eff8c9eb56
- use PCI_VENDOR and PCI_DEVICE ids from a publicly allocated range (thanks to RedHat) - export memory pool information through PCI registers - improve mechanism for configuring passthrough on different hypervisors Code is from Vincenzo Maffione as a follow up to his GSOC work.
306 lines
11 KiB
C
306 lines
11 KiB
C
/*
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* Copyright (C) 2013-2016 Luigi Rizzo
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* Copyright (C) 2013-2016 Giuseppe Lettieri
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* Copyright (C) 2013-2016 Vincenzo Maffione
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* Copyright (C) 2015 Stefano Garzarella
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* All rights reserved.
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*
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* Redistribution and use in source and binary forms, with or without
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* modification, are permitted provided that the following conditions
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* are met:
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* 1. Redistributions of source code must retain the above copyright
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* notice, this list of conditions and the following disclaimer.
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* 2. Redistributions in binary form must reproduce the above copyright
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* notice, this list of conditions and the following disclaimer in the
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* documentation and/or other materials provided with the distribution.
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*
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* THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND
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* ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
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* IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
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* ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE
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* FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
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* DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
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* OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
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* HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
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* LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
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* OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
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* SUCH DAMAGE.
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*
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* $FreeBSD$
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*/
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#ifndef NETMAP_VIRT_H
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#define NETMAP_VIRT_H
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/*
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* ptnetmap_memdev: device used to expose memory into the guest VM
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*
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* These macros are used in the hypervisor frontend (QEMU, bhyve) and in the
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* guest device driver.
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*/
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/* PCI identifiers and PCI BARs for the ptnetmap memdev
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* and ptnetmap network interface. */
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#define PTNETMAP_MEMDEV_NAME "ptnetmap-memdev"
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#define PTNETMAP_PCI_VENDOR_ID 0x1b36 /* QEMU virtual devices */
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#define PTNETMAP_PCI_DEVICE_ID 0x000c /* memory device */
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#define PTNETMAP_PCI_NETIF_ID 0x000d /* ptnet network interface */
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#define PTNETMAP_IO_PCI_BAR 0
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#define PTNETMAP_MEM_PCI_BAR 1
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#define PTNETMAP_MSIX_PCI_BAR 2
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/* Registers for the ptnetmap memdev */
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#define PTNET_MDEV_IO_MEMSIZE_LO 0 /* netmap memory size (low) */
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#define PTNET_MDEV_IO_MEMSIZE_HI 4 /* netmap_memory_size (high) */
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#define PTNET_MDEV_IO_MEMID 8 /* memory allocator ID in the host */
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#define PTNET_MDEV_IO_IF_POOL_OFS 64
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#define PTNET_MDEV_IO_IF_POOL_OBJNUM 68
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#define PTNET_MDEV_IO_IF_POOL_OBJSZ 72
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#define PTNET_MDEV_IO_RING_POOL_OFS 76
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#define PTNET_MDEV_IO_RING_POOL_OBJNUM 80
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#define PTNET_MDEV_IO_RING_POOL_OBJSZ 84
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#define PTNET_MDEV_IO_BUF_POOL_OFS 88
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#define PTNET_MDEV_IO_BUF_POOL_OBJNUM 92
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#define PTNET_MDEV_IO_BUF_POOL_OBJSZ 96
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#define PTNET_MDEV_IO_END 100
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/*
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* ptnetmap configuration
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*
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* The ptnet kthreads (running in host kernel-space) need to be configured
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* in order to know how to intercept guest kicks (I/O register writes) and
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* how to inject MSI-X interrupts to the guest. The configuration may vary
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* depending on the hypervisor. Currently, we support QEMU/KVM on Linux and
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* and bhyve on FreeBSD.
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* The configuration is passed by the hypervisor to the host netmap module
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* by means of an ioctl() with nr_cmd=NETMAP_PT_HOST_CREATE, and it is
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* specified by the ptnetmap_cfg struct. This struct contains an header
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* with general informations and an array of entries whose size depends
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* on the hypervisor. The NETMAP_PT_HOST_CREATE command is issued every
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* time the kthreads are started.
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*/
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struct ptnetmap_cfg {
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#define PTNETMAP_CFGTYPE_QEMU 0x1
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#define PTNETMAP_CFGTYPE_BHYVE 0x2
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uint16_t cfgtype; /* how to interpret the cfg entries */
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uint16_t entry_size; /* size of a config entry */
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uint32_t num_rings; /* number of config entries */
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void *ptrings; /* ptrings inside CSB */
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/* Configuration entries are allocated right after the struct. */
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};
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/* Configuration of a ptnetmap ring for QEMU. */
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struct ptnetmap_cfgentry_qemu {
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uint32_t ioeventfd; /* to intercept guest register access */
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uint32_t irqfd; /* to inject guest interrupts */
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};
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/* Configuration of a ptnetmap ring for bhyve. */
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struct ptnetmap_cfgentry_bhyve {
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uint64_t wchan; /* tsleep() parameter, to wake up kthread */
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uint32_t ioctl_fd; /* ioctl fd */
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/* ioctl parameters to send irq */
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uint32_t ioctl_cmd;
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/* vmm.ko MSIX parameters for IOCTL */
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struct {
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uint64_t msg_data;
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uint64_t addr;
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} ioctl_data;
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};
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/*
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* Structure filled-in by the kernel when asked for allocator info
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* through NETMAP_POOLS_INFO_GET. Used by hypervisors supporting
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* ptnetmap.
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*/
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struct netmap_pools_info {
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uint64_t memsize; /* same as nmr->nr_memsize */
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uint32_t memid; /* same as nmr->nr_arg2 */
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uint32_t if_pool_offset;
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uint32_t if_pool_objtotal;
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uint32_t if_pool_objsize;
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uint32_t ring_pool_offset;
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uint32_t ring_pool_objtotal;
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uint32_t ring_pool_objsize;
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uint32_t buf_pool_offset;
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uint32_t buf_pool_objtotal;
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uint32_t buf_pool_objsize;
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};
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/*
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* Pass a pointer to a userspace buffer to be passed to kernelspace for write
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* or read. Used by NETMAP_PT_HOST_CREATE and NETMAP_POOLS_INFO_GET.
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*/
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static inline void
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nmreq_pointer_put(struct nmreq *nmr, void *userptr)
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{
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uintptr_t *pp = (uintptr_t *)&nmr->nr_arg1;
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*pp = (uintptr_t)userptr;
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}
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/* ptnetmap features */
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#define PTNETMAP_F_VNET_HDR 1
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/* I/O registers for the ptnet device. */
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#define PTNET_IO_PTFEAT 0
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#define PTNET_IO_PTCTL 4
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#define PTNET_IO_MAC_LO 8
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#define PTNET_IO_MAC_HI 12
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#define PTNET_IO_CSBBAH 16
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#define PTNET_IO_CSBBAL 20
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#define PTNET_IO_NIFP_OFS 24
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#define PTNET_IO_NUM_TX_RINGS 28
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#define PTNET_IO_NUM_RX_RINGS 32
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#define PTNET_IO_NUM_TX_SLOTS 36
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#define PTNET_IO_NUM_RX_SLOTS 40
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#define PTNET_IO_VNET_HDR_LEN 44
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#define PTNET_IO_HOSTMEMID 48
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#define PTNET_IO_END 52
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#define PTNET_IO_KICK_BASE 128
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#define PTNET_IO_MASK 0xff
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/* ptnetmap control commands (values for PTCTL register) */
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#define PTNETMAP_PTCTL_CREATE 1
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#define PTNETMAP_PTCTL_DELETE 2
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/* If defined, CSB is allocated by the guest, not by the host. */
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#define PTNET_CSB_ALLOC
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/* ptnetmap ring fields shared between guest and host */
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struct ptnet_ring {
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/* XXX revise the layout to minimize cache bounces. */
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uint32_t head; /* GW+ HR+ the head of the guest netmap_ring */
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uint32_t cur; /* GW+ HR+ the cur of the guest netmap_ring */
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uint32_t guest_need_kick; /* GW+ HR+ host-->guest notification enable */
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uint32_t sync_flags; /* GW+ HR+ the flags of the guest [tx|rx]sync() */
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uint32_t hwcur; /* GR+ HW+ the hwcur of the host netmap_kring */
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uint32_t hwtail; /* GR+ HW+ the hwtail of the host netmap_kring */
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uint32_t host_need_kick; /* GR+ HW+ guest-->host notification enable */
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char pad[4];
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};
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/* CSB for the ptnet device. */
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struct ptnet_csb {
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#define NETMAP_VIRT_CSB_SIZE 4096
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struct ptnet_ring rings[NETMAP_VIRT_CSB_SIZE/sizeof(struct ptnet_ring)];
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};
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#ifdef WITH_PTNETMAP_GUEST
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/* ptnetmap_memdev routines used to talk with ptnetmap_memdev device driver */
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struct ptnetmap_memdev;
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int nm_os_pt_memdev_iomap(struct ptnetmap_memdev *, vm_paddr_t *, void **,
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uint64_t *);
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void nm_os_pt_memdev_iounmap(struct ptnetmap_memdev *);
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uint32_t nm_os_pt_memdev_ioread(struct ptnetmap_memdev *, unsigned int);
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/* Guest driver: Write kring pointers (cur, head) to the CSB.
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* This routine is coupled with ptnetmap_host_read_kring_csb(). */
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static inline void
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ptnetmap_guest_write_kring_csb(struct ptnet_ring *ptr, uint32_t cur,
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uint32_t head)
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{
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/*
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* We need to write cur and head to the CSB but we cannot do it atomically.
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* There is no way we can prevent the host from reading the updated value
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* of one of the two and the old value of the other. However, if we make
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* sure that the host never reads a value of head more recent than the
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* value of cur we are safe. We can allow the host to read a value of cur
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* more recent than the value of head, since in the netmap ring cur can be
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* ahead of head and cur cannot wrap around head because it must be behind
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* tail. Inverting the order of writes below could instead result into the
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* host to think head went ahead of cur, which would cause the sync
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* prologue to fail.
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*
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* The following memory barrier scheme is used to make this happen:
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*
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* Guest Host
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*
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* STORE(cur) LOAD(head)
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* mb() <-----------> mb()
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* STORE(head) LOAD(cur)
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*/
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ptr->cur = cur;
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mb();
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ptr->head = head;
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}
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/* Guest driver: Read kring pointers (hwcur, hwtail) from the CSB.
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* This routine is coupled with ptnetmap_host_write_kring_csb(). */
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static inline void
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ptnetmap_guest_read_kring_csb(struct ptnet_ring *ptr, struct netmap_kring *kring)
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{
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/*
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* We place a memory barrier to make sure that the update of hwtail never
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* overtakes the update of hwcur.
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* (see explanation in ptnetmap_host_write_kring_csb).
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*/
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kring->nr_hwtail = ptr->hwtail;
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mb();
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kring->nr_hwcur = ptr->hwcur;
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}
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#endif /* WITH_PTNETMAP_GUEST */
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#ifdef WITH_PTNETMAP_HOST
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/*
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* ptnetmap kernel thread routines
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* */
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/* Functions to read and write CSB fields in the host */
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#if defined (linux)
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#define CSB_READ(csb, field, r) (get_user(r, &csb->field))
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#define CSB_WRITE(csb, field, v) (put_user(v, &csb->field))
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#else /* ! linux */
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#define CSB_READ(csb, field, r) (r = fuword32(&csb->field))
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#define CSB_WRITE(csb, field, v) (suword32(&csb->field, v))
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#endif /* ! linux */
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/* Host netmap: Write kring pointers (hwcur, hwtail) to the CSB.
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* This routine is coupled with ptnetmap_guest_read_kring_csb(). */
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static inline void
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ptnetmap_host_write_kring_csb(struct ptnet_ring __user *ptr, uint32_t hwcur,
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uint32_t hwtail)
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{
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/*
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* The same scheme used in ptnetmap_guest_write_kring_csb() applies here.
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* We allow the guest to read a value of hwcur more recent than the value
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* of hwtail, since this would anyway result in a consistent view of the
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* ring state (and hwcur can never wraparound hwtail, since hwcur must be
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* behind head).
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*
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* The following memory barrier scheme is used to make this happen:
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*
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* Guest Host
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*
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* STORE(hwcur) LOAD(hwtail)
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* mb() <-------------> mb()
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* STORE(hwtail) LOAD(hwcur)
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*/
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CSB_WRITE(ptr, hwcur, hwcur);
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mb();
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CSB_WRITE(ptr, hwtail, hwtail);
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}
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/* Host netmap: Read kring pointers (head, cur, sync_flags) from the CSB.
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* This routine is coupled with ptnetmap_guest_write_kring_csb(). */
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static inline void
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ptnetmap_host_read_kring_csb(struct ptnet_ring __user *ptr,
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struct netmap_ring *shadow_ring,
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uint32_t num_slots)
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{
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/*
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* We place a memory barrier to make sure that the update of head never
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* overtakes the update of cur.
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* (see explanation in ptnetmap_guest_write_kring_csb).
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*/
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CSB_READ(ptr, head, shadow_ring->head);
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mb();
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CSB_READ(ptr, cur, shadow_ring->cur);
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CSB_READ(ptr, sync_flags, shadow_ring->flags);
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}
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#endif /* WITH_PTNETMAP_HOST */
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#endif /* NETMAP_VIRT_H */
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