// SPDX-License-Identifier: GPL-2.0+ /* * VAS Fault handling. * Copyright 2019, IBM Corporation */ #define pr_fmt(fmt) "vas: " fmt #include #include #include #include #include #include #include #include #include "vas.h" /* * The maximum FIFO size for fault window can be 8MB * (VAS_RX_FIFO_SIZE_MAX). Using 4MB FIFO since each VAS * instance will be having fault window. * 8MB FIFO can be used if expects more faults for each VAS * instance. */ #define VAS_FAULT_WIN_FIFO_SIZE (4 << 20) static void dump_crb(struct coprocessor_request_block *crb) { struct data_descriptor_entry *dde; struct nx_fault_stamp *nx; dde = &crb->source; pr_devel("SrcDDE: addr 0x%llx, len %d, count %d, idx %d, flags %d\n", be64_to_cpu(dde->address), be32_to_cpu(dde->length), dde->count, dde->index, dde->flags); dde = &crb->target; pr_devel("TgtDDE: addr 0x%llx, len %d, count %d, idx %d, flags %d\n", be64_to_cpu(dde->address), be32_to_cpu(dde->length), dde->count, dde->index, dde->flags); nx = &crb->stamp.nx; pr_devel("NX Stamp: PSWID 0x%x, FSA 0x%llx, flags 0x%x, FS 0x%x\n", be32_to_cpu(nx->pswid), be64_to_cpu(crb->stamp.nx.fault_storage_addr), nx->flags, nx->fault_status); } /* * Update the CSB to indicate a translation error. * * User space will be polling on CSB after the request is issued. * If NX can handle the request without any issues, it updates CSB. * Whereas if NX encounters page fault, the kernel will handle the * fault and update CSB with translation error. * * If we are unable to update the CSB means copy_to_user failed due to * invalid csb_addr, send a signal to the process. */ static void update_csb(struct vas_window *window, struct coprocessor_request_block *crb) { struct coprocessor_status_block csb; struct kernel_siginfo info; struct task_struct *tsk; void __user *csb_addr; struct pid *pid; int rc; /* * NX user space windows can not be opened for task->mm=NULL * and faults will not be generated for kernel requests. */ if (WARN_ON_ONCE(!window->mm || !window->user_win)) return; csb_addr = (void __user *)be64_to_cpu(crb->csb_addr); memset(&csb, 0, sizeof(csb)); csb.cc = CSB_CC_FAULT_ADDRESS; csb.ce = CSB_CE_TERMINATION; csb.cs = 0; csb.count = 0; /* * NX operates and returns in BE format as defined CRB struct. * So saves fault_storage_addr in BE as NX pastes in FIFO and * expects user space to convert to CPU format. */ csb.address = crb->stamp.nx.fault_storage_addr; csb.flags = 0; pid = window->pid; tsk = get_pid_task(pid, PIDTYPE_PID); /* * Process closes send window after all pending NX requests are * completed. In multi-thread applications, a child thread can * open a window and can exit without closing it. May be some * requests are pending or this window can be used by other * threads later. We should handle faults if NX encounters * pages faults on these requests. Update CSB with translation * error and fault address. If csb_addr passed by user space is * invalid, send SEGV signal to pid saved in window. If the * child thread is not running, send the signal to tgid. * Parent thread (tgid) will close this window upon its exit. * * pid and mm references are taken when window is opened by * process (pid). So tgid is used only when child thread opens * a window and exits without closing it. */ if (!tsk) { pid = window->tgid; tsk = get_pid_task(pid, PIDTYPE_PID); /* * Parent thread (tgid) will be closing window when it * exits. So should not get here. */ if (WARN_ON_ONCE(!tsk)) return; } /* Return if the task is exiting. */ if (tsk->flags & PF_EXITING) { put_task_struct(tsk); return; } kthread_use_mm(window->mm); rc = copy_to_user(csb_addr, &csb, sizeof(csb)); /* * User space polls on csb.flags (first byte). So add barrier * then copy first byte with csb flags update. */ if (!rc) { csb.flags = CSB_V; /* Make sure update to csb.flags is visible now */ smp_mb(); rc = copy_to_user(csb_addr, &csb, sizeof(u8)); } kthread_unuse_mm(window->mm); put_task_struct(tsk); /* Success */ if (!rc) return; pr_debug("Invalid CSB address 0x%p signalling pid(%d)\n", csb_addr, pid_vnr(pid)); clear_siginfo(&info); info.si_signo = SIGSEGV; info.si_errno = EFAULT; info.si_code = SEGV_MAPERR; info.si_addr = csb_addr; /* * process will be polling on csb.flags after request is sent to * NX. So generally CSB update should not fail except when an * application passes invalid csb_addr. So an error message will * be displayed and leave it to user space whether to ignore or * handle this signal. */ rcu_read_lock(); rc = kill_pid_info(SIGSEGV, &info, pid); rcu_read_unlock(); pr_devel("%s(): pid %d kill_proc_info() rc %d\n", __func__, pid_vnr(pid), rc); } static void dump_fifo(struct vas_instance *vinst, void *entry) { unsigned long *end = vinst->fault_fifo + vinst->fault_fifo_size; unsigned long *fifo = entry; int i; pr_err("Fault fifo size %d, Max crbs %d\n", vinst->fault_fifo_size, vinst->fault_fifo_size / CRB_SIZE); /* Dump 10 CRB entries or until end of FIFO */ pr_err("Fault FIFO Dump:\n"); for (i = 0; i < 10*(CRB_SIZE/8) && fifo < end; i += 4, fifo += 4) { pr_err("[%.3d, %p]: 0x%.16lx 0x%.16lx 0x%.16lx 0x%.16lx\n", i, fifo, *fifo, *(fifo+1), *(fifo+2), *(fifo+3)); } } /* * Process valid CRBs in fault FIFO. * NX process user space requests, return credit and update the status * in CRB. If it encounters transalation error when accessing CRB or * request buffers, raises interrupt on the CPU to handle the fault. * It takes credit on fault window, updates nx_fault_stamp in CRB with * the following information and pastes CRB in fault FIFO. * * pswid - window ID of the window on which the request is sent. * fault_storage_addr - fault address * * It can raise a single interrupt for multiple faults. Expects OS to * process all valid faults and return credit for each fault on user * space and fault windows. This fault FIFO control will be done with * credit mechanism. NX can continuously paste CRBs until credits are not * available on fault window. Otherwise, returns with RMA_reject. * * Total credits available on fault window: FIFO_SIZE(4MB)/CRBS_SIZE(128) * */ irqreturn_t vas_fault_thread_fn(int irq, void *data) { struct vas_instance *vinst = data; struct coprocessor_request_block *crb, *entry; struct coprocessor_request_block buf; struct vas_window *window; unsigned long flags; void *fifo; crb = &buf; /* * VAS can interrupt with multiple page faults. So process all * valid CRBs within fault FIFO until reaches invalid CRB. * We use CCW[0] and pswid to validate validate CRBs: * * CCW[0] Reserved bit. When NX pastes CRB, CCW[0]=0 * OS sets this bit to 1 after reading CRB. * pswid NX assigns window ID. Set pswid to -1 after * reading CRB from fault FIFO. * * We exit this function if no valid CRBs are available to process. * So acquire fault_lock and reset fifo_in_progress to 0 before * exit. * In case kernel receives another interrupt with different page * fault, interrupt handler returns with IRQ_HANDLED if * fifo_in_progress is set. Means these new faults will be * handled by the current thread. Otherwise set fifo_in_progress * and return IRQ_WAKE_THREAD to wake up thread. */ while (true) { spin_lock_irqsave(&vinst->fault_lock, flags); /* * Advance the fault fifo pointer to next CRB. * Use CRB_SIZE rather than sizeof(*crb) since the latter is * aligned to CRB_ALIGN (256) but the CRB written to by VAS is * only CRB_SIZE in len. */ fifo = vinst->fault_fifo + (vinst->fault_crbs * CRB_SIZE); entry = fifo; if ((entry->stamp.nx.pswid == cpu_to_be32(FIFO_INVALID_ENTRY)) || (entry->ccw & cpu_to_be32(CCW0_INVALID))) { vinst->fifo_in_progress = 0; spin_unlock_irqrestore(&vinst->fault_lock, flags); return IRQ_HANDLED; } spin_unlock_irqrestore(&vinst->fault_lock, flags); vinst->fault_crbs++; if (vinst->fault_crbs == (vinst->fault_fifo_size / CRB_SIZE)) vinst->fault_crbs = 0; memcpy(crb, fifo, CRB_SIZE); entry->stamp.nx.pswid = cpu_to_be32(FIFO_INVALID_ENTRY); entry->ccw |= cpu_to_be32(CCW0_INVALID); /* * Return credit for the fault window. */ vas_return_credit(vinst->fault_win, false); pr_devel("VAS[%d] fault_fifo %p, fifo %p, fault_crbs %d\n", vinst->vas_id, vinst->fault_fifo, fifo, vinst->fault_crbs); dump_crb(crb); window = vas_pswid_to_window(vinst, be32_to_cpu(crb->stamp.nx.pswid)); if (IS_ERR(window)) { /* * We got an interrupt about a specific send * window but we can't find that window and we can't * even clean it up (return credit on user space * window). * But we should not get here. * TODO: Disable IRQ. */ dump_fifo(vinst, (void *)entry); pr_err("VAS[%d] fault_fifo %p, fifo %p, pswid 0x%x, fault_crbs %d bad CRB?\n", vinst->vas_id, vinst->fault_fifo, fifo, be32_to_cpu(crb->stamp.nx.pswid), vinst->fault_crbs); WARN_ON_ONCE(1); } else { update_csb(window, crb); /* * Return credit for send window after processing * fault CRB. */ vas_return_credit(window, true); } } } irqreturn_t vas_fault_handler(int irq, void *dev_id) { struct vas_instance *vinst = dev_id; irqreturn_t ret = IRQ_WAKE_THREAD; unsigned long flags; /* * NX can generate an interrupt for multiple faults. So the * fault handler thread process all CRBs until finds invalid * entry. In case if NX sees continuous faults, it is possible * that the thread function entered with the first interrupt * can execute and process all valid CRBs. * So wake up thread only if the fault thread is not in progress. */ spin_lock_irqsave(&vinst->fault_lock, flags); if (vinst->fifo_in_progress) ret = IRQ_HANDLED; else vinst->fifo_in_progress = 1; spin_unlock_irqrestore(&vinst->fault_lock, flags); return ret; } /* * Fault window is opened per VAS instance. NX pastes fault CRB in fault * FIFO upon page faults. */ int vas_setup_fault_window(struct vas_instance *vinst) { struct vas_rx_win_attr attr; vinst->fault_fifo_size = VAS_FAULT_WIN_FIFO_SIZE; vinst->fault_fifo = kzalloc(vinst->fault_fifo_size, GFP_KERNEL); if (!vinst->fault_fifo) { pr_err("Unable to alloc %d bytes for fault_fifo\n", vinst->fault_fifo_size); return -ENOMEM; } /* * Invalidate all CRB entries. NX pastes valid entry for each fault. */ memset(vinst->fault_fifo, FIFO_INVALID_ENTRY, vinst->fault_fifo_size); vas_init_rx_win_attr(&attr, VAS_COP_TYPE_FAULT); attr.rx_fifo_size = vinst->fault_fifo_size; attr.rx_fifo = vinst->fault_fifo; /* * Max creds is based on number of CRBs can fit in the FIFO. * (fault_fifo_size/CRB_SIZE). If 8MB FIFO is used, max creds * will be 0xffff since the receive creds field is 16bits wide. */ attr.wcreds_max = vinst->fault_fifo_size / CRB_SIZE; attr.lnotify_lpid = 0; attr.lnotify_pid = mfspr(SPRN_PID); attr.lnotify_tid = mfspr(SPRN_PID); vinst->fault_win = vas_rx_win_open(vinst->vas_id, VAS_COP_TYPE_FAULT, &attr); if (IS_ERR(vinst->fault_win)) { pr_err("VAS: Error %ld opening FaultWin\n", PTR_ERR(vinst->fault_win)); kfree(vinst->fault_fifo); return PTR_ERR(vinst->fault_win); } pr_devel("VAS: Created FaultWin %d, LPID/PID/TID [%d/%d/%d]\n", vinst->fault_win->winid, attr.lnotify_lpid, attr.lnotify_pid, attr.lnotify_tid); return 0; }