static void ready(Worklet *worklet) { auto node = frg::container_of(worklet, &IpcNode::_worklet); auto self = node->_queue; auto irq_lock = frigg::guard(&irqMutex()); auto lock = frigg::guard(&self->_mutex); self->_progress(); }
static void woken(Worklet *worklet) { auto self = frg::container_of(worklet, &IpcQueue::_worklet); auto irq_lock = frigg::guard(&irqMutex()); auto lock = frigg::guard(&self->_mutex); self->_waitInFutex = false; self->_progress(); }
/* main */ int main(int argc, char * argv[]) { Prefs prefs; int o; char * p; memset(&prefs, 0, sizeof(prefs)); prefs.bufsiz = 65536; if(setlocale(LC_ALL, "") == NULL) _error("setlocale", 1); bindtextdomain(PACKAGE, LOCALEDIR); textdomain(PACKAGE); gtk_init(&argc, &argv); while((o = getopt(argc, argv, "b:ef:l:p:t:xz")) != -1) switch(o) { case 'b': prefs.bufsiz = strtol(optarg, &p, 0); if(optarg[0] == '\0' || *p != '\0' || prefs.bufsiz <= 0) return _usage(); break; case 'e': break; case 'f': prefs.filename = optarg; break; case 'l': prefs.length = strtol(optarg, &p, 0); if(optarg[0] == '\0' || *p != '\0') return _usage(); break; case 'p': prefs.prefix = optarg; break; case 't': prefs.title = optarg; break; case 'x': prefs.flags |= PREFS_x; break; case 'z': prefs.flags |= PREFS_z; break; default: return _usage(); } if(argc - optind < 1) return _usage(); return (_progress(&prefs, &argv[optind]) == 0) ? 0 : 2; }
void IpcQueue::submit(IpcNode *node) { auto irq_lock = frigg::guard(&irqMutex()); auto lock = frigg::guard(&_mutex); struct Ops { static void ready(Worklet *worklet) { auto node = frg::container_of(worklet, &IpcNode::_worklet); auto self = node->_queue; auto irq_lock = frigg::guard(&irqMutex()); auto lock = frigg::guard(&self->_mutex); self->_progress(); } }; assert(!node->_queueNode.in_list); node->_queue = this; node->_worklet.setup(&Ops::ready); auto was_empty = _nodeQueue.empty(); _nodeQueue.push_back(node); if(was_empty) _progress(); }
khm_int32 krb4_msg_newcred(khm_int32 msg_type, khm_int32 msg_subtype, khm_ui_4 uparam, void * vparam) { switch(msg_subtype) { case KMSG_CRED_NEW_CREDS: { khui_new_creds * nc; khui_new_creds_by_type * nct; khm_size cbsize; wchar_t wbuf[256]; nc = (khui_new_creds *) vparam; nct = PMALLOC(sizeof(*nct)); #ifdef DEBUG assert(nct); #endif ZeroMemory(nct, sizeof(*nct)); nct->type = credtype_id_krb4; nct->ordinal = 3; LoadString(hResModule, IDS_NC_K4_SHORT, wbuf, ARRAYLENGTH(wbuf)); StringCbLength(wbuf, sizeof(wbuf), &cbsize); cbsize += sizeof(wchar_t); nct->name = PMALLOC(cbsize); StringCbCopy(nct->name, cbsize, wbuf); nct->type_deps[nct->n_type_deps++] = credtype_id_krb5; nct->h_module = hResModule; nct->dlg_proc = k4_nc_dlg_proc; nct->dlg_template = MAKEINTRESOURCE(IDD_NC_KRB4); khui_cw_add_type(nc, nct); } break; case KMSG_CRED_RENEW_CREDS: { khui_new_creds * nc; khui_new_creds_by_type * nct; khm_size cbsize; wchar_t wbuf[256]; khui_action_context * pctx = NULL; nc = (khui_new_creds *) vparam; pctx = khui_cw_get_ctx(nc); if (!pctx->identity) break; nct = PMALLOC(sizeof(*nct)); #ifdef DEBUG assert(nct); #endif ZeroMemory(nct, sizeof(*nct)); nct->type = credtype_id_krb4; nct->ordinal = 3; LoadString(hResModule, IDS_NC_K4_SHORT, wbuf, ARRAYLENGTH(wbuf)); StringCbLength(wbuf, sizeof(wbuf), &cbsize); cbsize += sizeof(wchar_t); nct->name = PMALLOC(cbsize); StringCbCopy(nct->name, cbsize, wbuf); nct->type_deps[nct->n_type_deps++] = credtype_id_krb5; khui_cw_add_type(nc, nct); } break; case KMSG_CRED_DIALOG_SETUP: break; case KMSG_CRED_PROCESS: { khui_new_creds * nc; khui_new_creds_by_type * nct = NULL; khm_handle ident = NULL; khui_action_context * pctx = NULL; k4_dlg_data * d = NULL; long code = 0; wchar_t idname[KCDB_IDENT_MAXCCH_NAME]; khm_size cb; khm_int32 subtype; nc = (khui_new_creds *) vparam; if (KHM_FAILED(khui_cw_find_type(nc, credtype_id_krb4, &nct))) break; subtype = khui_cw_get_subtype(nc); if (subtype == KMSG_CRED_NEW_CREDS || subtype == KMSG_CRED_RENEW_CREDS) { khm_int32 method; if (subtype == KMSG_CRED_NEW_CREDS) { d = (k4_dlg_data *) nct->aux; if (KHM_FAILED(khui_cw_get_primary_id(nc, &ident))) break; if (!d || khui_cw_get_result(nc) != KHUI_NC_RESULT_PROCESS) { khui_cw_set_response(nc, credtype_id_krb4, KHUI_NC_RESPONSE_SUCCESS | KHUI_NC_RESPONSE_EXIT); kcdb_identity_release(ident); break; } if (!d->k4_enabled) { k4_write_identity_data(d); khui_cw_set_response(nc, credtype_id_krb4, KHUI_NC_RESPONSE_SUCCESS | KHUI_NC_RESPONSE_EXIT); kcdb_identity_release(ident); break; } method = d->method; cb = sizeof(idname); kcdb_identity_get_name(ident, idname, &cb); _begin_task(0); _report_sr0(KHERR_NONE, IDS_MSG_K4NEW); _resolve(); _describe(); } else if (subtype == KMSG_CRED_RENEW_CREDS) { pctx = khui_cw_get_ctx(nc); if ((pctx->scope == KHUI_SCOPE_IDENT && pctx->identity != NULL) || (pctx->scope == KHUI_SCOPE_CREDTYPE && pctx->cred_type == credtype_id_krb4 && pctx->identity != NULL) || (pctx->scope == KHUI_SCOPE_CRED && pctx->cred_type == credtype_id_krb4 && pctx->identity != NULL && pctx->cred != NULL)) { ident = pctx->identity; kcdb_identity_hold(ident); if (!k4_should_identity_get_k4(ident)) { _reportf(L"Kerberos 4 is not enabled for this identity. Skipping"); khui_cw_set_response(nc, credtype_id_krb4, KHUI_NC_RESPONSE_FAILED | KHUI_NC_RESPONSE_EXIT); kcdb_identity_release(ident); break; } } else { _reportf(L"Kerberos 4 is not within renewal scope. Skipping"); khui_cw_set_response(nc, credtype_id_krb4, KHUI_NC_RESPONSE_FAILED | KHUI_NC_RESPONSE_EXIT); break; } method = K4_METHOD_K524; /* only k524 is supported for renewals */ _begin_task(0); cb = sizeof(idname); kcdb_identity_get_name(ident, idname, &cb); _report_sr0(KHERR_NONE, IDS_MSG_K4RENEW); _resolve(); _describe(); } else { assert(FALSE); break; } _progress(0,1); if ((method == K4_METHOD_AUTO || method == K4_METHOD_K524) && khui_cw_type_succeeded(nc, credtype_id_krb5)) { khm_handle tgt; FILETIME ft_prev; FILETIME ft_new; khm_size cb; _report_cs0(KHERR_INFO, L"Trying K524..."); tgt = khm_krb4_find_tgt(NULL, ident); _progress(1,3); if (tgt) { cb = sizeof(ft_prev); if (KHM_FAILED(kcdb_cred_get_attr(tgt, KCDB_ATTR_EXPIRE, NULL, &ft_prev, &cb))) ZeroMemory(&ft_prev, sizeof(ft_prev)); kcdb_cred_release(tgt); } code = khm_convert524(ident); _progress(2,3); _reportf(L"khm_convert524 returns code %d", code); if (code == 0) { khui_cw_set_response(nc, credtype_id_krb4, KHUI_NC_RESPONSE_SUCCESS | KHUI_NC_RESPONSE_EXIT); if (subtype == KMSG_CRED_NEW_CREDS) { assert(d != NULL); k4_write_identity_data(d); } else if (subtype == KMSG_CRED_RENEW_CREDS && (pctx->scope == KHUI_SCOPE_CREDTYPE || pctx->scope == KHUI_SCOPE_CRED)) { khm_krb4_list_tickets(); tgt = khm_krb4_find_tgt(NULL, ident); if (tgt) { cb = sizeof(ft_new); ZeroMemory(&ft_new, sizeof(ft_new)); kcdb_cred_get_attr(tgt, KCDB_ATTR_EXPIRE, NULL, &ft_new, &cb); kcdb_cred_release(tgt); } if (!tgt || CompareFileTime(&ft_new, &ft_prev) <= 0) { /* The new TGT wasn't much of an improvement over what we already had. We should go out and try to renew the identity now. */ khui_action_context ctx; _reportf(L"Renewal of Krb4 creds failed to get a longer TGT. Triggering identity renewal"); khui_context_create(&ctx, KHUI_SCOPE_IDENT, pctx->identity, KCDB_CREDTYPE_INVALID, NULL); khui_action_trigger(KHUI_ACTION_RENEW_CRED, &ctx); khui_context_release(&ctx); } } _progress(1,1); _end_task(); if (ident) kcdb_identity_release(ident); break; } else if (method == K4_METHOD_K524) { khui_cw_set_response(nc, credtype_id_krb4, KHUI_NC_RESPONSE_FAILED | KHUI_NC_RESPONSE_EXIT); if (subtype == KMSG_CRED_RENEW_CREDS && (pctx->scope == KHUI_SCOPE_CREDTYPE || pctx->scope == KHUI_SCOPE_CRED)) { /* We were trying to get a new Krb4 TGT for this identity. Sometimes this fails because of restrictions placed on K524d regarding the lifetime of the issued K4 TGT. In this case, we trigger a renewal of the identity in the hope that the new K5 TGT will allow us to successfully get a new K4 TGT next time over using the new K5 TGT. */ khui_action_context ctx; _reportf(L"Renewal of Krb4 creds failed using k524. Triggerring identity renewal."); khui_context_create(&ctx, KHUI_SCOPE_IDENT, pctx->identity, KCDB_CREDTYPE_INVALID, NULL); khui_action_trigger(KHUI_ACTION_RENEW_CRED, &ctx); khui_context_release(&ctx); } _progress(1,1); _end_task(); if (ident) kcdb_identity_release(ident); break; } } /* only supported for new credentials */ if (method == K4_METHOD_AUTO || method == K4_METHOD_PASSWORD) { khm_size n_prompts = 0; khm_size idx; khm_size cb; wchar_t wpwd[KHUI_MAXCCH_PROMPT_VALUE]; char pwd[KHUI_MAXCCH_PROMPT_VALUE]; wchar_t widname[KCDB_IDENT_MAXCCH_NAME]; char idname[KCDB_IDENT_MAXCCH_NAME]; char * aname = NULL; char * inst = NULL; char * realm = NULL; assert(subtype == KMSG_CRED_NEW_CREDS); _report_cs0(KHERR_INFO, L"Trying password ..."); code = TRUE; /* just has to be non-zero */ khui_cw_get_prompt_count(nc, &n_prompts); if (n_prompts == 0) goto _skip_pwd; for (idx = 0; idx < n_prompts; idx++) { khui_new_creds_prompt * p; if (KHM_FAILED(khui_cw_get_prompt(nc, idx, &p))) continue; if (p->type == KHUI_NCPROMPT_TYPE_PASSWORD) break; } if (idx >= n_prompts) { _reportf(L"Password prompt not found"); goto _skip_pwd; } khui_cw_sync_prompt_values(nc); cb = sizeof(wpwd); if (KHM_FAILED(khui_cw_get_prompt_value(nc, idx, wpwd, &cb))) { _reportf(L"Failed to obtain password value"); goto _skip_pwd; } UnicodeStrToAnsi(pwd, sizeof(pwd), wpwd); cb = sizeof(widname); kcdb_identity_get_name(ident, widname, &cb); UnicodeStrToAnsi(idname, sizeof(idname), widname); { char * atsign; atsign = strchr(idname, '@'); if (atsign == NULL) { _reportf(L"Identity name does not contain an '@'"); goto _skip_pwd; } *atsign++ = 0; realm = atsign; } { char * slash; slash = strchr(idname, '/'); if (slash != NULL) { *slash++ = 0; inst = slash; } else { inst = ""; } } aname = idname; code = khm_krb4_kinit(aname, inst, realm, (long) d->lifetime, pwd); _progress(2,3); _reportf(L"khm_krb4_kinit returns code %d", code); _skip_pwd: if (code) { khui_cw_set_response(nc, credtype_id_krb4, KHUI_NC_RESPONSE_EXIT | KHUI_NC_RESPONSE_FAILED); } else { khui_cw_set_response(nc, credtype_id_krb4, KHUI_NC_RESPONSE_EXIT | KHUI_NC_RESPONSE_SUCCESS); if (subtype == KMSG_CRED_NEW_CREDS) { assert(d != NULL); k4_write_identity_data(d); } } } _progress(1,1); _end_task(); } if (ident) kcdb_identity_release(ident); } break; case KMSG_CRED_END: { khui_new_creds * nc; khui_new_creds_by_type * nct = NULL; nc = (khui_new_creds *) vparam; if (KHM_FAILED(khui_cw_find_type(nc, credtype_id_krb4, &nct))) break; khui_cw_del_type(nc, credtype_id_krb4); if (nct->name) PFREE(nct->name); if (nct->credtext) PFREE(nct->credtext); PFREE(nct); } break; } return KHM_ERROR_SUCCESS; }
void purgeInvoices::sPurge() { if (!_cutOffDate->isValid()) { QMessageBox::warning( this, tr("Enter Cutoff Date"), tr("You must enter a valid cutoff date before purging Invoice Records.") ); return; } if ( QMessageBox::warning( this, tr("Delete Invoice Records"), tr( "This function will purge Invoices and all of the associated documents including:\n" "Return Authorizations, Lot/Serial Registrations, Sales Orders, Shipments, and Billing.\n" "The results of the process are saved in the log file purgeInvoices.log.\n" "You will not be able to re-print an Invoice if you delete that Invoice's Records.\n" "\n" "Are you sure that you want to delete the selected Invoice Records?" ), tr("Yes"), tr("No"), QString::null, 0, 1) == 0) { QString logpath; QString logname; QString logtogether; logpath = ""; logname = "purgeInvoices.log"; logtogether = logpath + logname; QFile logfile(logtogether); logfile.remove(); logfile.open(QIODevice::WriteOnly); int _invoices = 1; int _kount = 1; XSqlQuery invoices; invoices.prepare("SELECT COUNT(*) AS invoice_count " "FROM invchead " "WHERE ( (invchead_invcdate <= :cutOffDate) " " AND (invchead_posted) " " AND (invchead_recurring_invchead_id!=invchead_id) " " AND (checkInvoiceSitePrivs(invchead_id)) );"); invoices.bindValue(":cutOffDate", _cutOffDate->date()); invoices.exec(); if (invoices.first()) _invoices = (invoices.value("invoice_count").toInt()); QProgressDialog _progress(tr("Purge Invoices in progress..."), tr("Cancel"), 0, _invoices, this); _progress.setWindowModality(Qt::WindowModal); invoices.prepare("SELECT invchead_id, invchead_invcnumber " "FROM invchead " "WHERE ( (invchead_invcdate <= :cutOffDate) " " AND (invchead_posted) " " AND (NOT invchead_recurring) " " AND (checkInvoiceSitePrivs(invchead_id)) );"); invoices.bindValue(":cutOffDate", _cutOffDate->date()); invoices.exec(); while (invoices.next()) { q.prepare("SELECT purgeInvoiceRecord(:cutOffDate, :invchead_id) AS result;"); q.bindValue(":cutOffDate", _cutOffDate->date()); q.bindValue(":invchead_id", invoices.value("invchead_id").toInt()); q.exec(); if (q.first()) { QString logmessage = "Invoice "; logmessage += invoices.value("invchead_invcnumber").toString(); logmessage += ", result="; logmessage += q.value("result").toString(); logfile.write(logmessage.toAscii()); logfile.write("\n"); } if (_progress.wasCanceled()) break; _progress.setValue(_kount); _kount++; } _progress.setValue(_invoices); accept(); } }