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158 lines
6.9 KiB
C
158 lines
6.9 KiB
C
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/*
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* Copyright (C) 2013 Luigi Rizzo. 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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#ifndef NET_PARAVIRT_H
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#define NET_PARAVIRT_H
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/*
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* $FreeBSD$
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*
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Support for virtio-like communication between host (H) and guest (G) NICs.
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THIS IS EXPERIMENTAL CODE AND SUBJECT TO CHANGE.
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The guest allocates the shared Communication Status Block (csb) and
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write its physical address at CSBAL and CSBAH (data is little endian).
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csb->csb_on enables the mode. If disabled, the device acts a regular one.
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Notifications for tx and rx are exchanged without vm exits
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if possible. In particular (only mentioning csb mode below),
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the following actions are performed. In the description below,
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"double check" means verifying again the condition that caused
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the previous action, and reverting the action if the condition has
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changed. The condition typically depends on a variable set by the
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other party, and the double check is done to avoid races. E.g.
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// start with A=0
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again:
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// do something
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if ( cond(C) ) { // C is written by the other side
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A = 1;
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// barrier
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if ( !cond(C) ) {
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A = 0;
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goto again;
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}
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}
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TX: start from idle:
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H starts with host_need_txkick=1 when the I/O thread bh is idle. Upon new
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transmissions, G always updates guest_tdt. If host_need_txkick == 1,
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G also writes to the TDT, which acts as a kick to H (so pending
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writes are always dispatched to H as soon as possible.)
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TX: active state:
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On the kick (TDT write) H sets host_need_txkick == 0 (if not
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done already by G), and starts an I/O thread trying to consume
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packets from TDH to guest_tdt, periodically refreshing host_tdh
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and TDH. When host_tdh == guest_tdt, H sets host_need_txkick=1,
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and then does the "double check" for race avoidance.
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TX: G runs out of buffers
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XXX there are two mechanisms, one boolean (using guest_need_txkick)
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and one with a threshold (using guest_txkick_at). They are mutually
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exclusive.
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BOOLEAN: when G has no space, it sets guest_need_txkick=1 and does
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the double check. If H finds guest_need_txkick== 1 on a write
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to TDH, it also generates an interrupt.
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THRESHOLD: G sets guest_txkick_at to the TDH value for which it
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wants to receive an interrupt. When H detects that TDH moves
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across guest_txkick_at, it generates an interrupt.
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This second mechanism reduces the number of interrupts and
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TDT writes on the transmit side when the host is too slow.
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RX: start from idle
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G starts with guest_need_rxkick = 1 when the receive ring is empty.
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As packets arrive, H updates host_rdh (and RDH) and also generates an
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interrupt when guest_need_rxkick == 1 (so incoming packets are
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always reported to G as soon as possible, apart from interrupt
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moderation delays). It also tracks guest_rdt for new buffers.
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RX: active state
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As the interrupt arrives, G sets guest_need_rxkick = 0 and starts
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draining packets from the receive ring, while updating guest_rdt
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When G runs out of packets it sets guest_need_rxkick=1 and does the
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double check.
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RX: H runs out of buffers
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XXX there are two mechanisms, one boolean (using host_need_rxkick)
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and one with a threshold (using host_xxkick_at). They are mutually
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exclusive.
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BOOLEAN: when H has no space, it sets host_need_rxkick=1 and does the
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double check. If G finds host_need_rxkick==1 on updating guest_rdt,
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it also writes to RDT causing a kick to H.
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THRESHOLD: H sets host_rxkick_at to the RDT value for which it wants
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to receive a kick. When G detects that guest_rdt moves across
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host_rxkick_at, it writes to RDT thus generates a kick.
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This second mechanism reduces the number of kicks and
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RDT writes on the receive side when the guest is too slow and
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would free only a few buffers at a time.
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*/
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struct paravirt_csb {
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/* XXX revise the layout to minimize cache bounces.
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* Usage is described as follows:
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* [GH][RW][+-0] guest/host reads/writes frequently/rarely/almost never
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*/
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/* these are (mostly) written by the guest */
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uint32_t guest_tdt; /* GW+ HR+ pkt to transmit */
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uint32_t guest_need_txkick; /* GW- HR+ G ran out of tx bufs, request kick */
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uint32_t guest_need_rxkick; /* GW- HR+ G ran out of rx pkts, request kick */
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uint32_t guest_csb_on; /* GW- HR+ enable paravirtual mode */
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uint32_t guest_rdt; /* GW+ HR+ rx buffers available */
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uint32_t guest_txkick_at; /* GW- HR+ tx ring pos. where G expects an intr */
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uint32_t guest_use_msix; /* GW0 HR0 guest uses MSI-X interrupts. */
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uint32_t pad[9];
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/* these are (mostly) written by the host */
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uint32_t host_tdh; /* GR0 HW- shadow register, mostly unused */
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uint32_t host_need_txkick; /* GR+ HW- start the iothread */
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uint32_t host_txcycles_lim; /* GW- HR- how much to spin before sleep.
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* set by the guest */
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uint32_t host_txcycles; /* GR0 HW- counter, but no need to be exported */
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uint32_t host_rdh; /* GR0 HW- shadow register, mostly unused */
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uint32_t host_need_rxkick; /* GR+ HW- flush rx queued packets */
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uint32_t host_isr; /* GR* HW* shadow copy of ISR */
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uint32_t host_rxkick_at; /* GR+ HW- rx ring pos where H expects a kick */
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uint32_t vnet_ring_high; /* Vnet ring physical address high. */
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uint32_t vnet_ring_low; /* Vnet ring physical address low. */
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};
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#define NET_PARAVIRT_CSB_SIZE 4096
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#define NET_PARAVIRT_NONE (~((uint32_t)0))
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#ifdef QEMU_PCI_H
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/*
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* API functions only available within QEMU
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*/
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void paravirt_configure_csb(struct paravirt_csb** csb, uint32_t csbbal,
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uint32_t csbbah, QEMUBH* tx_bh, AddressSpace *as);
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#endif /* QEMU_PCI_H */
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#endif /* NET_PARAVIRT_H */
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