = NULL; } } return error; }