/* COLLECTION LIBRARY Collection unit test. Copyright (C) Dmitri Pal 2009 Collection Library is free software: you can redistribute it and/or modify it under the terms of the GNU Lesser General Public License as published by the Free Software Foundation, either version 3 of the License, or (at your option) any later version. Collection Library is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU Lesser General Public License for more details. You should have received a copy of the GNU Lesser General Public License along with Collection Library. If not, see . */ #include #include #include #define TRACE_HOME #include "trace.h" #include "collection.h" #include "collection_tools.h" int ref_collection_test() { struct collection_item *peer; struct collection_item *socket; char binary_dump[] = { 0, 1, 2, 3, 4, 5, 6, 7, 8 }; int found = 0; int error = EOK; TRACE_FLOW_STRING("ref_collection_test","Entry."); printf("\n\nREF TEST!!!.\n\n\n"); printf("Creating PEER collection.\n"); if((error=create_collection(&peer,"peer",0)) || (error=add_str_property(peer,NULL,"hostname","peerhost.mytest.com",0)) || (error=add_str_property(peer,NULL,"IPv4","10.10.10.10",12)) || /* Expect trailing zero to be truncated */ (error=add_str_property(peer,NULL,"IPv6","bla:bla:bla:bla:bla:bla",0))) { printf("Failed to add property. Error %d",error); destroy_collection(peer); return error; } printf("Creating SOCKET collection.\n"); if((error=create_collection(&socket,"socket",0)) || (error=add_int_property(socket,NULL,"id",1)) || (error=add_long_property(socket,NULL,"packets",100000000L)) || (error=add_binary_property(socket,NULL,"stack",binary_dump,sizeof(binary_dump)))) { destroy_collection(peer); destroy_collection(socket); printf("Failed to add property. Error %d\n",error); return error; } debug_collection(socket,COL_TRAVERSE_DEFAULT); debug_collection(peer,COL_TRAVERSE_DEFAULT); printf("Adding PEER collection to SOCKET collection as a reference named PEER\n"); /* Embed peer host into the socket2 as reference */ error = add_collection_to_collection(socket,NULL,"peer",peer,COL_ADD_MODE_REFERENCE); if(error) { destroy_collection(peer); destroy_collection(socket); printf("Failed to add collection to collection. Error %d\n",error); return error; } debug_collection(socket,COL_TRAVERSE_DEFAULT); debug_collection(peer,COL_TRAVERSE_DEFAULT); printf("About to destroy PEER\n"); destroy_collection(peer); debug_collection(socket,COL_TRAVERSE_DEFAULT); printf("About to extract PEER\n"); error = get_collection_reference(socket,&peer,"peer"); if(error) { destroy_collection(socket); printf("Failed to extract collection. Error %d\n",error); return error; } debug_collection(socket,COL_TRAVERSE_DEFAULT); debug_collection(peer,COL_TRAVERSE_DEFAULT); destroy_collection(peer); debug_collection(socket,COL_TRAVERSE_DEFAULT); destroy_collection(socket); TRACE_FLOW_NUMBER("ref_collection_test. Returning",error); printf("\n\nEND OF REF TEST!!!.\n\n\n"); return error; } int single_collection_test() { struct collection_item *handle; int error = EOK; TRACE_FLOW_STRING("single_collection_test","Entry."); if((error=create_collection(&handle,"string_test",0)) || (error=add_str_property(handle,NULL,"property_1","some data",0)) || (error=add_str_property(handle,NULL,"property_2","some other data",2)) || (error=add_str_property(handle,NULL,"property_3","more data",7))) { printf("Failed to add property. Error %d",error); destroy_collection(handle); return error; } error = add_str_property(handle,NULL,"property 1","some data",0); if(error) printf("Expected error adding bad property to collection %d\n",error); else { printf("Expected error but got success\n"); return -1; } error=add_double_property(handle,NULL,"double",0.253545); if(error) { printf("Failed to add property. Error %d",error); destroy_collection(handle); return error; } error=update_double_property(handle,"double",COL_TRAVERSE_DEFAULT,1.999999); if(error) { printf("Failed to add property. Error %d",error); destroy_collection(handle); return error; } printf("Created collection\n"); /* Traverse collection */ error = debug_collection(handle,COL_TRAVERSE_DEFAULT); if(error) { printf("Error debugging collection %d\n",error); return error; } error = print_collection(handle); if(error) { printf("Error printing collection %d\n",error); return error; } destroy_collection(handle); TRACE_FLOW_NUMBER("single_collection_test. Error: ",error); return error; } int add_collection_test() { struct collection_item *peer; struct collection_item *socket; char binary_dump[] = { 0, 1, 2, 3, 4, 5, 6, 7, 8 }; int found = 0; int error = EOK; TRACE_FLOW_STRING("add_collection_test","Entry."); printf("\n\nADD TEST!!!.\n\n\n"); printf("Creating PEER collection.\n"); if((error=create_collection(&peer,"peer",0)) || (error=add_str_property(peer,NULL,"hostname","peerhost.mytest.com",0)) || (error=add_str_property(peer,NULL,"IPv4","10.10.10.10",12)) || /* Expect trailing zero to be truncated */ (error=add_str_property(peer,NULL,"IPv6","bla:bla:bla:bla:bla:bla",0))) { printf("Failed to add property. Error %d",error); destroy_collection(peer); return error; } printf("Creating SOCKET collection.\n"); if((error=create_collection(&socket,"socket",0)) || (error=add_int_property(socket,NULL,"id",1)) || (error=add_long_property(socket,NULL,"packets",100000000L)) || (error=add_binary_property(socket,NULL,"stack",binary_dump,sizeof(binary_dump)))) { destroy_collection(peer); destroy_collection(socket); printf("Failed to add property. Error %d\n",error); return error; } debug_collection(socket,COL_TRAVERSE_DEFAULT); debug_collection(peer,COL_TRAVERSE_DEFAULT); printf("Adding PEER collection to SOCKET collection as a reference named PEER\n"); /* Embed peer host into the socket2 as reference */ error = add_collection_to_collection(socket,NULL,"peer",peer,COL_ADD_MODE_REFERENCE); if(error) { destroy_collection(peer); destroy_collection(socket); printf("Failed to create collection. Error %d\n",error); return error; } debug_collection(socket,COL_TRAVERSE_DEFAULT); debug_collection(peer,COL_TRAVERSE_DEFAULT); destroy_collection(peer); debug_collection(socket,COL_TRAVERSE_DEFAULT); destroy_collection(socket); TRACE_FLOW_NUMBER("add_collection_test. Returning",error); return error; } int mixed_collection_test() { struct collection_item *peer; struct collection_item *socket1; struct collection_item *socket2; struct collection_item *packet; struct collection_item *event; struct collection_item *host; char binary_dump[] = { 0, 1, 2, 3, 4, 5, 6, 7, 8 }; int found = 0; int class = 0; int error = EOK; TRACE_FLOW_STRING("mixed_collection_test","Entry."); printf("\n\nMIXED TEST!!!.\n\n\n"); printf("Creating PEER collection.\n"); if((error=create_collection(&peer,"peer",0)) || (error=add_str_property(peer,NULL,"hostname","peerhost.mytest.com",0)) || (error=add_str_property(peer,NULL,"IPv4","10.10.10.10",12)) || /* Expect trailing zero to be truncated */ (error=add_str_property(peer,NULL,"IPv6","bla:bla:bla:bla:bla:bla",0))) { printf("Failed to add property. Error %d",error); destroy_collection(peer); return error; } debug_collection(peer,COL_TRAVERSE_DEFAULT); printf("Creating HOST collection.\n"); if((error=create_collection(&host,"host",0)) || (error=add_str_property(host,NULL,"hostname","myhost.mytest.com",0)) || (error=add_str_property(host,NULL,"IPv4","20.20.20.20",13)) || (error=add_str_property(host,NULL,"IPv6","bla:bla:bla:bla:bla:bla",0)) || (error=add_double_property(host,NULL,"double",0.253545))) { printf("Failed to add property. Error %d",error); destroy_collection(peer); destroy_collection(host); return error; } debug_collection(host,COL_TRAVERSE_DEFAULT); printf("Creating SOCKET1 collection.\n"); if((error=create_collection(&socket1,"socket1",0)) || (error=add_int_property(socket1,NULL,"id",1)) || (error=add_long_property(socket1,NULL,"packets",100000000L)) || (error=add_binary_property(socket1,NULL,"stack",binary_dump,sizeof(binary_dump)))) { destroy_collection(peer); destroy_collection(host); destroy_collection(socket1); printf("Failed to add property. Error %d\n",error); return error; } debug_collection(socket1,COL_TRAVERSE_DEFAULT); printf("Creating a copy of SOCKET1 collection named SOCKET2.\n"); error = copy_collection(&socket2,socket1,"socket2"); if(error) { destroy_collection(peer); destroy_collection(host); destroy_collection(socket1); printf("Failed to copy collection. Error %d\n",error); return error; } debug_collection(socket2,COL_TRAVERSE_DEFAULT); debug_collection(peer,COL_TRAVERSE_DEFAULT); printf("Adding PEER collection to SOCKET2 collection as a reference named PEER2\n"); /* Embed peer host into the socket2 as reference */ error = add_collection_to_collection(socket2,NULL,"peer2",peer,COL_ADD_MODE_REFERENCE); if(error) { destroy_collection(peer); destroy_collection(host); destroy_collection(socket1); destroy_collection(socket2); printf("Failed to create collection. Error %d\n",error); return error; } debug_collection(socket2,COL_TRAVERSE_DEFAULT); printf("Creating an EVENT collection.\n"); /* Construct event */ error = create_collection(&event,"event",0); if(error) { destroy_collection(peer); destroy_collection(host); destroy_collection(socket1); destroy_collection(socket2); printf("Failed to create collection. Error %d\n",error); return error; } debug_collection(event,COL_TRAVERSE_DEFAULT); printf("Adding HOST to EVENT.\n"); /* Add host to event */ error = add_collection_to_collection(event,NULL,NULL,host,COL_ADD_MODE_REFERENCE); if(error) { destroy_collection(peer); destroy_collection(host); destroy_collection(socket1); destroy_collection(socket2); printf("Failed to add collections. Error %d\n",error); return error; } debug_collection(event,COL_TRAVERSE_DEFAULT); printf("Embed SOCKET1 into EVENT.\n"); /* Donate socket1 to event */ /* Socket1 should not be used after this */ error = add_collection_to_collection(event,NULL,NULL,socket1,COL_ADD_MODE_EMBED); if(error) { destroy_collection(peer); destroy_collection(host); destroy_collection(socket1); destroy_collection(socket2); printf("Failed to add collections. Error %d\n",error); return error; } printf("Traverse one level:\n"); debug_collection(event,COL_TRAVERSE_ONELEVEL); printf("Traverse ignore subcollections:\n"); debug_collection(event,COL_TRAVERSE_IGNORE); printf("Traverse normal:\n"); debug_collection(event,COL_TRAVERSE_DEFAULT); debug_collection(socket1,COL_TRAVERSE_DEFAULT); printf("SOCKET1 MUST NO BE USED AFTER THIS POINT!!!\n"); socket1 = (struct collection_item *)(NULL); printf("Add collection PEER as PEER1 to subcollection SOCKET1 of the EVENT.\n"); debug_collection(peer,COL_TRAVERSE_DEFAULT); error = add_collection_to_collection(event,"socket1","peer1",peer,COL_ADD_MODE_CLONE); if(error) { destroy_collection(peer); destroy_collection(host); /* No socket1 any more :) */ destroy_collection(socket2); printf("Failed to add collections. Error %d\n",error); return error; } debug_collection(event,COL_TRAVERSE_DEFAULT); printf("Add property named TIMEOUT to PEER collection.\n"); /* Add new property to the peer collection */ error = add_int_property(peer,NULL,"timeout",5); if(error) { destroy_collection(peer); destroy_collection(host); /* No socket1 any more :) */ destroy_collection(socket2); printf("Failed to add property. Error %d\n",error); return error; } debug_collection(socket2,COL_TRAVERSE_DEFAULT); printf("Add property named DELAY to PEER1 collection.\n"); error = add_int_property(event,"peer1","delay",10); if(error) { destroy_collection(peer); destroy_collection(host); /* No socket1 any more :) */ destroy_collection(socket2); printf("Failed to add property. Error %d\n",error); return error; } debug_collection(event,COL_TRAVERSE_DEFAULT); debug_collection(host,COL_TRAVERSE_DEFAULT); printf("Check if property PEER1.DELAY is in the EVENT collection.\n"); /* Check if the property in the collection */ found = 0; error = is_item_in_collection(event, "peer1.delay", COL_TYPE_ANY, COL_TRAVERSE_DEFAULT, &found); if(error) { destroy_collection(peer); destroy_collection(host); /* No socket1 any more :) */ destroy_collection(socket2); printf("Failed to check property. Error %d\n",error); return error; } if (found == 1) printf("Property is found!\n"); else printf("Error property is not found!\n"); print_item(event, "peer1.IPv6"); print_item(event, "event.socket1.peer1.IPv6"); print_item(event, "event.peer1.IPv6"); print_item(event, "speer1.IPv6"); print_item(event, "eer1.IPv6"); print_item(event, ".peer1.IPv6"); print_item(event, "t.peer1.IPv6"); /* Traverse collection */ error = print_collection2(event); if(error) { printf("Error printing collection %d\n",error); return error; } printf("Delete property PEER1.DELAY from the EVENT collection.\n"); error = delete_property(event,"peer1.delay",COL_TYPE_ANY, COL_TRAVERSE_DEFAULT); if(error) { destroy_collection(peer); destroy_collection(host); /* No socket1 any more :) */ destroy_collection(socket2); printf("Failed to delete property. Error %d\n",error); return error; } printf("Printing EVENT.\n"); /* Traverse collection */ error = print_collection2(event); if(error) { printf("Error printing collection %d\n",error); return error; } printf("Debugging EVENT.\n"); error = debug_collection(event,COL_TRAVERSE_DEFAULT); if(error) { printf("Error printing collection %d\n",error); return error; } printf("Cleanup of the collections PEER, HOST and SOCKET2.\n"); /* Destroy a referenced collection */ destroy_collection(peer); destroy_collection(host); destroy_collection(socket2); printf("Printing EVENT again.\n"); /* Traverse collection again - peer should still be there */ error = print_collection(event); if(error) { printf("Error printing collection %d\n",error); return error; } printf("Debugging EVENT again.\n"); error = debug_collection(event,COL_TRAVERSE_DEFAULT); if(error) { printf("Error printing collection %d\n",error); return error; } printf("Attempt to add property to a referenced collection.\n"); /* Some negative tests */ /* Can't add attributes to the referenced collection */ error = add_int_property(event,"host","session",500); if(error != 0) printf("Error was NOT able to add property to a referenced collection.\n"); else { printf("Unexpected success which is an implementation error.\n"); return error; } printf("Attempt to delete non-existent property.\n"); /* Can't delete non exitent property */ error = delete_property(event,"host.host",COL_TYPE_ANY, COL_TRAVERSE_DEFAULT); if(error == 0) { printf("Error was able to delete property that does not exist.\n"); return -1; } else printf("Expected error %d\n",error); /* Set collection class */ error = set_collection_class(event,2); if(error != 0) { printf("Error was NOT able to set class.\n"); return error; } error = get_collection_class(event,&class); if(error != 0) { printf("Error was NOT able to get class.\n"); return error; } else printf("Class = %d\n",class); if(is_of_class(event,2)) printf("Class mathced!\n"); else { printf("Error - bad class.\n"); return -1; } printf("Done. Cleaning...\n"); destroy_collection(event); printf("Exit.\n"); TRACE_FLOW_NUMBER("add_collection_test. Returning",EOK); return EOK; } int iterator_test() { struct collection_item *peer; struct collection_item *socket1; struct collection_item *socket2; struct collection_iterator *iterator = (struct collection_iterator *)(NULL); int error = EOK; struct collection_item *item = (struct collection_item *)(NULL); char binary_dump[] = { 0, 1, 2, 3, 4, 5, 6, 7, 8 }; int depth = 0; printf("\n\n==== ITERATOR TEST ====\n\n"); if((error=create_collection(&peer,"peer",0)) || (error=add_str_property(peer,NULL,"hostname","peerhost.mytest.com",0)) || (error=add_str_property(peer,NULL,"IPv4","10.10.10.10",12)) || /* Expect trailing zero to be truncated */ (error=add_str_property(peer,NULL,"IPv6","bla:bla:bla:bla:bla:bla",0))) { printf("Failed to add property. Error %d",error); destroy_collection(peer); return error; } if((error=create_collection(&socket1,"socket",0)) || (error=add_int_property(socket1,NULL,"id",1)) || (error=add_long_property(socket1,NULL,"packets",100000000L)) || (error=add_binary_property(socket1,NULL,"stack",binary_dump,sizeof(binary_dump)))) { destroy_collection(peer); destroy_collection(socket1); printf("Failed to add property. Error %d\n",error); return error; } if((error=create_collection(&socket2,"socket",0)) || (error=add_int_property(socket2,NULL,"id",2)) || (error=add_long_property(socket2,NULL,"packets",200000000L)) || (error=add_binary_property(socket2,NULL,"queue",binary_dump,sizeof(binary_dump)))) { destroy_collection(peer); destroy_collection(socket1); destroy_collection(socket2); printf("Failed to add property. Error %d\n",error); return error; } error = add_collection_to_collection(peer,NULL,"first",socket1,COL_ADD_MODE_EMBED); if(error) { destroy_collection(peer); destroy_collection(socket1); destroy_collection(socket2); printf("Failed to add collection to collection. Error %d\n",error); return error; } error = add_collection_to_collection(peer,NULL,"second",socket2,COL_ADD_MODE_EMBED); if(error) { destroy_collection(peer); destroy_collection(socket2); printf("Failed to add collection to collection. Error %d\n",error); return error; } /* Bind iterator */ error = bind_iterator(&iterator,peer,COL_TRAVERSE_DEFAULT); if(error) { printf("Error (bind): %d\n",error); destroy_collection(peer); return error; } printf("\n\nCollection:\n\n"); debug_collection(peer,COL_TRAVERSE_DEFAULT); /* This should also work becuase iterator holds to collection */ destroy_collection(peer); printf("\n\nIteration:\n\n"); do { depth = 0; get_iterator_depth(iterator,&depth); /* Loop through a collection */ error = iterate_collection(iterator, &item); if(error) { printf("Error (iterate): %d\n",error); unbind_iterator(iterator); return error; } /* Are we done ? */ if(item == (struct collection_item *)(NULL)) break; printf("%*s Property (%s), type = %d, data size = %d\n", depth * 4, "", get_item_property(item,NULL), get_item_type(item), get_item_length(item)); if((strcmp(get_item_property(item,NULL),"id")==0) && (*((int *)(get_item_data(item))) == 1)) { printf("\n\nFound property we need - go up!!!\n\n\n"); error = iterate_up(iterator,5); if(!error) { printf("We expected error but got seucces - bad.\n"); unbind_iterator(iterator); return -1; } /* This should work! */ error = iterate_up(iterator,1); if(error) { printf("We expected success but got error %d\n",error); unbind_iterator(iterator); return error; } if((error = modify_str_item(item,"id2","test",0)) || (error = debug_item(item)) || (error = modify_str_item(item,NULL,"test",2)) || (error = debug_item(item)) || (error = modify_binary_item(item,NULL,binary_dump,sizeof(binary_dump))) || (error = debug_item(item)) || (error = modify_bool_item(item,NULL,1)) || (error = debug_item(item)) || (error = modify_int_item(item,"int",1)) || (error = debug_item(item)) || (error = modify_long_item(item,"long",1000000000L)) || (error = debug_item(item)) || (error = modify_ulong_item(item,"ulong",4000000000UL)) || (error = debug_item(item)) || (error = modify_unsigned_item(item,"unsigned",4000000000U)) || (error = debug_item(item)) || (error = modify_double_item(item,"double",-1.1)) || (error = debug_item(item))) { printf("Failed to change property.\n"); return error; } } } while(1); /* Do not forget to unbind iterator - otherwise there will be a leak */ unbind_iterator(iterator); return EOK; } /* Main function of the unit test */ int main() { int error = 0; printf("Start\n"); if((error=ref_collection_test()) || (error=single_collection_test()) || (error=add_collection_test()) || (error=mixed_collection_test()) || (error=iterator_test())) { printf("Failed!\n"); } else printf("Success!\n"); /* Add other tests here ... */ return error; }