/* * This file is part of the Palacios Virtual Machine Monitor developed * by the V3VEE Project with funding from the United States National * Science Foundation and the Department of Energy. * * The V3VEE Project is a joint project between Northwestern University * and the University of New Mexico. You can find out more at * http://www.v3vee.org * * Copyright (c) 2008, Jack Lange * Copyright (c) 2008, The V3VEE Project * All rights reserved. * * Author: Jack Lange * * This is free software. You are permitted to use, * redistribute, and modify it as specified in the file "V3VEE_LICENSE". */ #include #include #include #include #include #define BLN_REQUESTED_PORT 20 #define BLN_ALLOCATED_PORT 28 #define PAGE_SIZE 4096 #define BALLOON_HCALL 0xba00 struct balloon_config { uint32_t requested_pages; uint32_t allocated_pages; } __attribute__((packed)); /* How this works: * A ballooning request is made by specifying the new memory size of the guest. The guest * will then shrink the amount of of memory it uses to target. The target size is stored in the * Virtio PCI configuration space in the requested pages field. The device raises its irq, to notify the guest * * The guest might not be able to shrink to target, so it stores the size it was able to shrink to * into the allocate_pages field of the pci configuration space. * * When the guest frees pages it writes the addresses to the deflation queue (the 2nd one), and does a kick. * When pages are given back to the host they are fed in via the inflation queue (the 1st one), and raises an irq. */ #define QUEUE_SIZE 128 /* Host Feature flags */ #define VIRTIO_NOTIFY_HOST 0x01 struct virtio_balloon_state { struct balloon_config balloon_cfg; struct virtio_config virtio_cfg; struct vm_device * pci_bus; struct pci_device * pci_dev; struct virtio_queue queue[2]; struct virtio_queue * cur_queue; int io_range_size; }; static int virtio_free(struct vm_device * dev) { return -1; } static int virtio_reset(struct vm_device * dev) { struct virtio_balloon_state * virtio = (struct virtio_balloon_state *)dev->private_data; memset(virtio->queue, 0, sizeof(struct virtio_queue) * 2); virtio->cur_queue = &(virtio->queue[0]); virtio->virtio_cfg.status = 0; virtio->virtio_cfg.pci_isr = 0; /* Balloon configuration */ virtio->virtio_cfg.host_features = VIRTIO_NOTIFY_HOST; // Virtio Balloon uses two queues virtio->queue[0].queue_size = QUEUE_SIZE; virtio->queue[1].queue_size = QUEUE_SIZE; memset(&(virtio->balloon_cfg), 0, sizeof(struct balloon_config)); return 0; } static int handle_kick(struct vm_device * dev) { struct virtio_balloon_state * virtio = (struct virtio_balloon_state *)dev->private_data; struct virtio_queue * q = virtio->cur_queue; PrintDebug("VIRTIO KICK: cur_index=%d, avail_index=%d\n", q->cur_avail_idx, q->avail->index); while (q->cur_avail_idx < q->avail->index) { struct vring_desc * hdr_desc = NULL; struct vring_desc * buf_desc = NULL; struct vring_desc * status_desc = NULL; uint16_t chain_idx = q->avail->ring[q->cur_avail_idx]; uint32_t req_len = 0; int chained = 1; PrintDebug("chained=%d, Chain Index=%d\n", chained, chain_idx); while (chained) { hdr_desc = &(q->desc[chain_idx]); PrintDebug("Header Descriptor (ptr=%p) gpa=%p, len=%d, flags=%x, next=%d\n", hdr_desc, (void *)(hdr_desc->addr_gpa), hdr_desc->length, hdr_desc->flags, hdr_desc->next); if (!(hdr_desc->flags & VIRTIO_NEXT_FLAG)) { PrintError("Balloon operations must chain a buffer descriptor\n"); return -1; } buf_desc = &(q->desc[hdr_desc->next]); PrintDebug("Buffer Descriptor (ptr=%p) gpa=%p, len=%d, flags=%x, next=%d\n", buf_desc, (void *)(buf_desc->addr_gpa), buf_desc->length, buf_desc->flags, buf_desc->next); if (!(buf_desc->flags & VIRTIO_NEXT_FLAG)) { PrintError("Balloon operatoins must chain a status descriptor\n"); return -1; } status_desc = &(q->desc[buf_desc->next]); // We detect whether we are chained here... if (status_desc->flags & VIRTIO_NEXT_FLAG) { chained = 1; chain_idx = status_desc->next; } else { chained = 0; } PrintDebug("Status Descriptor (ptr=%p) gpa=%p, len=%d, flags=%x, next=%d\n", status_desc, (void *)(status_desc->addr_gpa), status_desc->length, status_desc->flags, status_desc->next); /* if (handle_balloon_op(dev, hdr_desc, buf_desc, status_desc) == -1) { PrintError("Error handling balloon operation\n"); return -1; } */ PrintDebug("Guest Balloon Currently Ignored\n"); PrintDebug("\t Requested=%d, Allocated=%d\n", virtio->balloon_cfg.requested_pages, virtio->balloon_cfg.allocated_pages); req_len += (buf_desc->length + status_desc->length); } q->used->ring[q->used->index].id = q->avail->ring[q->cur_avail_idx]; q->used->ring[q->used->index].length = req_len; // What do we set this to???? q->used->index = (q->used->index + 1) % (QUEUE_SIZE * sizeof(struct vring_desc));; q->cur_avail_idx = (q->cur_avail_idx + 1) % (QUEUE_SIZE * sizeof(struct vring_desc)); } if (!(q->avail->flags & VIRTIO_NO_IRQ_FLAG)) { PrintDebug("Raising IRQ %d\n", virtio->pci_dev->config_header.intr_line); v3_pci_raise_irq(virtio->pci_bus, 0, virtio->pci_dev); virtio->virtio_cfg.pci_isr = 1; } return 0; } static int virtio_io_write(uint16_t port, void * src, uint_t length, struct vm_device * dev) { struct virtio_balloon_state * virtio = (struct virtio_balloon_state *)dev->private_data; int port_idx = port % virtio->io_range_size; PrintDebug("VIRTIO BALLOON Write for port %d (index=%d) len=%d, value=%x\n", port, port_idx, length, *(uint32_t *)src); switch (port_idx) { case GUEST_FEATURES_PORT: if (length != 4) { PrintError("Illegal write length for guest features\n"); return -1; } virtio->virtio_cfg.guest_features = *(uint32_t *)src; break; case VRING_PG_NUM_PORT: if (length == 4) { addr_t pfn = *(uint32_t *)src; addr_t page_addr = (pfn << VIRTIO_PAGE_SHIFT); virtio->cur_queue->pfn = pfn; virtio->cur_queue->ring_desc_addr = page_addr ; virtio->cur_queue->ring_avail_addr = page_addr + (QUEUE_SIZE * sizeof(struct vring_desc)); virtio->cur_queue->ring_used_addr = ( virtio->cur_queue->ring_avail_addr + \ sizeof(struct vring_avail) + \ (QUEUE_SIZE * sizeof(uint16_t))); // round up to next page boundary. virtio->cur_queue->ring_used_addr = (virtio->cur_queue->ring_used_addr + 0xfff) & ~0xfff; if (guest_pa_to_host_va(dev->vm, virtio->cur_queue->ring_desc_addr, (addr_t *)&(virtio->cur_queue->desc)) == -1) { PrintError("Could not translate ring descriptor address\n"); return -1; } if (guest_pa_to_host_va(dev->vm, virtio->cur_queue->ring_avail_addr, (addr_t *)&(virtio->cur_queue->avail)) == -1) { PrintError("Could not translate ring available address\n"); return -1; } if (guest_pa_to_host_va(dev->vm, virtio->cur_queue->ring_used_addr, (addr_t *)&(virtio->cur_queue->used)) == -1) { PrintError("Could not translate ring used address\n"); return -1; } PrintDebug("RingDesc_addr=%p, Avail_addr=%p, Used_addr=%p\n", (void *)(virtio->cur_queue->ring_desc_addr), (void *)(virtio->cur_queue->ring_avail_addr), (void *)(virtio->cur_queue->ring_used_addr)); PrintDebug("RingDesc=%p, Avail=%p, Used=%p\n", virtio->cur_queue->desc, virtio->cur_queue->avail, virtio->cur_queue->used); } else { PrintError("Illegal write length for page frame number\n"); return -1; } break; case VRING_Q_SEL_PORT: virtio->virtio_cfg.vring_queue_selector = *(uint16_t *)src; if (virtio->virtio_cfg.vring_queue_selector > 1) { PrintError("Virtio Balloon device only uses 2 queue, selected %d\n", virtio->virtio_cfg.vring_queue_selector); return -1; } virtio->cur_queue = &(virtio->queue[virtio->virtio_cfg.vring_queue_selector]); break; case VRING_Q_NOTIFY_PORT: PrintDebug("Handling Kick\n"); if (handle_kick(dev) == -1) { PrintError("Could not handle Balloon Notification\n"); return -1; } break; case VIRTIO_STATUS_PORT: virtio->virtio_cfg.status = *(uint8_t *)src; if (virtio->virtio_cfg.status == 0) { PrintDebug("Resetting device\n"); virtio_reset(dev); } break; case VIRTIO_ISR_PORT: virtio->virtio_cfg.pci_isr = *(uint8_t *)src; break; default: return -1; break; } return length; } static int virtio_io_read(uint16_t port, void * dst, uint_t length, struct vm_device * dev) { struct virtio_balloon_state * virtio = (struct virtio_balloon_state *)dev->private_data; int port_idx = port % virtio->io_range_size; PrintDebug("VIRTIO BALLOON Read for port %d (index =%d), length=%d\n", port, port_idx, length); switch (port_idx) { case HOST_FEATURES_PORT: if (length != 4) { PrintError("Illegal read length for host features\n"); return -1; } *(uint32_t *)dst = virtio->virtio_cfg.host_features; break; case VRING_PG_NUM_PORT: if (length != 4) { PrintError("Illegal read length for page frame number\n"); return -1; } *(uint32_t *)dst = virtio->cur_queue->pfn; break; case VRING_SIZE_PORT: if (length != 2) { PrintError("Illegal read length for vring size\n"); return -1; } *(uint16_t *)dst = virtio->cur_queue->queue_size; break; case VIRTIO_STATUS_PORT: if (length != 1) { PrintError("Illegal read length for status\n"); return -1; } *(uint8_t *)dst = virtio->virtio_cfg.status; break; case VIRTIO_ISR_PORT: *(uint8_t *)dst = virtio->virtio_cfg.pci_isr; virtio->virtio_cfg.pci_isr = 0; v3_pci_lower_irq(virtio->pci_bus, 0, virtio->pci_dev); break; default: if ( (port_idx >= sizeof(struct virtio_config)) && (port_idx < (sizeof(struct virtio_config) + sizeof(struct balloon_config))) ) { uint8_t * cfg_ptr = (uint8_t *)&(virtio->balloon_cfg); memcpy(dst, cfg_ptr, length); } else { PrintError("Read of Unhandled Virtio Read\n"); return -1; } break; } return length; } static struct v3_device_ops dev_ops = { .free = virtio_free, .reset = NULL, .start = NULL, .stop = NULL, }; static int set_size(struct vm_device * dev, addr_t size) { struct virtio_balloon_state * virtio = (struct virtio_balloon_state *)dev->private_data; virtio->balloon_cfg.requested_pages = size / PAGE_SIZE; // number of pages v3_pci_raise_irq(virtio->pci_bus, 0, virtio->pci_dev); return 0; } static int handle_hcall(struct guest_info * info, uint_t hcall_id, void * priv_data) { struct vm_device * dev = (struct vm_device *)priv_data; int tgt_size = info->vm_regs.rcx; return set_size(dev, tgt_size); } static int virtio_init(struct guest_info * vm, void * cfg_data) { struct vm_device * pci_bus = v3_find_dev(vm, (char *)cfg_data); struct virtio_balloon_state * virtio_state = NULL; struct pci_device * pci_dev = NULL; PrintDebug("Initializing VIRTIO Balloon device\n"); if (pci_bus == NULL) { PrintError("VirtIO devices require a PCI Bus"); return -1; } virtio_state = (struct virtio_balloon_state *)V3_Malloc(sizeof(struct virtio_balloon_state)); memset(virtio_state, 0, sizeof(struct virtio_balloon_state)); struct vm_device * dev = v3_allocate_device("LNX_VIRTIO_BALLOON", &dev_ops, virtio_state); if (v3_attach_device(vm, dev) == -1) { PrintError("Could not attach device %s\n", "LNX_VIRTIO_BALLOON"); return -1; } // PCI initialization { struct v3_pci_bar bars[6]; int num_ports = sizeof(struct virtio_config) + sizeof(struct balloon_config); int tmp_ports = num_ports; int i; // This gets the number of ports, rounded up to a power of 2 virtio_state->io_range_size = 1; // must be a power of 2 while (tmp_ports > 0) { tmp_ports >>= 1; virtio_state->io_range_size <<= 1; } // this is to account for any low order bits being set in num_ports // if there are none, then num_ports was already a power of 2 so we shift right to reset it if ((num_ports & ((virtio_state->io_range_size >> 1) - 1)) == 0) { virtio_state->io_range_size >>= 1; } for (i = 0; i < 6; i++) { bars[i].type = PCI_BAR_NONE; } bars[0].type = PCI_BAR_IO; bars[0].default_base_port = -1; bars[0].num_ports = virtio_state->io_range_size; bars[0].io_read = virtio_io_read; bars[0].io_write = virtio_io_write; pci_dev = v3_pci_register_device(pci_bus, PCI_STD_DEVICE, 0, PCI_AUTO_DEV_NUM, 0, "LNX_VIRTIO_BALLOON", bars, NULL, NULL, NULL, dev); if (!pci_dev) { PrintError("Could not register PCI Device\n"); return -1; } pci_dev->config_header.vendor_id = VIRTIO_VENDOR_ID; pci_dev->config_header.subsystem_vendor_id = VIRTIO_SUBVENDOR_ID; pci_dev->config_header.device_id = VIRTIO_BALLOON_DEV_ID; pci_dev->config_header.class = PCI_CLASS_MEMORY; pci_dev->config_header.subclass = PCI_MEM_SUBCLASS_RAM; pci_dev->config_header.subsystem_id = VIRTIO_BALLOON_SUBDEVICE_ID; pci_dev->config_header.intr_pin = 1; pci_dev->config_header.max_latency = 1; // ?? (qemu does it...) virtio_state->pci_dev = pci_dev; virtio_state->pci_bus = pci_bus; } virtio_reset(dev); v3_register_hypercall(vm, BALLOON_HCALL, handle_hcall, dev); return 0; } device_register("LNX_VIRTIO_BALLOON", virtio_init)