/* * Copyright (c) 2006-2007, XenSource Inc. * * This 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 2.1 of the License, or (at your option) any later version. * * This 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 this library; if not, write to the Free Software * Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA */ #include #include #include "xen_internal.h" #include #include #include #include XEN_FREE(xen_host_cpu) XEN_SET_ALLOC_FREE(xen_host_cpu) XEN_ALLOC(xen_host_cpu_record) XEN_SET_ALLOC_FREE(xen_host_cpu_record) XEN_ALLOC(xen_host_cpu_record_opt) XEN_RECORD_OPT_FREE(xen_host_cpu) XEN_SET_ALLOC_FREE(xen_host_cpu_record_opt) static const struct_member xen_host_cpu_record_struct_members[] = { { .key = "uuid", .type = &abstract_type_string, .offset = offsetof(xen_host_cpu_record, uuid) }, { .key = "host", .type = &abstract_type_ref, .offset = offsetof(xen_host_cpu_record, host) }, { .key = "number", .type = &abstract_type_int, .offset = offsetof(xen_host_cpu_record, number) }, { .key = "vendor", .type = &abstract_type_string, .offset = offsetof(xen_host_cpu_record, vendor) }, { .key = "speed", .type = &abstract_type_int, .offset = offsetof(xen_host_cpu_record, speed) }, { .key = "modelname", .type = &abstract_type_string, .offset = offsetof(xen_host_cpu_record, modelname) }, { .key = "stepping", .type = &abstract_type_string, .offset = offsetof(xen_host_cpu_record, stepping) }, { .key = "flags", .type = &abstract_type_string, .offset = offsetof(xen_host_cpu_record, flags) }, { .key = "features", .type = &abstract_type_string, .offset = offsetof(xen_host_cpu_record, features) }, { .key = "utilisation", .type = &abstract_type_float, .offset = offsetof(xen_host_cpu_record, utilisation) }, { .key = "cpu_pool", .type = &abstract_type_ref_set, .offset = offsetof(xen_host_cpu_record, cpu_pools) }, }; const abstract_type xen_host_cpu_record_abstract_type_ = { .typename = STRUCT, .struct_size = sizeof(xen_host_cpu_record), .member_count = sizeof(xen_host_cpu_record_struct_members) / sizeof(struct_member), .members = xen_host_cpu_record_struct_members }; void xen_host_cpu_record_free(xen_host_cpu_record *record) { if (record == NULL) { return; } free(record->handle); free(record->uuid); xen_host_record_opt_free(record->host); free(record->vendor); free(record->modelname); free(record->stepping); free(record->flags); free(record->features); xen_cpu_pool_record_opt_set_free(record->cpu_pools); free(record); } bool xen_host_cpu_get_record(xen_session *session, xen_host_cpu_record **result, xen_host_cpu host_cpu) { abstract_value param_values[] = { { .type = &abstract_type_string, .u.string_val = host_cpu } }; abstract_type result_type = xen_host_cpu_record_abstract_type_; *result = NULL; XEN_CALL_("host_cpu.get_record"); if (session->ok) { (*result)->handle = xen_strdup_((*result)->uuid); } return session->ok; } bool xen_host_cpu_get_by_uuid(xen_session *session, xen_host_cpu *result, char *uuid) { abstract_value param_values[] = { { .type = &abstract_type_string, .u.string_val = uuid } }; abstract_type result_type = abstract_type_string; *result = NULL; XEN_CALL_("host_cpu.get_by_uuid"); return session->ok; } bool xen_host_cpu_get_host(xen_session *session, xen_host *result, xen_host_cpu host_cpu) { abstract_value param_values[] = { { .type = &abstract_type_string, .u.string_val = host_cpu } }; abstract_type result_type = abstract_type_string; *result = NULL; XEN_CALL_("host_cpu.get_host"); return session->ok; } bool xen_host_cpu_get_number(xen_session *session, int64_t *result, xen_host_cpu host_cpu) { abstract_value param_values[] = { { .type = &abstract_type_string, .u.string_val = host_cpu } }; abstract_type result_type = abstract_type_int; XEN_CALL_("host_cpu.get_number"); return session->ok; } bool xen_host_cpu_get_vendor(xen_session *session, char **result, xen_host_cpu host_cpu) { abstract_value param_values[] = { { .type = &abstract_type_string, .u.string_val = host_cpu } }; abstract_type result_type = abstract_type_string; *result = NULL; XEN_CALL_("host_cpu.get_vendor"); return session->ok; } bool xen_host_cpu_get_speed(xen_session *session, int64_t *result, xen_host_cpu host_cpu) { abstract_value param_values[] = { { .type = &abstract_type_string, .u.string_val = host_cpu } }; abstract_type result_type = abstract_type_int; XEN_CALL_("host_cpu.get_speed"); return session->ok; } bool xen_host_cpu_get_modelname(xen_session *session, char **result, xen_host_cpu host_cpu) { abstract_value param_values[] = { { .type = &abstract_type_string, .u.string_val = host_cpu } }; abstract_type result_type = abstract_type_string; *result = NULL; XEN_CALL_("host_cpu.get_modelname"); return session->ok; } bool xen_host_cpu_get_stepping(xen_session *session, char **result, xen_host_cpu host_cpu) { abstract_value param_values[] = { { .type = &abstract_type_string, .u.string_val = host_cpu } }; abstract_type result_type = abstract_type_string; *result = NULL; XEN_CALL_("host_cpu.get_stepping"); return session->ok; } bool xen_host_cpu_get_flags(xen_session *session, char **result, xen_host_cpu host_cpu) { abstract_value param_values[] = { { .type = &abstract_type_string, .u.string_val = host_cpu } }; abstract_type result_type = abstract_type_string; *result = NULL; XEN_CALL_("host_cpu.get_flags"); return session->ok; } bool xen_host_cpu_get_features(xen_session *session, char **result, xen_host_cpu host_cpu) { abstract_value param_values[] = { { .type = &abstract_type_string, .u.string_val = host_cpu } }; abstract_type result_type = abstract_type_string; *result = NULL; XEN_CALL_("host_cpu.get_features"); return session->ok; } bool xen_host_cpu_get_utilisation(xen_session *session, double *result, xen_host_cpu host_cpu) { abstract_value param_values[] = { { .type = &abstract_type_string, .u.string_val = host_cpu } }; abstract_type result_type = abstract_type_float; XEN_CALL_("host_cpu.get_utilisation"); return session->ok; } bool xen_host_cpu_get_all(xen_session *session, struct xen_host_cpu_set **result) { abstract_type result_type = abstract_type_string_set; *result = NULL; xen_call_(session, "host_cpu.get_all", NULL, 0, &result_type, result); return session->ok; } bool xen_host_cpu_get_uuid(xen_session *session, char **result, xen_host_cpu host_cpu) { abstract_value param_values[] = { { .type = &abstract_type_string, .u.string_val = host_cpu } }; abstract_type result_type = abstract_type_string; *result = NULL; XEN_CALL_("host_cpu.get_uuid"); return session->ok; } bool xen_host_cpu_get_cpu_pool(xen_session *session, struct xen_cpu_pool_set **result, xen_host_cpu host_cpu) { abstract_value param_values[] = { { .type = &abstract_type_string, .u.string_val = host_cpu } }; abstract_type result_type = abstract_type_string_set; *result = NULL; XEN_CALL_("host_cpu.get_cpu_pool"); return session->ok; } bool xen_host_cpu_get_unassigned_cpus(xen_session *session, struct xen_host_cpu_set **result) { abstract_type result_type = abstract_type_string_set; *result = NULL; xen_call_(session, "host_cpu.get_unassigned_cpus", NULL, 0, &result_type, result); return session->ok; }