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author | Peter Maydell <peter.maydell@linaro.org> | 2016-03-23 12:57:44 +0000 |
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committer | Peter Maydell <peter.maydell@linaro.org> | 2016-03-23 12:57:44 +0000 |
commit | 2538039f2c26d66053426fb547e4f25e669baf62 (patch) | |
tree | 28decfaf0c61e206bc286cfc7b014eee058be222 /docs | |
parent | ffa6564c9b13cea4b704e184d29d721f2cb061bb (diff) | |
parent | a335c6f204eefba8ff935bcee8f31f51d2174119 (diff) | |
download | qemu-2538039f2c26d66053426fb547e4f25e669baf62.tar.gz qemu-2538039f2c26d66053426fb547e4f25e669baf62.tar.bz2 qemu-2538039f2c26d66053426fb547e4f25e669baf62.zip |
Merge remote-tracking branch 'remotes/armbru/tags/pull-ivshmem-2016-03-18' into staging
ivshmem: Fixes, cleanups, device model split
# gpg: Signature made Mon 21 Mar 2016 20:33:54 GMT using RSA key ID EB918653
# gpg: Good signature from "Markus Armbruster <armbru@redhat.com>"
# gpg: aka "Markus Armbruster <armbru@pond.sub.org>"
* remotes/armbru/tags/pull-ivshmem-2016-03-18: (40 commits)
contrib/ivshmem-server: Print "not for production" warning
ivshmem: Require master to have ID zero
ivshmem: Drop ivshmem property x-memdev
ivshmem: Clean up after the previous commit
ivshmem: Split ivshmem-plain, ivshmem-doorbell off ivshmem
ivshmem: Replace int role_val by OnOffAuto master
qdev: New DEFINE_PROP_ON_OFF_AUTO
ivshmem: Inline check_shm_size() into its only caller
ivshmem: Simplify memory regions for BAR 2 (shared memory)
ivshmem: Implement shm=... with a memory backend
ivshmem: Tighten check of property "size"
ivshmem: Simplify how we cope with short reads from server
ivshmem: Drop the hackish test for UNIX domain chardev
ivshmem: Rely on server sending the ID right after the version
ivshmem: Propagate errors through ivshmem_recv_setup()
ivshmem: Receive shared memory synchronously in realize()
ivshmem: Plug leaks on unplug, fix peer disconnect
ivshmem: Disentangle ivshmem_read()
ivshmem: Simplify rejection of invalid peer ID from server
ivshmem: Assert interrupts are set up once
...
Signed-off-by: Peter Maydell <peter.maydell@linaro.org>
Diffstat (limited to 'docs')
-rw-r--r-- | docs/specs/ivshmem-spec.txt | 254 | ||||
-rw-r--r-- | docs/specs/ivshmem_device_spec.txt | 161 |
2 files changed, 254 insertions, 161 deletions
diff --git a/docs/specs/ivshmem-spec.txt b/docs/specs/ivshmem-spec.txt new file mode 100644 index 0000000000..a1f5499796 --- /dev/null +++ b/docs/specs/ivshmem-spec.txt @@ -0,0 +1,254 @@ += Device Specification for Inter-VM shared memory device = + +The Inter-VM shared memory device (ivshmem) is designed to share a +memory region between multiple QEMU processes running different guests +and the host. In order for all guests to be able to pick up the +shared memory area, it is modeled by QEMU as a PCI device exposing +said memory to the guest as a PCI BAR. + +The device can use a shared memory object on the host directly, or it +can obtain one from an ivshmem server. + +In the latter case, the device can additionally interrupt its peers, and +get interrupted by its peers. + + +== Configuring the ivshmem PCI device == + +There are two basic configurations: + +- Just shared memory: -device ivshmem-plain,memdev=HMB,... + + This uses host memory backend HMB. It should have option "share" + set. + +- Shared memory plus interrupts: -device ivshmem,chardev=CHR,vectors=N,... + + An ivshmem server must already be running on the host. The device + connects to the server's UNIX domain socket via character device + CHR. + + Each peer gets assigned a unique ID by the server. IDs must be + between 0 and 65535. + + Interrupts are message-signaled (MSI-X). vectors=N configures the + number of vectors to use. + +For more details on ivshmem device properties, see The QEMU Emulator +User Documentation (qemu-doc.*). + + +== The ivshmem PCI device's guest interface == + +The device has vendor ID 1af4, device ID 1110, revision 1. Before +QEMU 2.6.0, it had revision 0. + +=== PCI BARs === + +The ivshmem PCI device has two or three BARs: + +- BAR0 holds device registers (256 Byte MMIO) +- BAR1 holds MSI-X table and PBA (only ivshmem-doorbell) +- BAR2 maps the shared memory object + +There are two ways to use this device: + +- If you only need the shared memory part, BAR2 suffices. This way, + you have access to the shared memory in the guest and can use it as + you see fit. Memnic, for example, uses ivshmem this way from guest + user space (see http://dpdk.org/browse/memnic). + +- If you additionally need the capability for peers to interrupt each + other, you need BAR0 and BAR1. You will most likely want to write a + kernel driver to handle interrupts. Requires the device to be + configured for interrupts, obviously. + +Before QEMU 2.6.0, BAR2 can initially be invalid if the device is +configured for interrupts. It becomes safely accessible only after +the ivshmem server provided the shared memory. These devices have PCI +revision 0 rather than 1. Guest software should wait for the +IVPosition register (described below) to become non-negative before +accessing BAR2. + +Revision 0 of the device is not capable to tell guest software whether +it is configured for interrupts. + +=== PCI device registers === + +BAR 0 contains the following registers: + + Offset Size Access On reset Function + 0 4 read/write 0 Interrupt Mask + bit 0: peer interrupt (rev 0) + reserved (rev 1) + bit 1..31: reserved + 4 4 read/write 0 Interrupt Status + bit 0: peer interrupt (rev 0) + reserved (rev 1) + bit 1..31: reserved + 8 4 read-only 0 or ID IVPosition + 12 4 write-only N/A Doorbell + bit 0..15: vector + bit 16..31: peer ID + 16 240 none N/A reserved + +Software should only access the registers as specified in column +"Access". Reserved bits should be ignored on read, and preserved on +write. + +In revision 0 of the device, Interrupt Status and Mask Register +together control the legacy INTx interrupt when the device has no +MSI-X capability: INTx is asserted when the bit-wise AND of Status and +Mask is non-zero and the device has no MSI-X capability. Interrupt +Status Register bit 0 becomes 1 when an interrupt request from a peer +is received. Reading the register clears it. + +IVPosition Register: if the device is not configured for interrupts, +this is zero. Else, it is the device's ID (between 0 and 65535). + +Before QEMU 2.6.0, the register may read -1 for a short while after +reset. These devices have PCI revision 0 rather than 1. + +There is no good way for software to find out whether the device is +configured for interrupts. A positive IVPosition means interrupts, +but zero could be either. + +Doorbell Register: writing this register requests to interrupt a peer. +The written value's high 16 bits are the ID of the peer to interrupt, +and its low 16 bits select an interrupt vector. + +If the device is not configured for interrupts, the write is ignored. + +If the interrupt hasn't completed setup, the write is ignored. The +device is not capable to tell guest software whether setup is +complete. Interrupts can regress to this state on migration. + +If the peer with the requested ID isn't connected, or it has fewer +interrupt vectors connected, the write is ignored. The device is not +capable to tell guest software what peers are connected, or how many +interrupt vectors are connected. + +The peer's interrupt for this vector then becomes pending. There is +no way for software to clear the pending bit, and a polling mode of +operation is therefore impossible. + +If the peer is a revision 0 device without MSI-X capability, its +Interrupt Status register is set to 1. This asserts INTx unless +masked by the Interrupt Mask register. The device is not capable to +communicate the interrupt vector to guest software then. + +With multiple MSI-X vectors, different vectors can be used to indicate +different events have occurred. The semantics of interrupt vectors +are left to the application. + + +== Interrupt infrastructure == + +When configured for interrupts, the peers share eventfd objects in +addition to shared memory. The shared resources are managed by an +ivshmem server. + +=== The ivshmem server === + +The server listens on a UNIX domain socket. + +For each new client that connects to the server, the server +- picks an ID, +- creates eventfd file descriptors for the interrupt vectors, +- sends the ID and the file descriptor for the shared memory to the + new client, +- sends connect notifications for the new client to the other clients + (these contain file descriptors for sending interrupts), +- sends connect notifications for the other clients to the new client, + and +- sends interrupt setup messages to the new client (these contain file + descriptors for receiving interrupts). + +The first client to connect to the server receives ID zero. + +When a client disconnects from the server, the server sends disconnect +notifications to the other clients. + +The next section describes the protocol in detail. + +If the server terminates without sending disconnect notifications for +its connected clients, the clients can elect to continue. They can +communicate with each other normally, but won't receive disconnect +notification on disconnect, and no new clients can connect. There is +no way for the clients to connect to a restarted server. The device +is not capable to tell guest software whether the server is still up. + +Example server code is in contrib/ivshmem-server/. Not to be used in +production. It assumes all clients use the same number of interrupt +vectors. + +A standalone client is in contrib/ivshmem-client/. It can be useful +for debugging. + +=== The ivshmem Client-Server Protocol === + +An ivshmem device configured for interrupts connects to an ivshmem +server. This section details the protocol between the two. + +The connection is one-way: the server sends messages to the client. +Each message consists of a single 8 byte little-endian signed number, +and may be accompanied by a file descriptor via SCM_RIGHTS. Both +client and server close the connection on error. + +Note: QEMU currently doesn't close the connection right on error, but +only when the character device is destroyed. + +On connect, the server sends the following messages in order: + +1. The protocol version number, currently zero. The client should + close the connection on receipt of versions it can't handle. + +2. The client's ID. This is unique among all clients of this server. + IDs must be between 0 and 65535, because the Doorbell register + provides only 16 bits for them. + +3. The number -1, accompanied by the file descriptor for the shared + memory. + +4. Connect notifications for existing other clients, if any. This is + a peer ID (number between 0 and 65535 other than the client's ID), + repeated N times. Each repetition is accompanied by one file + descriptor. These are for interrupting the peer with that ID using + vector 0,..,N-1, in order. If the client is configured for fewer + vectors, it closes the extra file descriptors. If it is configured + for more, the extra vectors remain unconnected. + +5. Interrupt setup. This is the client's own ID, repeated N times. + Each repetition is accompanied by one file descriptor. These are + for receiving interrupts from peers using vector 0,..,N-1, in + order. If the client is configured for fewer vectors, it closes + the extra file descriptors. If it is configured for more, the + extra vectors remain unconnected. + +From then on, the server sends these kinds of messages: + +6. Connection / disconnection notification. This is a peer ID. + + - If the number comes with a file descriptor, it's a connection + notification, exactly like in step 4. + + - Else, it's a disconnection notification for the peer with that ID. + +Known bugs: + +* The protocol changed incompatibly in QEMU 2.5. Before, messages + were native endian long, and there was no version number. + +* The protocol is poorly designed. + +=== The ivshmem Client-Client Protocol === + +An ivshmem device configured for interrupts receives eventfd file +descriptors for interrupting peers and getting interrupted by peers +from the server, as explained in the previous section. + +To interrupt a peer, the device writes the 8-byte integer 1 in native +byte order to the respective file descriptor. + +To receive an interrupt, the device reads and discards as many 8-byte +integers as it can. diff --git a/docs/specs/ivshmem_device_spec.txt b/docs/specs/ivshmem_device_spec.txt deleted file mode 100644 index d318d65c32..0000000000 --- a/docs/specs/ivshmem_device_spec.txt +++ /dev/null @@ -1,161 +0,0 @@ - -Device Specification for Inter-VM shared memory device ------------------------------------------------------- - -The Inter-VM shared memory device is designed to share a memory region (created -on the host via the POSIX shared memory API) between multiple QEMU processes -running different guests. In order for all guests to be able to pick up the -shared memory area, it is modeled by QEMU as a PCI device exposing said memory -to the guest as a PCI BAR. -The memory region does not belong to any guest, but is a POSIX memory object on -the host. The host can access this shared memory if needed. - -The device also provides an optional communication mechanism between guests -sharing the same memory object. More details about that in the section 'Guest to -guest communication' section. - - -The Inter-VM PCI device ------------------------ - -From the VM point of view, the ivshmem PCI device supports three BARs. - -- BAR0 is a 1 Kbyte MMIO region to support registers and interrupts when MSI is - not used. -- BAR1 is used for MSI-X when it is enabled in the device. -- BAR2 is used to access the shared memory object. - -It is your choice how to use the device but you must choose between two -behaviors : - -- basically, if you only need the shared memory part, you will map BAR2. - This way, you have access to the shared memory in guest and can use it as you - see fit (memnic, for example, uses it in userland - http://dpdk.org/browse/memnic). - -- BAR0 and BAR1 are used to implement an optional communication mechanism - through interrupts in the guests. If you need an event mechanism between the - guests accessing the shared memory, you will most likely want to write a - kernel driver that will handle interrupts. See details in the section 'Guest - to guest communication' section. - -The behavior is chosen when starting your QEMU processes: -- no communication mechanism needed, the first QEMU to start creates the shared - memory on the host, subsequent QEMU processes will use it. - -- communication mechanism needed, an ivshmem server must be started before any - QEMU processes, then each QEMU process connects to the server unix socket. - -For more details on the QEMU ivshmem parameters, see qemu-doc documentation. - - -Guest to guest communication ----------------------------- - -This section details the communication mechanism between the guests accessing -the ivhsmem shared memory. - -*ivshmem server* - -This server code is available in qemu.git/contrib/ivshmem-server. - -The server must be started on the host before any guest. -It creates a shared memory object then waits for clients to connect on a unix -socket. All the messages are little-endian int64_t integer. - -For each client (QEMU process) that connects to the server: -- the server sends a protocol version, if client does not support it, the client - closes the communication, -- the server assigns an ID for this client and sends this ID to him as the first - message, -- the server sends a fd to the shared memory object to this client, -- the server creates a new set of host eventfds associated to the new client and - sends this set to all already connected clients, -- finally, the server sends all the eventfds sets for all clients to the new - client. - -The server signals all clients when one of them disconnects. - -The client IDs are limited to 16 bits because of the current implementation (see -Doorbell register in 'PCI device registers' subsection). Hence only 65536 -clients are supported. - -All the file descriptors (fd to the shared memory, eventfds for each client) -are passed to clients using SCM_RIGHTS over the server unix socket. - -Apart from the current ivshmem implementation in QEMU, an ivshmem client has -been provided in qemu.git/contrib/ivshmem-client for debug. - -*QEMU as an ivshmem client* - -At initialisation, when creating the ivshmem device, QEMU first receives a -protocol version and closes communication with server if it does not match. -Then, QEMU gets its ID from the server then makes it available through BAR0 -IVPosition register for the VM to use (see 'PCI device registers' subsection). -QEMU then uses the fd to the shared memory to map it to BAR2. -eventfds for all other clients received from the server are stored to implement -BAR0 Doorbell register (see 'PCI device registers' subsection). -Finally, eventfds assigned to this QEMU process are used to send interrupts in -this VM. - -*PCI device registers* - -From the VM point of view, the ivshmem PCI device supports 4 registers of -32-bits each. - -enum ivshmem_registers { - IntrMask = 0, - IntrStatus = 4, - IVPosition = 8, - Doorbell = 12 -}; - -The first two registers are the interrupt mask and status registers. Mask and -status are only used with pin-based interrupts. They are unused with MSI -interrupts. - -Status Register: The status register is set to 1 when an interrupt occurs. - -Mask Register: The mask register is bitwise ANDed with the interrupt status -and the result will raise an interrupt if it is non-zero. However, since 1 is -the only value the status will be set to, it is only the first bit of the mask -that has any effect. Therefore interrupts can be masked by setting the first -bit to 0 and unmasked by setting the first bit to 1. - -IVPosition Register: The IVPosition register is read-only and reports the -guest's ID number. The guest IDs are non-negative integers. When using the -server, since the server is a separate process, the VM ID will only be set when -the device is ready (shared memory is received from the server and accessible -via the device). If the device is not ready, the IVPosition will return -1. -Applications should ensure that they have a valid VM ID before accessing the -shared memory. - -Doorbell Register: To interrupt another guest, a guest must write to the -Doorbell register. The doorbell register is 32-bits, logically divided into -two 16-bit fields. The high 16-bits are the guest ID to interrupt and the low -16-bits are the interrupt vector to trigger. The semantics of the value -written to the doorbell depends on whether the device is using MSI or a regular -pin-based interrupt. In short, MSI uses vectors while regular interrupts set -the status register. - -Regular Interrupts - -If regular interrupts are used (due to either a guest not supporting MSI or the -user specifying not to use them on startup) then the value written to the lower -16-bits of the Doorbell register results is arbitrary and will trigger an -interrupt in the destination guest. - -Message Signalled Interrupts - -An ivshmem device may support multiple MSI vectors. If so, the lower 16-bits -written to the Doorbell register must be between 0 and the maximum number of -vectors the guest supports. The lower 16 bits written to the doorbell is the -MSI vector that will be raised in the destination guest. The number of MSI -vectors is configurable but it is set when the VM is started. - -The important thing to remember with MSI is that it is only a signal, no status -is set (since MSI interrupts are not shared). All information other than the -interrupt itself should be communicated via the shared memory region. Devices -supporting multiple MSI vectors can use different vectors to indicate different -events have occurred. The semantics of interrupt vectors are left to the -user's discretion. |