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Tsirkin" , Jason Wang , "David S. Miller" , "edumazet@google.com" , Jakub Kicinski , Paolo Abeni , Krasnov Arseniy CC: "linux-kernel@vger.kernel.org" , "kvm@vger.kernel.org" , "virtualization@lists.linux-foundation.org" , "netdev@vger.kernel.org" , kernel Subject: [RFC PATCH v3 00/11] virtio/vsock: experimental zerocopy receive Thread-Topic: [RFC PATCH v3 00/11] virtio/vsock: experimental zerocopy receive Thread-Index: AQHY8hatKKTuchPoekmnGA3HAR0Siw== Date: Sun, 6 Nov 2022 19:33:41 +0000 Message-ID: Accept-Language: en-US, ru-RU Content-Language: en-US X-MS-Has-Attach: X-MS-TNEF-Correlator: x-originating-ip: [172.16.1.12] Content-ID: <7761C3286EAF0147AE65037D95E3A050@sberdevices.ru> MIME-Version: 1.0 X-KSMG-Rule-ID: 4 X-KSMG-Message-Action: clean X-KSMG-AntiSpam-Status: not scanned, disabled by settings X-KSMG-AntiSpam-Interceptor-Info: not scanned X-KSMG-AntiPhishing: not scanned, disabled by settings X-KSMG-AntiVirus: Kaspersky Secure Mail Gateway, version 1.1.2.30, bases: 2022/11/06 12:52:00 #20573807 X-KSMG-AntiVirus-Status: Clean, skipped X-Spam-Status: No, score=-2.1 required=5.0 tests=BAYES_00,DKIM_SIGNED, DKIM_VALID,DKIM_VALID_AU,DKIM_VALID_EF,SPF_HELO_NONE,SPF_PASS autolearn=ham autolearn_force=no version=3.4.6 X-Spam-Checker-Version: SpamAssassin 3.4.6 (2021-04-09) on lindbergh.monkeyblade.net Precedence: bulk List-ID: X-Mailing-List: linux-kernel@vger.kernel.org X-getmail-retrieved-from-mailbox: =?utf-8?q?INBOX?= X-GMAIL-THRID: =?utf-8?q?1748776586481146976?= X-GMAIL-MSGID: =?utf-8?q?1748776586481146976?= INTRODUCTION Hello, This is experimental patchset for virtio vsock zerocopy receive. It was inspired by TCP zerocopy receive by Eric Dumazet. This API uses same idea:call 'mmap()' on socket's descriptor,then call 'getsockopt()' to fill provided vma area with pages of virtio receive buffers. After received data was processed by user, pages must be freed by 'madvise()' call with MADV_DONTNEED flag set(but if user will not call 'madvise()', next 'getsockopt()' will fail). DETAILS Here is how mapping with mapped pages looks exactly: first page contains information about mapped data buffers. At zero offset mapping contains special data structure: struct virtio_vsock_usr_hdr_pref { u32 poll_value; u32 hdr_num; }; This structure contains two fields: 'poll_value' - shows that current socket has data to read.When socket's intput queue is empty, 'poll_value' is set to 0 by kernel. When input queue has some data, 'poll_value' is set to 1 by kernel. When socket is closed for data receive, 'poll_value' is ~0.This tells user that "there will be no more data,continue to call 'getsockopt()' until you'll find 'hdr_num' == 0".User spins on it in userspace, without calling 'poll()' system call(of course, 'poll()' is still working). 'hdr_num' - shows number of mapped pages with data which starts from second page of this mappined. NOTE: This version has two limitations: 1) One mapping per socket is supported. It is implemented by adding 'struct page*' pointer to 'struct virtio_vsock' structure (first page of mapping, which contains 'virtio_vsock_usr_hdr_pref').But, I think, support for multiple pages could be implemented by using something like hash table of such pages, or more simple, just use first page of mapping as headers page by default. Also I think, number of such pages may be controlled by 'setsockop()'. 2) After 'mmap()' call,it is impossible to call 'mmap()' again, even after calling 'madvise()'/'munmap()' on the whole mapping.This is because socket can't handle 'munmap()' calls(as there is no such callback in 'proto_ops'),thus polling page exists until socket is opened. After 'virtio_vsock_usr_hdr_pref' object, first page contains array of trimmed virtio vsock packet headers (in contains only length of data on the corresponding page and 'flags' field): struct virtio_vsock_usr_hdr { uint32_t length; uint32_t flags; }; Field 'length' allows user to know exact size of payload within each sequence of pages and field 'flags' allows to process SOCK_SEQPACKET flags(such as message bounds or record bounds).All other pages are data pages from virtio queue. Page 0 Page 1 Page N [ pref hdr0 .. hdrN ][ data ] .. [ data ] | | ^ ^ | | | | | *-------|-----------* | | *----------------* Of course, single header could represent array of pages (when packet's buffer is bigger than one page).So here is example of detailed mapping layout for some set of packages. Lets consider that we have the following sequence of packages:56 bytes, 4096 bytes and 8200 bytes. All pages: 0,1,2,3,4 and 5 will be inserted to user's vma. Page 0: [[ pref ][ hdr0 ][ hdr 1 ][ hdr 2 ][ hdr 3 ] ... ] Page 1: [ 56 ] Page 2: [ 4096 ] Page 3: [ 4096 ] Page 4: [ 4096 ] Page 5: [ 8 ] Page 0 contains only array of headers: 'pref' is 'struct virtio_vsock_usr_hdr_pref'. 'hdr0' has 56 in length field. 'hdr1' has 4096 in length field. 'hdr2' has 8200 in length field. 'hdr3' has 0 in length field(this is end of data marker). Page 1 corresponds to 'hdr0' and has only 56 bytes of data. Page 2 corresponds to 'hdr1' and filled with data. Page 3 corresponds to 'hdr2' and filled with data. Page 4 corresponds to 'hdr2' and filled with data. Page 5 corresponds to 'hdr2' and has only 8 bytes of data. pref will be the following: poll_value = 1, hdr_num = 5 This patchset also changes packets allocation way: current uses only 'kmalloc()' to create data buffer. Problem happens when we try to map such buffers to user's vma - kernel restricts to map slab pages to user's vma(as pages of "not large" 'kmalloc()' allocations have flag PageSlab set and "not large" could be bigger than one page).So to avoid this, data buffers now allocated using 'alloc_pages()' call. DIFFERENCE WITH TCP As this feature uses same approach as for TCP protocol,here are some difference between both version(from user's POV): 1) For 'getsockopt()': - This version passes only address of mapping. - TCP passes special structure to 'getsockopt()'. In addition to the address of mapping in contains 'length' and 'recv_skip_hint'.First means size of data inside mapping(out param, set by kernel).Second has bool type, if it is true, then user must dequeue rest of data using 'read()' syscall(e.g. it is out parameter also). 2) Mapping structure: - This version uses first page of mapping for meta data and rest of pages for data. - TCP version uses whole mapping for data only. 3) Data layout: - This version inserts virtio buffers to mapping, so each buffer may be filled partially. To get size of payload in every buffer, first mapping's page must be used(see 2). - TCP version inserts pages of single skb. *Please, correct me if I made some mistake in TCP zerocopy description. TESTS This patchset updates 'vsock_test' utility: two tests for new feature were added. First test covers invalid cases.Second checks valid transmission case. BENCHMARKING For benchmakring I've created small test utility 'vsock_rx_perf'. It works in client/server mode. When client connects to server, server starts sending specified amount of data to client(size is set as input argument). Client reads data and waits for next portion of it. In client mode, dequeue logic works in three modes: copy, zerocopy and zerocopy with user polling. 1) In copy mode client uses 'read()' system call. 2) In zerocopy mode client uses 'mmap()'/'getsockopt()' to dequeue data and 'poll()' to wait data. 3) In zerocopy mode + user polling client uses 'mmap()'/'getsockopt()', but to wait data it polls shared page(e.g. busyloop). Here is usage: -c Peer CID to connect to(if run in client mode). -m Number of megabytes to send. -b Size of RX/TX buffer(or mapping) in pages. -r SO_RCVLOWAT value in bytes(if run in client mode). -v peer credit. -s Run as server. -z [n|y|u] Dequeue mode. n - copy mode. 1) above. y - zero copy mode. 2) above. u - zero copy mode + user poll. 3) above. Utility produces the following output: 1) In server mode it prints number of sec spent for whole tx loop. 2) In client mode it prints several values: * Number of sec, spent for whole rx loop(including 'poll()'). * Number of sec, spend in dequeue system calls: In case of '-z n' it will be time in 'read()'. In case of '-z y|u' it will be time in 'getsockopt()' + 'madvise()'. * Number of wake ups with POLLIN flag set(except '-z u' mode). * Average time(ns) in single dequeue iteration(e.g. divide second value by third). Idea of test is to compare zerocopy approach and classic copy, as it is clear, that to dequeue some "small" amount of data, copy must be better, because syscall with 'memcpy()' for 1 byte(for example) is just nothing against two system calls, where first must map at least one page, while second will unmap it. Test was performed with the following settings: 1) Total size of data to send is 2G(-m argument). 2) Peer's buffer size is changed to 2G(-v argument) - this is needed to avoid stalls of sender to wait for enough credit. 3) Both buffer size(-b) and SO_RCVLOWAT(-r) are used to control number of bytes to dequeue in single loop iteration. Buffer size limits max number of bytes to read, while SO_RCVLOWAT won't allow user to get too small number of bytes. 4) For sender, tx buffer(which is passed to 'write()') size is 16Mb. Of course we can set it to peer's buffer size and as we are in STREAM mode it leads to 'write()' will be called once. Deignations here and below: H2G - host to guest transmission. Server is host, client is guest. G2H - guest to host transmission. Server is guest, client is host. C - copy mode. ZC - zerocopy mode. ZU - zerocopy with user poll mode. This mode is removed from test at this moment, because I need to support SO_RCVLOWAT logic in it. So, rows corresponds to dequeue mode, while columns show number of bytes to dequeue in each mode. Each cell contains several values in the next format: *------------* | A / B | | C | | D | *------------* A - number of seconds which server spent in tx loop. B - number of seconds which client spent in rx loop. C - number of seconds which client spent in rx loop, but except 'poll()' system call(e.g. only in dequeue system calls). D - Average number of ns for each POLLIN wake up(in other words it is average value for C). G2H: #0 #1 #2 #3 #4 #5 *----*---------*---------*---------*---------*---------*---------* | | | | | | | | | | 4Kb | 16Kb | 64Kb | 128Kb | 256Kb | 512Kb | | | | | | | | | *----*---------*---------*---------*---------*---------*---------* | | 2.3/2.4 |2.48/2.53|2.34/2.38|2.73/2.76|2.65/2.68|3.26/3.35| | | 7039 | 15074 | 34975 | 89938 | 162384 | 438278 | *----*---------*---------*---------*---------*---------*---------* | |2.37/2.42|2.36/1.96|2.36/2.42|2.43/2.43|2.42/2.47|2.42/2.46| | | 13598 | 15821 | 29574 | 43265 | 71771 | 150927 | *----*---------*---------*---------*---------*---------*---------* H2G: #0 #1 #2 #3 #4 #5 *----*---------*---------*---------*---------*---------*---------* | | | | | | | | | | 4Kb | 16Kb | 64Kb | 128Kb | 256Kb | 512Kb | | | | | | | | | *----*---------*---------*---------*---------*---------*---------* | | 1.5/5.3 |1.55/5.00|1.60/5.00|1.65/5.00|1.65/5.00|1.74/5.00| | | 17145 | 24172 | 72650 | 143496 | 295960 | 674146 | *----*---------*---------*---------*---------*---------*---------* | |1.10/6.21|1.10/6.00|1.10/5.48|1.10/5.38|1.10/5.35|1.10/5.35| | | 41855 | 46339 | 71988 | 106000 | 153064 | 242036 | *----*---------*---------*---------*---------*---------*---------* Here are my thoughts about these numbers(most obvious): 1) Let's check C and D values. We see, that zerocopy dequeue is faster on big buffers(in G2H it starts from 64Kb, in H2g - from 128Kb). I think this is main result of this test(at this moment), that shows performance difference between copy and zerocopy). 2) In G2H mode both server and client spend almost same time in rx/tx loops(see A / B in G2H table) - it looks good. In H2G mode, there is significant difference between server and client. I think there are some side effects which produces such effect(continue to analyze). 3) Let's check C value. We can see, that G2H is always faster that H2G. In both copy and zerocopy mode. 4) Another interesting thing could be seen for example in H2G table, row #0, col #4 (case for 256Kb). Number of seconds in zerocopy mode is smaller than in copy mode(1.25 vs 2.42), but whole rx loop was faster in copy mode(5 seconds vs 5.35 seconds). E.g. if we account time spent in 'poll()', copy mode looks faster(even it spends more time in 'read()' than zerocopy loop in 'getsockopt()' + 'madvise()'). I think, it is also not obvious effect. So, according 1), it is better to use zerocopy, if You need to process big buffers, with small rx waitings(for example it nay be video stream). In other cases - it is better to use classic copy way, as it will be more lightweight. All tests were performed on x86 board with 4-core Celeron N2930 CPU(of course it is, not a mainframe, but better than test with nested guest) and 8Gb of RAM. Anyway, this is not final version, and I will continue to improve both kernel logic and performance tests. SUGGESTIONS 1) I'm also working on MSG_ZEROCOPY support for virtio/vsock. May be I can merge both patches into single one? 2) This version works with single page headers. May be I can add new 'getsockopt()' feature to allow to use multiple pages for headers. CHANGE LOG v1 -> v2: 1) Zerocopy receive mode must be enabled/disabled (off by default). I did not use generic SO_ZEROCOPY flag, because in virtio-vsock case this feature depends on transport support. Instead of SO_ZEROCOPY, AF_VSOCK layer flag was added:SO_VM_SOCKETS_ZEROCOPY,while previous meaning of SO_VM_SOCKETS_ZEROCOPY(insert receive buffers to user's vm area) now renamed to SO_VM_SOCKETS_MAP_RX. 2) Packet header which is exported to user now gets new extra field: 'copy_len'. This field handles special case: user reads data from socket in non zerocopy way(with disabled zerocopy) and then enables zerocopy. In this case, vhost part will switch buffer allocation logic from 'kmalloc()' to direct calls for buddy allocator. But,there could be some pending 'kmalloc()' allocated packets in socket's rx list, and then user tries to read such packets in zerocopy way, dequeue will fail, because SLAB pages could not be inserted to user's vm area.So when such packet is found during zerocopy dequeue,dequeue loop will break and 'copy_len' will show size of such "bad" packet.After user detects this case,it must use 'read()/recv()' calls to dequeue such packet. 3) Also may be move this features under config option? <<<<< DECLINED v2 -> v3: 1) Zerocopy could be enabled only for socket in SS_UNCONNECTED state, so 'copy_len' field from v2 was removed. 2) Mapping layout was updated. First page of mapping now contains the following structure: 'struct virtio_vsock_usr_hdr_pref' starting from the first byte. Then 'struct virtio_vsock_usr_hdr' are placed in array. 3) Transport get/set callbacks for zerocopy were removed, now flag to check zerocopy receive on/off is storead in 'vsock_sock'. 4) For 'virtio_transport_recv_pkt()' interface changed. This was done, because vhost driver needs to check whether zerocopy is enabled on socket or not.So socket lookup is performed until packet allocation and socket structure is passed to this function. void virtio_transport_recv_pkt(struct virtio_transport *, struct virtio_vsock_pkt *); changed to void virtio_transport_recv_pkt(struct virtio_transport *, struct sock *, struct virtio_vsock_pkt *); If 'struct sock *' argument is NULL, this function works as before, otherwise it skips socket lookup, using input 'sock' as destination socket. 4) Test for userspace polling was added. 5) Zerocopy tests were moved to dedicated '.c' file. 6) More benchmark results. 7) Two tests updated: message bound test reworked and test for big message transmission was added. Arseniy Krasnov(11): virtio/vsock: rework packet allocation logic virtio/vsock: update 'virtio_transport_recv_pkt()' af_vsock: add zerocopy receive logic virtio/vsock: add transport zerocopy callback vhost/vsock: switch packet's buffer allocation vhost/vsock: enable zerocopy callback virtio/vsock: enable zerocopy callback test/vsock: rework message bound test test/vsock: add big message test test/vsock: add receive zerocopy tests test/vsock: vsock_rx_perf utility drivers/vhost/vsock.c | 58 ++- include/linux/virtio_vsock.h | 8 + include/net/af_vsock.h | 8 + include/uapi/linux/virtio_vsock.h | 14 + include/uapi/linux/vm_sockets.h | 3 + net/vmw_vsock/af_vsock.c | 187 ++++++++- net/vmw_vsock/virtio_transport.c | 4 +- net/vmw_vsock/virtio_transport_common.c | 256 ++++++++++++- net/vmw_vsock/vsock_loopback.c | 2 +- tools/include/uapi/linux/virtio_vsock.h | 15 + tools/include/uapi/linux/vm_sockets.h | 8 + tools/testing/vsock/Makefile | 3 +- tools/testing/vsock/control.c | 34 ++ tools/testing/vsock/control.h | 2 + tools/testing/vsock/util.c | 40 +- tools/testing/vsock/util.h | 5 + tools/testing/vsock/vsock_rx_perf.c | 604 ++++++++++++++++++++++++++++++ tools/testing/vsock/vsock_test.c | 198 +++++++++- tools/testing/vsock/vsock_test_zerocopy.c | 530 ++++++++++++++++++++++++++ tools/testing/vsock/vsock_test_zerocopy.h | 14 + 20 files changed, 1953 insertions(+), 40 deletions(-) --- 2.35.0