Shriram Rajagopalan
2011-Jun-19 04:32 UTC
[Xen-devel] [PATCH 0 of 2] [Resend v2] remus: Checkpoint Compression
This patch series adds checkpoint compression functionality to Remus. Modifications since the first version: 1. As George pointed out, signalling the receiver to enable compression logic is done through XC_SAVE_ID_ENABLE_COMPRESSION marker, instead of sending the compression flag as a separate entity. This way, live migration compatibility is maintained with target machines running older versions of xen. 2. Added comments at appropriate places to explain the compression control logic in xc_domain_save/restore. 3. Tended to nitpicks :). shriram _______________________________________________ Xen-devel mailing list Xen-devel@lists.xensource.com http://lists.xensource.com/xen-devel
Shriram Rajagopalan
2011-Jun-19 04:32 UTC
[Xen-devel] [PATCH 1 of 2] tools/libxc: Remus Checkpoint Compression
# HG changeset patch
# User Shriram Rajagopalan <rshriram@cs.ubc.ca>
# Date 1308455519 25200
# Node ID b4974a38d10199c1e2b8fd3cf36d91c03ac5eeae
# Parent 23c068b109236657ededa3e3b7f180346a5cd9f9
tools/libxc: Remus Checkpoint Compression
Instead of sending dirty pages of guest memory as-is, use a simple compression
algorithm that sends a RLE-encoded XOR of the page against its last sent copy.
A small LRU cache is used to hold recently dirtied pages. Pagetable pages are
sent as-is, as they are canonicalized at sender side and uncanonicalized at
receiver.
Signed-off-by: Shriram Rajagopalan <rshriram@cs.ubc.ca>
diff -r 23c068b10923 -r b4974a38d101 tools/libxc/Makefile
--- a/tools/libxc/Makefile Wed Jun 15 16:16:41 2011 +0100
+++ b/tools/libxc/Makefile Sat Jun 18 20:51:59 2011 -0700
@@ -42,7 +42,7 @@
GUEST_SRCS-y : GUEST_SRCS-y += xg_private.c xc_suspend.c
GUEST_SRCS-$(CONFIG_MIGRATE) += xc_domain_restore.c xc_domain_save.c
-GUEST_SRCS-$(CONFIG_MIGRATE) += xc_offline_page.c
+GUEST_SRCS-$(CONFIG_MIGRATE) += xc_offline_page.c xc_remus.c
GUEST_SRCS-$(CONFIG_HVM) += xc_hvm_build.c
vpath %.c ../../xen/common/libelf
diff -r 23c068b10923 -r b4974a38d101 tools/libxc/xc_domain_restore.c
--- a/tools/libxc/xc_domain_restore.c Wed Jun 15 16:16:41 2011 +0100
+++ b/tools/libxc/xc_domain_restore.c Sat Jun 18 20:51:59 2011 -0700
@@ -43,6 +43,7 @@
xen_pfn_t *p2m_batch; /* A table of P2M mappings in the current region. */
int completed; /* Set when a consistent image is available */
int last_checkpoint; /* Set when we should commit to the current checkpoint
when it completes. */
+ int compression; /* Set when sender signals that pages would be sent
compressed (for Remus) */
struct domain_info_context dinfo;
};
@@ -663,6 +664,10 @@
/* pages is of length nr_physpages, pfn_types is of length nr_pages */
unsigned int nr_physpages, nr_pages;
+ /* remus compression state */
+ int compression;
+ unsigned long compbuf_pos, compbuf_size;
+
/* Types of the pfns in the current region */
unsigned long* pfn_types;
@@ -700,6 +705,7 @@
{
int count, countpages, oldcount, i;
void* ptmp;
+ unsigned long compbuf_size;
if ( RDEXACT(fd, &count, sizeof(count)) )
{
@@ -809,6 +815,46 @@
}
return pagebuf_get_one(xch, ctx, buf, fd, dom);
+ case XC_SAVE_ID_ENABLE_COMPRESSION:
+ /* We cannot set compression flag directly in pagebuf structure,
+ * since this pagebuf still has uncompressed pages that are yet to
+ * be applied. We enable the compression field in pagebuf structure
+ * after receiving the first tailbuf.
+ */
+ ctx->compression = 1;
+ // DPRINTF("compression flag received");
+ return pagebuf_get_one(xch, ctx, buf, fd, dom);
+
+ case XC_SAVE_ID_COMPRESSED_DATA:
+
+ /* read the length of compressed chunk coming in */
+ if ( RDEXACT(fd, &compbuf_size, sizeof(unsigned long)) )
+ {
+ PERROR("Error when reading compbuf_size");
+ return -1;
+ }
+ if (!compbuf_size) return 1;
+
+ buf->compbuf_size += compbuf_size;
+ if (!buf->pages) {
+ if (!(buf->pages = malloc(buf->compbuf_size))) {
+ ERROR("Could not allocate compression buffer");
+ return -1;
+ }
+ } else {
+ if (!(ptmp = realloc(buf->pages, buf->compbuf_size))) {
+ ERROR("Could not reallocate compression buffer");
+ return -1;
+ }
+ buf->pages = ptmp;
+ }
+ if ( RDEXACT(fd, buf->pages + (buf->compbuf_size - compbuf_size),
+ compbuf_size) ) {
+ PERROR("Error when reading compression buffer");
+ return -1;
+ }
+ return compbuf_size;
+
default:
if ( (count > MAX_BATCH_SIZE) || (count < 0) ) {
ERROR("Max batch size exceeded (%d). Giving up.", count);
@@ -846,6 +892,13 @@
if (!countpages)
return count;
+ /* If Remus Checkpoint Compression is turned on, we only receive the
+ * pfn lists now. The compressed pages will come in later, following a
+ * <XC_SAVE_ID_COMPRESSED_DATA, compressedChunkSize> tuple.
+ */
+ if (buf->compression)
+ return pagebuf_get_one(xch, ctx, buf, fd, dom);
+
oldcount = buf->nr_physpages;
buf->nr_physpages += countpages;
if (!buf->pages) {
@@ -874,6 +927,7 @@
int rc;
buf->nr_physpages = buf->nr_pages = 0;
+ buf->compbuf_pos = buf->compbuf_size = 0;
do {
rc = pagebuf_get_one(xch, ctx, buf, fd, dom);
@@ -1091,7 +1145,19 @@
/* In verify mode, we use a copy; otherwise we work in place */
page = pagebuf->verify ? (void *)buf : (region_base + i*PAGE_SIZE);
- memcpy(page, pagebuf->pages + (curpage + curbatch) * PAGE_SIZE,
PAGE_SIZE);
+ /* Remus - page decompression */
+ if (pagebuf->compression)
+ {
+ if (xc_remus_uncompress(xch, pagebuf->pages,
pagebuf->compbuf_size,
+ &pagebuf->compbuf_pos, (char
*)page))
+ {
+ ERROR("Failed to uncompress page (pfn=%lx)\n", pfn);
+ goto err_mapped;
+ }
+ }
+ else
+ memcpy(page, pagebuf->pages + (curpage + curbatch) * PAGE_SIZE,
+ PAGE_SIZE);
pagetype &= XEN_DOMCTL_PFINFO_LTABTYPE_MASK;
@@ -1353,6 +1419,7 @@
if ( !ctx->completed ) {
pagebuf.nr_physpages = pagebuf.nr_pages = 0;
+ pagebuf.compbuf_pos = pagebuf.compbuf_size = 0;
if ( pagebuf_get_one(xch, ctx, &pagebuf, io_fd, dom) < 0 ) {
PERROR("Error when reading batch");
goto out;
@@ -1395,6 +1462,7 @@
}
pagebuf.nr_physpages = pagebuf.nr_pages = 0;
+ pagebuf.compbuf_pos = pagebuf.compbuf_size = 0;
n += j; /* crude stats */
@@ -1438,6 +1506,13 @@
*/
if ( !ctx->last_checkpoint )
fcntl(io_fd, F_SETFL, orig_io_fd_flags | O_NONBLOCK);
+
+ /*
+ * If sender had sent enable compression flag, switch to compressed
+ * checkpoints mode once the first checkpoint is received.
+ */
+ if (ctx->compression)
+ pagebuf.compression = 1;
}
if (pagebuf.acpi_ioport_location == 1) {
diff -r 23c068b10923 -r b4974a38d101 tools/libxc/xc_domain_save.c
--- a/tools/libxc/xc_domain_save.c Wed Jun 15 16:16:41 2011 +0100
+++ b/tools/libxc/xc_domain_save.c Sat Jun 18 20:51:59 2011 -0700
@@ -269,6 +269,57 @@
return noncached_write(xch, ob, fd, buf, len);
}
+static int write_compressed(xc_interface *xch, void *remus_ctx, int dobuf,
+ struct outbuf* ob, int fd)
+{
+ int rc = 0;
+ int header = sizeof(int) + sizeof(unsigned long);
+ int marker = XC_SAVE_ID_COMPRESSED_DATA;
+ unsigned long compbuf_len = 0;
+
+ do
+ {
+ /* check for available space (atleast 8k) */
+ if ((ob->pos + header + XC_PAGE_SIZE * 2) > ob->size)
+ {
+ if (outbuf_flush(xch, ob, fd) < 0)
+ {
+ ERROR("Error when flushing outbuf intermediate");
+ return -1;
+ }
+ }
+
+ xc_remus_compbuf_set(xch, remus_ctx, ob->buf + ob->pos + header,
+ ob->size - ob->pos - header);
+ rc = xc_remus_compress(xch, remus_ctx);
+ if (!rc)
+ break;
+ compbuf_len = xc_remus_get_compbuf_len(xch, remus_ctx);
+
+ if (outbuf_hardwrite(xch, ob, fd, &marker, sizeof(marker)) < 0)
+ {
+ PERROR("Error when writing marker (errno %d)", errno);
+ return -1;
+ }
+
+ if (outbuf_hardwrite(xch, ob, fd, &compbuf_len,
sizeof(compbuf_len)) < 0)
+ {
+ PERROR("Error when writing compbuf_len (errno %d)",
errno);
+ return -1;
+ }
+
+ ob->pos += (size_t) compbuf_len;
+ if (!dobuf && outbuf_flush(xch, ob, fd) < 0)
+ {
+ ERROR("Error when writing compressed chunk");
+ return -1;
+ }
+ } while (rc != 0);
+
+ xc_remus_pagebuf_reset(xch, remus_ctx);
+ return 0;
+}
+
struct time_stats {
struct timeval wall;
long long d0_cpu, d1_cpu;
@@ -866,11 +917,19 @@
unsigned long mfn;
- struct outbuf ob;
+ struct outbuf ob_pagebuf, ob_tailbuf, *ob = NULL;
struct save_ctx _ctx;
struct save_ctx *ctx = &_ctx;
struct domain_info_context *dinfo = &ctx->dinfo;
+ /* Remus context */
+ void *remus_ctx = NULL;
+ /* Even if XCFLAGS_REMUS_COMPRESS is set, we enable compression only
+ * after sending XC_SAVE_ID_ENABLE_COMPRESSION and the tailbuf for
+ * first time.
+ */
+ int compression = 0;
+
int completed = 0;
if ( hvm && !callbacks->switch_qemu_logdirty )
@@ -880,7 +939,7 @@
return 1;
}
- outbuf_init(xch, &ob, OUTBUF_SIZE);
+ outbuf_init(xch, &ob_pagebuf, OUTBUF_SIZE);
memset(ctx, 0, sizeof(*ctx));
@@ -968,6 +1027,16 @@
}
}
+ if ( flags & XCFLAGS_REMUS_COMPRESS )
+ {
+ if (!(remus_ctx = xc_remus_create_context(xch, dinfo->p2m_size)))
+ {
+ ERROR("Failed to create remus context");
+ goto out;
+ }
+ outbuf_init(xch, &ob_tailbuf, OUTBUF_SIZE/4);
+ }
+
last_iter = !live;
/* pretend we sent all the pages last iteration */
@@ -1076,9 +1145,11 @@
}
copypages:
-#define wrexact(fd, buf, len) write_buffer(xch, last_iter, &ob, (fd),
(buf), (len))
-#define wruncached(fd, live, buf, len) write_uncached(xch, last_iter, &ob,
(fd), (buf), (len))
+#define wrexact(fd, buf, len) write_buffer(xch, last_iter, ob, (fd), (buf),
(len))
+#define wruncached(fd, live, buf, len) write_uncached(xch, last_iter, ob, (fd),
(buf), (len))
+#define wrcompressed(fd) write_compressed(xch, remus_ctx, last_iter, ob, (fd))
+ ob = &ob_pagebuf; /* Holds pfn_types, pages/compressed pages */
/* Now write out each data page, canonicalising page tables as we go... */
for ( ; ; )
{
@@ -1321,7 +1392,7 @@
{
/* If the page is not a normal data page, write out any
run of pages we may have previously acumulated */
- if ( run )
+ if ( !compression && run )
{
if ( wruncached(io_fd, live,
(char*)region_base+(PAGE_SIZE*(j-run)),
@@ -1356,7 +1427,32 @@
goto out;
}
- if ( wruncached(io_fd, live, page, PAGE_SIZE) != PAGE_SIZE
)
+ if (compression)
+ {
+ /* Mark pagetable page to be sent uncompressed */
+ if (xc_remus_add_page(xch, remus_ctx, page,
+ pfn, 1 /* raw page */) < 0)
+ {
+ /*
+ * We are out of buffer space to hold dirty
+ * pages. Compress and flush the current buffer
+ * to make space. This is a corner case, that
+ * slows down checkpointing as the compression
+ * happens while domain is suspended. Happens
+ * seldom and if you find this occuring
+ * frequently, increase the PAGE_BUFFER_SIZE
+ * in xc_remus.c.
+ */
+ if (wrcompressed(io_fd) < 0)
+ {
+ ERROR("Error when writing compressed"
+ " data (4b)\n");
+ goto out;
+ }
+ }
+ }
+ else if ( wruncached(io_fd, live, page,
+ PAGE_SIZE) != PAGE_SIZE )
{
PERROR("Error when writing to state file
(4b)"
" (errno %d)", errno);
@@ -1366,7 +1462,24 @@
else
{
/* We have a normal page: accumulate it for writing. */
- run++;
+ if (compression)
+ {
+ /* For remus/compression, accumulate the page in the
+ * page buffer, to be compressed later.
+ */
+ if (xc_remus_add_page(xch, remus_ctx, spage,
+ pfn, 0 /* not raw page */) <
0)
+ {
+ if (wrcompressed(io_fd) < 0)
+ {
+ ERROR("Error when writing compressed"
+ " data (4c)\n");
+ goto out;
+ }
+ }
+ }
+ else
+ run++;
}
} /* end of the write out for this batch */
@@ -1474,6 +1587,15 @@
DPRINTF("All memory is saved\n");
+ /* After last_iter, buffer the rest of pagebuf & tailbuf data into a
+ * separate output buffer and flush it after the compressed page chunks.
+ */
+ if (compression)
+ {
+ ob = &ob_tailbuf;
+ ob->pos = 0;
+ }
+
{
struct {
int id;
@@ -1573,6 +1695,25 @@
}
}
+ /* Enable compression logic on both sides by sending this
+ * one time marker.
+ * NOTE: We could have simplified this procedure by sending
+ * the enable/disable compression flag before the beginning of
+ * the main for loop. But this would break compatibility for
+ * live migration code, with older versions of xen. So we have
+ * to enable it after the last_iter, when the XC_SAVE_ID_*
+ * elements are sent.
+ */
+ if (!compression && (flags & XCFLAGS_REMUS_COMPRESS))
+ {
+ i = XC_SAVE_ID_ENABLE_COMPRESSION;
+ if ( wrexact(io_fd, &i, sizeof(int)) )
+ {
+ PERROR("Error when writing enable_compression marker");
+ goto out;
+ }
+ }
+
/* Zero terminate */
i = 0;
if ( wrexact(io_fd, &i, sizeof(int)) )
@@ -1817,14 +1958,38 @@
if ( !rc && callbacks->postcopy )
callbacks->postcopy(callbacks->data);
+ /* guest has been resumed. Now we can compress data
+ * at our own pace.
+ */
+ if (!rc && compression)
+ {
+ ob = &ob_pagebuf;
+ if (wrcompressed(io_fd) < 0)
+ {
+ ERROR("Error when writing compressed data, after
postcopy\n");
+ rc = 1;
+ goto out;
+ }
+ /* Copy the tailbuf data into the main outbuf */
+ if ( wrexact(io_fd, ob_tailbuf.buf, ob_tailbuf.pos) )
+ {
+ rc = 1;
+ PERROR("Error when copying tailbuf into outbuf");
+ goto out;
+ }
+ }
+
/* Flush last write and discard cache for file. */
- if ( outbuf_flush(xch, &ob, io_fd) < 0 ) {
+ if ( outbuf_flush(xch, ob, io_fd) < 0 ) {
PERROR("Error when flushing output buffer");
rc = 1;
}
discard_file_cache(xch, io_fd, 1 /* flush */);
+ /* Enable compression now, finally */
+ compression = (flags & XCFLAGS_REMUS_COMPRESS);
+
/* checkpoint_cb can spend arbitrarily long in between rounds */
if (!rc && callbacks->checkpoint &&
callbacks->checkpoint(callbacks->data) > 0)
@@ -1866,6 +2031,9 @@
DPRINTF("Warning - couldn''t disable qemu log-dirty
mode");
}
+ if (remus_ctx)
+ xc_remus_free_context(xch, remus_ctx);
+
if ( live_shinfo )
munmap(live_shinfo, PAGE_SIZE);
diff -r 23c068b10923 -r b4974a38d101 tools/libxc/xc_remus.c
--- /dev/null Thu Jan 01 00:00:00 1970 +0000
+++ b/tools/libxc/xc_remus.c Sat Jun 18 20:51:59 2011 -0700
@@ -0,0 +1,465 @@
+/******************************************************************************
+ * xc_remus.c
+ *
+ * Checkpoint Compression using Page Delta Algorithm.
+ * - A LRU cache of recently dirtied guest pages is maintained.
+ * - For each dirty guest page in the checkpoint, if a previous version of the
+ * page exists in the cache, XOR both pages and send the non-zero sections
+ * to the receiver. The cache is then updated with the newer copy of guest
page.
+ * - The receiver will XOR the non-zero sections against its copy of the guest
+ * page, thereby bringing the guest page up-to-date with the sender side.
+ *
+ * Copyright (c) 2011 Shriram Rajagopalan (rshriram@cs.ubc.ca).
+ *
+ * This library is free software; you can redistribute it and/or
+ * modify it under the terms of the GNU Lesser General Public
+ * License as published by the Free Software Foundation;
+ * version 2.1 of the License.
+ *
+ * This library is distributed in the hope that it will be useful,
+ * but WITHOUT ANY WARRANTY; without even the implied warranty of
+ * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
+ * Lesser General Public License for more details.
+ *
+ * You should have received a copy of the GNU Lesser General Public
+ * License along with this library; if not, write to the Free Software
+ * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301
USA
+ *
+ */
+
+#include <stdio.h>
+#include <stdlib.h>
+#include <unistd.h>
+#include <sys/types.h>
+#include <inttypes.h>
+#include <errno.h>
+#include "xenctrl.h"
+#include "xg_save_restore.h"
+#include "xg_private.h"
+
+/* Already defined in xc_dom.h, but it doesnt have
+ * a conditional include macro. So, redifine here.
+ */
+#define INVALID_P2M_ENTRY ((xen_pfn_t)-1)
+
+/* Page Cache for Delta Compression*/
+#define DELTA_CACHE_SIZE (XC_PAGE_SIZE * 8192)
+
+struct cache_page;
+struct cache_page
+{
+ char *page;
+ unsigned long pfn;
+ struct cache_page *next;
+ struct cache_page *prev;
+};
+
+/* After XORing the older and newer version, the non-zero sections
+ * are sent as a sequence of tuples <2-byte-offset,4-byte-data> called
markers.
+ * - Each page begins with a BEGIN marker (for synchronization).
+ * - If the result of XOR is a page filled with zeros (i.e no difference
between
+ * old and new page, then only the BEGIN marker is sent for the page.
+ * - If the two versions of the page differ by more than 50%, the page is sent
+ * as is, with a FULLPAGE marker, without a BEGIN marker.
+ *
+ * About the choice of data types: typical page size is 4K. Each marker is
+ * 6 bytes long, with a 4-byte data word (1024 data words per page). If 50% of
+ * the page changed, then we would be transmitting ~3000 bytes (worst case).
+ * - If we use 8-byte data word (10-byte marker), we end up sending
+ * ~5000 bytes (>4096).
+ */
+
+typedef unsigned int data_t;
+typedef short int moff_t;
+
+#define BEGIN -100
+#define FULLPAGE -101
+struct marker
+{
+ moff_t off;
+ data_t val;
+} __attribute__((packed));
+
+static struct marker begin_page = { BEGIN, -1};
+static struct marker full_page = {FULLPAGE, -1};
+
+/* Internal page buffer to hold dirty pages of a checkpoint,
+ * to be compressed after the domain is resumed for execution.
+ */
+#define PAGE_BUFFER_SIZE (XC_PAGE_SIZE * 8192)
+
+struct remus_context
+{
+ /* compression buffer - holds compressed data */
+ char *compbuf;
+ unsigned long compbuf_size;
+ unsigned long compbuf_pos;
+
+ /* Page buffer to hold pages to be compressed */
+ char *inputbuf;
+ /* pfns of pages to be compressed */
+ unsigned long *sendbuf_pfns;
+ unsigned int pfns_index;
+ unsigned int pfns_iterator;
+
+ /* Compression Cache (LRU) */
+ char *cache_base;
+ struct cache_page **pfn2cache;
+ struct cache_page *cache2pfn;
+ struct cache_page *page_list_head;
+ struct cache_page *page_list_tail;
+};
+
+static
+int __compress(xc_interface *xch, struct remus_context *ctx, char *srcpage,
+ char *copypage, int israw)
+{
+ struct marker *dest = (struct marker *)(ctx->compbuf+
ctx->compbuf_pos);
+ moff_t off;
+ int j=0, rc = 0;
+ data_t *src, *copy;
+
+ src = (data_t*)srcpage;
+ copy = (data_t*)copypage;
+
+ if ((ctx->compbuf_pos + sizeof(struct marker)) >
ctx->compbuf_size)
+ return -1;
+
+ if (!israw && copypage)
+ {
+ dest[j++] = begin_page;
+ for (off = 0; off < XC_PAGE_SIZE/sizeof(data_t); off++)
+ {
+ if (copy[off] != src[off])
+ {
+ if ((ctx->compbuf_pos + (j + 1) *
+ sizeof(struct marker)) > ctx->compbuf_size)
+ return -1;
+
+ copy[off] = src[off];
+ dest[j].off = off;
+ dest[j].val = src[off];
+ j++;
+ }
+ if (j > 500) /* more than 50% of page changed */
+ goto FullPage;
+ }
+ rc = (j * sizeof(struct marker));
+ }
+ else
+ {
+ FullPage:
+ if ( (ctx->compbuf_pos + sizeof(struct marker)
+ + XC_PAGE_SIZE) > ctx->compbuf_size)
+ return -1;
+
+ dest[0] = full_page;
+ if (copypage)
+ memcpy(copypage, srcpage, XC_PAGE_SIZE);
+ memcpy((char *)&dest[1], srcpage, XC_PAGE_SIZE);
+ rc = XC_PAGE_SIZE + sizeof(struct marker);
+ }
+ ctx->compbuf_pos += rc;
+
+ return rc;
+}
+
+static
+int __uncompress(xc_interface *xch, char *destpage, unsigned long *compbuf_pos,
+ char *compbuf, unsigned long compbuf_size)
+{
+ struct marker *src = (struct marker *)(compbuf + *compbuf_pos);
+ int i;
+ data_t *dest = (data_t *)destpage;
+
+ if (*compbuf_pos >= compbuf_size)
+ {
+ ERROR("Out of bounds exception: read ptr:%lu, bufsize =
%lu\n",
+ *compbuf_pos, compbuf_size);
+ return -1;
+ }
+
+ if (src[0].off == BEGIN)
+ {
+ *compbuf_pos += sizeof(struct marker);
+ for (i = 1; (*compbuf_pos < compbuf_size) && (src[i].off
>= 0);
+ i++, *compbuf_pos += sizeof(struct marker))
+ dest[src[i].off] = src[i].val;
+ }
+ else if (src[0].off == FULLPAGE)
+ {
+ *compbuf_pos += sizeof(struct marker) + XC_PAGE_SIZE;
+ memcpy(destpage, (char *)&src[1], XC_PAGE_SIZE);
+ }
+ else
+ {
+ ERROR("Invalid marker %d in compression buffer at %u\n",
+ src[0].off, *compbuf_pos);
+ return -1;
+ }
+ return 0;
+}
+
+static
+char *get_cache_page(struct remus_context *ctx, unsigned long pfn,
+ int *israw)
+{
+ struct cache_page *item = NULL;
+
+start:
+ item = ctx->pfn2cache[pfn];
+ /* if requested item is in cache move to head of list */
+ if (item)
+ {
+ /* item already at head of list */
+ if (item == ctx->page_list_head)
+ goto end;
+ if (item == ctx->page_list_tail)
+ {
+ /* item at tail of list. */
+ ctx->page_list_tail = item->prev;
+ (ctx->page_list_tail)->next = NULL;
+ }
+ else
+ {
+ /* item in middle of list */
+ item->prev->next = item->next;
+ item->next->prev = item->prev;
+ }
+
+ item->prev = NULL;
+ item->next = ctx->page_list_head;
+ (ctx->page_list_head)->prev = item;
+ ctx->page_list_head = item;
+ goto end;
+ }
+ else
+ {
+ *israw = 1;
+ /* Add new item to list. If list is full,
+ * evict a page from tail of list.
+ */
+ if ((ctx->page_list_tail)->pfn != INVALID_P2M_ENTRY)
+ ctx->pfn2cache[(ctx->page_list_tail)->pfn] = NULL;
+ (ctx->page_list_tail)->pfn = pfn;
+ ctx->pfn2cache[pfn] = ctx->page_list_tail;
+
+ /* Will have same effect as cache hit at tail of list */
+ goto start;
+ }
+end:
+ return (ctx->page_list_head)->page;
+}
+
+/* Remove pagetable pages from cache and move to tail, as free pages */
+static
+void invalidate_cache_page(struct remus_context *ctx, unsigned long pfn)
+{
+ struct cache_page *item = NULL;
+
+ item = ctx->pfn2cache[pfn];
+ if (item)
+ {
+ /* item at head of list */
+ if (item == ctx->page_list_head)
+ {
+ ctx->page_list_head = (ctx->page_list_head)->next;
+ (ctx->page_list_head)->prev = NULL;
+ }
+ else if (item == ctx->page_list_tail)
+ {
+ /* item already at tail of list. */
+ goto end;
+ }
+ else
+ {
+ /* item in middle of list */
+ item->prev->next = item->next;
+ item->next->prev = item->prev;
+ }
+ item->next = NULL;
+ item->prev = ctx->page_list_tail;
+ (ctx->page_list_tail)->next = item;
+ ctx->page_list_tail = item;
+ end:
+ ctx->pfn2cache[pfn] = NULL;
+ (ctx->page_list_tail)->pfn = INVALID_P2M_ENTRY;
+ }
+}
+
+int xc_remus_add_page(xc_interface *xch, void *remus_ctx, char *page,
+ unsigned long pfn, int israw)
+{
+ struct remus_context *ctx = (struct remus_context *)remus_ctx;
+
+ /* pagetable page */
+ if (israw)
+ invalidate_cache_page(ctx, pfn);
+ ctx->sendbuf_pfns[ctx->pfns_index] = israw? INVALID_P2M_ENTRY : pfn;
+ memcpy(ctx->inputbuf + ctx->pfns_index * XC_PAGE_SIZE, page,
XC_PAGE_SIZE);
+ ctx->pfns_index++;
+
+ /* check if we have run out of space. If so,
+ * we need to synchronously compress the pages and flush them out
+ */
+ if (ctx->pfns_index == NRPAGES(PAGE_BUFFER_SIZE))
+ return -1;
+ return 0;
+}
+
+int xc_remus_compress(xc_interface *xch, void *remus_ctx)
+{
+ struct remus_context *ctx = (struct remus_context *)remus_ctx;
+ char *cache_copy = NULL;
+ int israw;
+
+ if (!ctx->pfns_index || (ctx->pfns_iterator == ctx->pfns_index))
+ return 0;
+
+ for (; ctx->pfns_iterator < ctx->pfns_index;
ctx->pfns_iterator++)
+ {
+ israw = 0;
+ cache_copy = NULL;
+ if (ctx->sendbuf_pfns[ctx->pfns_iterator] == INVALID_P2M_ENTRY)
+ israw = 1;
+ else
+ cache_copy = get_cache_page(ctx,
ctx->sendbuf_pfns[ctx->pfns_iterator],
+ &israw);
+
+ /* Out of space in outbuf! flush and come back */
+ if (__compress(xch, ctx, ctx->inputbuf + ctx->pfns_iterator *
XC_PAGE_SIZE,
+ cache_copy, israw) < 0)
+ return -1;
+ }
+
+ return 1;
+}
+
+inline
+unsigned long xc_remus_get_compbuf_len(xc_interface *xch, void *remus_ctx)
+{
+ struct remus_context *ctx = (struct remus_context *)remus_ctx;
+ return ctx->compbuf_pos;
+}
+
+inline
+void xc_remus_compbuf_set(xc_interface *xch, void *remus_ctx,
+ char *compbuf, unsigned long compbuf_size)
+{
+ struct remus_context *ctx = (struct remus_context *)remus_ctx;
+ ctx->compbuf_pos = 0;
+ ctx->compbuf = compbuf;
+ ctx->compbuf_size = compbuf_size;
+}
+
+inline
+void xc_remus_pagebuf_reset(xc_interface *xch, void *remus_ctx)
+{
+ struct remus_context *ctx = (struct remus_context *)remus_ctx;
+ ctx->pfns_index = ctx->pfns_iterator = 0;
+}
+
+int xc_remus_uncompress(xc_interface *xch, char *compbuf,
+ unsigned long compbuf_size,
+ unsigned long *compbuf_pos, char *dest)
+{
+ return __uncompress(xch, dest, compbuf_pos, compbuf, compbuf_size);
+}
+
+void xc_remus_free_context(xc_interface *xch, void *ctx)
+{
+ struct remus_context *remus_ctx = (struct remus_context *)ctx;
+
+ if (!remus_ctx) return;
+
+ if (remus_ctx->inputbuf)
+ free(remus_ctx->inputbuf);
+ if (remus_ctx->sendbuf_pfns)
+ free(remus_ctx->sendbuf_pfns);
+ if (remus_ctx->cache_base)
+ free(remus_ctx->cache_base);
+ if (remus_ctx->pfn2cache)
+ free(remus_ctx->pfn2cache);
+ if (remus_ctx->cache2pfn)
+ free(remus_ctx->cache2pfn);
+ free(remus_ctx);
+}
+
+void *xc_remus_create_context(xc_interface *xch, unsigned long p2m_size)
+{
+ unsigned long i;
+ struct remus_context *remus_ctx = NULL;
+ unsigned long num_cache_pages = DELTA_CACHE_SIZE/XC_PAGE_SIZE;
+
+ remus_ctx = malloc(sizeof(struct remus_context));
+ if (!remus_ctx)
+ {
+ ERROR("Failed to allocate remus_ctx\n");
+ goto error;
+ }
+ memset(remus_ctx, 0, sizeof(struct remus_context));
+
+ if (posix_memalign((void **)&remus_ctx->inputbuf,
+ XC_PAGE_SIZE, PAGE_BUFFER_SIZE))
+ {
+ ERROR("Failed to allocate page buffer\n");
+ goto error;
+ }
+
+ remus_ctx->sendbuf_pfns = malloc(NRPAGES(PAGE_BUFFER_SIZE) *
+ sizeof(unsigned long));
+ if (!remus_ctx->sendbuf_pfns)
+ {
+ ERROR("Could not alloc sendbuf_pfns\n");
+ goto error;
+ }
+ memset(remus_ctx->sendbuf_pfns, -1,
+ NRPAGES(PAGE_BUFFER_SIZE) * sizeof(unsigned long));
+
+ if (posix_memalign((void **)&remus_ctx->cache_base,
+ XC_PAGE_SIZE, DELTA_CACHE_SIZE))
+ {
+ ERROR("Failed to allocate delta cache\n");
+ goto error;
+ }
+
+ remus_ctx->pfn2cache = calloc(p2m_size, sizeof(struct cache_page *));
+ if (!remus_ctx->pfn2cache)
+ {
+ ERROR("Could not alloc pfn2cache map\n");
+ goto error;
+ }
+
+ remus_ctx->cache2pfn = malloc(num_cache_pages * sizeof(struct
cache_page));
+ if (!remus_ctx->cache2pfn)
+ {
+ ERROR("Could not alloc cache2pfn map\n");
+ goto error;
+ }
+
+ for (i = 0; i < num_cache_pages; i++)
+ {
+ remus_ctx->cache2pfn[i].pfn = INVALID_P2M_ENTRY;
+ remus_ctx->cache2pfn[i].page = remus_ctx->cache_base + i *
XC_PAGE_SIZE;
+ remus_ctx->cache2pfn[i].prev = (i == 0)? NULL :
&(remus_ctx->cache2pfn[i - 1]);
+ remus_ctx->cache2pfn[i].next = ((i+1) == num_cache_pages)? NULL :
+ &(remus_ctx->cache2pfn[i + 1]);
+ }
+ remus_ctx->page_list_head = &(remus_ctx->cache2pfn[0]);
+ remus_ctx->page_list_tail =
&(remus_ctx->cache2pfn[num_cache_pages -1]);
+
+ return (void *)remus_ctx;
+error:
+ xc_remus_free_context(xch, remus_ctx);
+ return NULL;
+}
+
+/*
+ * Local variables:
+ * mode: C
+ * c-set-style: "BSD"
+ * c-basic-offset: 4
+ * tab-width: 4
+ * indent-tabs-mode: nil
+ * End:
+ */
diff -r 23c068b10923 -r b4974a38d101 tools/libxc/xenctrl.h
--- a/tools/libxc/xenctrl.h Wed Jun 15 16:16:41 2011 +0100
+++ b/tools/libxc/xenctrl.h Sat Jun 18 20:51:59 2011 -0700
@@ -1820,4 +1820,58 @@
int verbose);
/* Useful for callers who also use libelf. */
+/**
+ * Remus Checkpoint Compression
+ */
+void *xc_remus_create_context(xc_interface *xch, unsigned long p2m_size);
+void xc_remus_free_context(xc_interface *xch, void *remus_ctx);
+
+/**
+ * Add a page to remus buffer, to be compressed later.
+ * returns -1 if there is no space in buffer.
+ */
+int xc_remus_add_page(xc_interface *xch, void *remus_ctx, char *page,
+ unsigned long pfn, int israw);
+
+/**
+ * Should be called before compressing the pages. Caller supplies a
+ * compression buffer compbuf of size compbuf_size.
+ */
+void xc_remus_compbuf_set(xc_interface *xch, void *remus_ctx, char *compbuf,
+ unsigned long compbuf_size);
+
+/**
+ * Delta compress pages in the remus buffer and inserts the
+ * compressed data into the previously supplied compression buffer, compbuf.
+ * After compression, the page is copied to the internal LRU cache.
+ *
+ * This function compresses as many pages as possible into the
+ * supplied compression buffer. It maintains an internal iterator to
+ * keep track of pages in the input buffer that are yet to be compressed.
+ *
+ * returns -1 if the compression buffer has run out of space.
+ * returns 1 on success.
+ * returns 0 if no more pages are left to be compressed.
+ */
+int xc_remus_compress(xc_interface *xch, void *remus_ctx);
+
+/**
+ * Returns the exact length of data, in the compression buffer.
+ */
+unsigned long xc_remus_get_compbuf_len(xc_interface *xch, void *remus_ctx);
+
+/**
+ * Resets the internal page buffer that holds dirty pages before compression.
+ * Also resets the iterators.
+ */
+void xc_remus_pagebuf_reset(xc_interface *xch, void *remus_ctx);
+
+/**
+ * Caller must supply the compression buffer (compbuf), its size (compbuf_size)
and
+ * an reference to index variable (compbuf_pos) that is used internally.
+ * Each call pulls out one page from the compressed chunk and copies it to
dest.
+ */
+int xc_remus_uncompress(xc_interface *xch, char *compbuf, unsigned long
compbuf_size,
+ unsigned long *compbuf_pos, char *dest);
+
#endif /* XENCTRL_H */
diff -r 23c068b10923 -r b4974a38d101 tools/libxc/xenguest.h
--- a/tools/libxc/xenguest.h Wed Jun 15 16:16:41 2011 +0100
+++ b/tools/libxc/xenguest.h Sat Jun 18 20:51:59 2011 -0700
@@ -27,6 +27,7 @@
#define XCFLAGS_DEBUG 2
#define XCFLAGS_HVM 4
#define XCFLAGS_STDVGA 8
+#define XCFLAGS_REMUS_COMPRESS 16
#define X86_64_B_SIZE 64
#define X86_32_B_SIZE 32
diff -r 23c068b10923 -r b4974a38d101 tools/libxc/xg_save_restore.h
--- a/tools/libxc/xg_save_restore.h Wed Jun 15 16:16:41 2011 +0100
+++ b/tools/libxc/xg_save_restore.h Sat Jun 18 20:51:59 2011 -0700
@@ -134,6 +134,8 @@
#define XC_SAVE_ID_HVM_CONSOLE_PFN -8 /* (HVM-only) */
#define XC_SAVE_ID_LAST_CHECKPOINT -9 /* Commit to restoring after
completion of current iteration. */
#define XC_SAVE_ID_HVM_ACPI_IOPORTS_LOCATION -10
+#define XC_SAVE_ID_COMPRESSED_DATA -11 /* Marker to indicate arrival of
compressed data */
+#define XC_SAVE_ID_ENABLE_COMPRESSION -12 /* Marker to enable compression logic
at receiver side */
/*
** We process save/restore/migrate in batches of pages; the below
_______________________________________________
Xen-devel mailing list
Xen-devel@lists.xensource.com
http://lists.xensource.com/xen-devel
Shriram Rajagopalan
2011-Jun-19 04:32 UTC
[Xen-devel] [PATCH 2 of 2] remus: command line switche to enable/disable checkpoint compression
# HG changeset patch
# User Shriram Rajagopalan <rshriram@cs.ubc.ca>
# Date 1308455527 25200
# Node ID c31e9249893d309655a8e739ba2ecb07d2c0148b
# Parent b4974a38d10199c1e2b8fd3cf36d91c03ac5eeae
remus: command line switche to enable/disable checkpoint compression
Add a command line switch to remus script that allows the user to
enable or disable checkpoint compression in the libxc code.
Signed-off-by: Shriram Rajagopalan <rshriram@cs.ubc.ca>
diff -r b4974a38d101 -r c31e9249893d
tools/python/xen/lowlevel/checkpoint/checkpoint.c
--- a/tools/python/xen/lowlevel/checkpoint/checkpoint.c Sat Jun 18 20:51:59 2011
-0700
+++ b/tools/python/xen/lowlevel/checkpoint/checkpoint.c Sat Jun 18 20:52:07 2011
-0700
@@ -104,13 +104,14 @@
PyObject* postcopy_cb = NULL;
PyObject* checkpoint_cb = NULL;
unsigned int interval = 0;
+ unsigned int flags = 0;
int fd;
struct save_callbacks callbacks;
int rc;
- if (!PyArg_ParseTuple(args, "O|OOOI", &iofile, &suspend_cb,
&postcopy_cb,
- &checkpoint_cb, &interval))
+ if (!PyArg_ParseTuple(args, "O|OOOII", &iofile,
&suspend_cb, &postcopy_cb,
+ &checkpoint_cb, &interval, &flags))
return NULL;
self->interval = interval;
@@ -160,7 +161,7 @@
callbacks.data = self;
self->threadstate = PyEval_SaveThread();
- rc = checkpoint_start(&self->cps, fd, &callbacks);
+ rc = checkpoint_start(&self->cps, fd, &callbacks, flags);
PyEval_RestoreThread(self->threadstate);
if (rc < 0) {
diff -r b4974a38d101 -r c31e9249893d
tools/python/xen/lowlevel/checkpoint/checkpoint.h
--- a/tools/python/xen/lowlevel/checkpoint/checkpoint.h Sat Jun 18 20:51:59 2011
-0700
+++ b/tools/python/xen/lowlevel/checkpoint/checkpoint.h Sat Jun 18 20:52:07 2011
-0700
@@ -40,13 +40,15 @@
timer_t timer;
} checkpoint_state;
+#define REMUS_FLAGS_COMPRESSION 1
char* checkpoint_error(checkpoint_state* s);
void checkpoint_init(checkpoint_state* s);
int checkpoint_open(checkpoint_state* s, unsigned int domid);
void checkpoint_close(checkpoint_state* s);
int checkpoint_start(checkpoint_state* s, int fd,
- struct save_callbacks* callbacks);
+ struct save_callbacks* callbacks,
+ unsigned int remus_flags);
int checkpoint_suspend(checkpoint_state* s);
int checkpoint_resume(checkpoint_state* s);
int checkpoint_postflush(checkpoint_state* s);
diff -r b4974a38d101 -r c31e9249893d
tools/python/xen/lowlevel/checkpoint/libcheckpoint.c
--- a/tools/python/xen/lowlevel/checkpoint/libcheckpoint.c Sat Jun 18 20:51:59
2011 -0700
+++ b/tools/python/xen/lowlevel/checkpoint/libcheckpoint.c Sat Jun 18 20:52:07
2011 -0700
@@ -170,7 +170,8 @@
}
int checkpoint_start(checkpoint_state* s, int fd,
- struct save_callbacks* callbacks)
+ struct save_callbacks* callbacks,
+ unsigned int remus_flags)
{
int hvm, rc;
int flags = XCFLAGS_LIVE;
@@ -188,6 +189,8 @@
if (switch_qemu_logdirty(s, 1))
return -1;
}
+ if (remus_flags & REMUS_FLAGS_COMPRESSION)
+ flags |= XCFLAGS_REMUS_COMPRESS;
callbacks->switch_qemu_logdirty = noop_switch_logdirty;
diff -r b4974a38d101 -r c31e9249893d tools/python/xen/remus/save.py
--- a/tools/python/xen/remus/save.py Sat Jun 18 20:51:59 2011 -0700
+++ b/tools/python/xen/remus/save.py Sat Jun 18 20:52:07 2011 -0700
@@ -133,7 +133,7 @@
class Saver(object):
def __init__(self, domid, fd, suspendcb=None, resumecb=None,
- checkpointcb=None, interval=0):
+ checkpointcb=None, interval=0, flags=0):
"""Create a Saver object for taking guest checkpoints.
domid: name, number or UUID of a running domain
fd: a stream to which checkpoint data will be written.
@@ -141,12 +141,14 @@
resumecb: callback invoked before guest resumes
checkpointcb: callback invoked when a checkpoint is complete. Return
True to take another checkpoint, or False to stop.
+ flags: Remus flags to be passed to xc_domain_save
"""
self.fd = fd
self.suspendcb = suspendcb
self.resumecb = resumecb
self.checkpointcb = checkpointcb
self.interval = interval
+ self.flags = flags
self.vm = vm.VM(domid)
@@ -164,7 +166,8 @@
try:
self.checkpointer.open(self.vm.domid)
self.checkpointer.start(self.fd, self.suspendcb, self.resumecb,
- self.checkpointcb, self.interval)
+ self.checkpointcb, self.interval,
+ self.flags)
except xen.lowlevel.checkpoint.error, e:
raise CheckpointError(e)
finally:
diff -r b4974a38d101 -r c31e9249893d tools/remus/remus
--- a/tools/remus/remus Sat Jun 18 20:51:59 2011 -0700
+++ b/tools/remus/remus Sat Jun 18 20:52:07 2011 -0700
@@ -16,6 +16,9 @@
class CfgException(Exception): pass
class Cfg(object):
+
+ REMUS_FLAGS_COMPRESSION = 1
+
def __init__(self):
# must be set
self.domid = 0
@@ -25,6 +28,7 @@
self.port = XendOptions.instance().get_xend_relocation_port()
self.interval = 200
self.netbuffer = True
+ self.flags = self.REMUS_FLAGS_COMPRESSION
self.timer = False
parser = optparse.OptionParser()
@@ -38,6 +42,8 @@
help=''replicate to /dev/null (no disk
checkpoints, only memory & net buffering)'')
parser.add_option('''', ''--no-net'',
dest=''nonet'', action=''store_true'',
help=''run without net buffering (benchmark
option)'')
+ parser.add_option('''',
''--no-compression'', dest=''nocompress'',
action=''store_true'',
+ help=''run without checkpoint
compression'')
parser.add_option('''', ''--timer'',
dest=''timer'', action=''store_true'',
help=''force pause at checkpoint interval
(experimental)'')
self.parser = parser
@@ -56,6 +62,8 @@
self.nullremus = True
if opts.nonet:
self.netbuffer = False
+ if opts.nocompress:
+ self.flags &= ~self.REMUS_FLAGS_COMPRESSION
if opts.timer:
self.timer = True
@@ -190,7 +198,7 @@
rc = 0
checkpointer = save.Saver(cfg.domid, fd, postsuspend, preresume, commit,
- interval)
+ interval, cfg.flags)
try:
checkpointer.start()
_______________________________________________
Xen-devel mailing list
Xen-devel@lists.xensource.com
http://lists.xensource.com/xen-devel
George Dunlap
2011-Jun-20 10:32 UTC
[Xen-devel] Re: [PATCH 1 of 2] tools/libxc: Remus Checkpoint Compression
Thanks Shriram. Acked-by: George Dunlap <george.dunlap@eu.citrix.com> On Sun, 2011-06-19 at 05:32 +0100, Shriram Rajagopalan wrote:> # HG changeset patch > # User Shriram Rajagopalan <rshriram@cs.ubc.ca> > # Date 1308455519 25200 > # Node ID b4974a38d10199c1e2b8fd3cf36d91c03ac5eeae > # Parent 23c068b109236657ededa3e3b7f180346a5cd9f9 > tools/libxc: Remus Checkpoint Compression > > Instead of sending dirty pages of guest memory as-is, use a simple compression > algorithm that sends a RLE-encoded XOR of the page against its last sent copy. > A small LRU cache is used to hold recently dirtied pages. Pagetable pages are > sent as-is, as they are canonicalized at sender side and uncanonicalized at > receiver. > > Signed-off-by: Shriram Rajagopalan <rshriram@cs.ubc.ca> > > diff -r 23c068b10923 -r b4974a38d101 tools/libxc/Makefile > --- a/tools/libxc/Makefile Wed Jun 15 16:16:41 2011 +0100 > +++ b/tools/libxc/Makefile Sat Jun 18 20:51:59 2011 -0700 > @@ -42,7 +42,7 @@ > GUEST_SRCS-y :> GUEST_SRCS-y += xg_private.c xc_suspend.c > GUEST_SRCS-$(CONFIG_MIGRATE) += xc_domain_restore.c xc_domain_save.c > -GUEST_SRCS-$(CONFIG_MIGRATE) += xc_offline_page.c > +GUEST_SRCS-$(CONFIG_MIGRATE) += xc_offline_page.c xc_remus.c > GUEST_SRCS-$(CONFIG_HVM) += xc_hvm_build.c > > vpath %.c ../../xen/common/libelf > diff -r 23c068b10923 -r b4974a38d101 tools/libxc/xc_domain_restore.c > --- a/tools/libxc/xc_domain_restore.c Wed Jun 15 16:16:41 2011 +0100 > +++ b/tools/libxc/xc_domain_restore.c Sat Jun 18 20:51:59 2011 -0700 > @@ -43,6 +43,7 @@ > xen_pfn_t *p2m_batch; /* A table of P2M mappings in the current region. */ > int completed; /* Set when a consistent image is available */ > int last_checkpoint; /* Set when we should commit to the current checkpoint when it completes. */ > + int compression; /* Set when sender signals that pages would be sent compressed (for Remus) */ > struct domain_info_context dinfo; > }; > > @@ -663,6 +664,10 @@ > /* pages is of length nr_physpages, pfn_types is of length nr_pages */ > unsigned int nr_physpages, nr_pages; > > + /* remus compression state */ > + int compression; > + unsigned long compbuf_pos, compbuf_size; > + > /* Types of the pfns in the current region */ > unsigned long* pfn_types; > > @@ -700,6 +705,7 @@ > { > int count, countpages, oldcount, i; > void* ptmp; > + unsigned long compbuf_size; > > if ( RDEXACT(fd, &count, sizeof(count)) ) > { > @@ -809,6 +815,46 @@ > } > return pagebuf_get_one(xch, ctx, buf, fd, dom); > > + case XC_SAVE_ID_ENABLE_COMPRESSION: > + /* We cannot set compression flag directly in pagebuf structure, > + * since this pagebuf still has uncompressed pages that are yet to > + * be applied. We enable the compression field in pagebuf structure > + * after receiving the first tailbuf. > + */ > + ctx->compression = 1; > + // DPRINTF("compression flag received"); > + return pagebuf_get_one(xch, ctx, buf, fd, dom); > + > + case XC_SAVE_ID_COMPRESSED_DATA: > + > + /* read the length of compressed chunk coming in */ > + if ( RDEXACT(fd, &compbuf_size, sizeof(unsigned long)) ) > + { > + PERROR("Error when reading compbuf_size"); > + return -1; > + } > + if (!compbuf_size) return 1; > + > + buf->compbuf_size += compbuf_size; > + if (!buf->pages) { > + if (!(buf->pages = malloc(buf->compbuf_size))) { > + ERROR("Could not allocate compression buffer"); > + return -1; > + } > + } else { > + if (!(ptmp = realloc(buf->pages, buf->compbuf_size))) { > + ERROR("Could not reallocate compression buffer"); > + return -1; > + } > + buf->pages = ptmp; > + } > + if ( RDEXACT(fd, buf->pages + (buf->compbuf_size - compbuf_size), > + compbuf_size) ) { > + PERROR("Error when reading compression buffer"); > + return -1; > + } > + return compbuf_size; > + > default: > if ( (count > MAX_BATCH_SIZE) || (count < 0) ) { > ERROR("Max batch size exceeded (%d). Giving up.", count); > @@ -846,6 +892,13 @@ > if (!countpages) > return count; > > + /* If Remus Checkpoint Compression is turned on, we only receive the > + * pfn lists now. The compressed pages will come in later, following a > + * <XC_SAVE_ID_COMPRESSED_DATA, compressedChunkSize> tuple. > + */ > + if (buf->compression) > + return pagebuf_get_one(xch, ctx, buf, fd, dom); > + > oldcount = buf->nr_physpages; > buf->nr_physpages += countpages; > if (!buf->pages) { > @@ -874,6 +927,7 @@ > int rc; > > buf->nr_physpages = buf->nr_pages = 0; > + buf->compbuf_pos = buf->compbuf_size = 0; > > do { > rc = pagebuf_get_one(xch, ctx, buf, fd, dom); > @@ -1091,7 +1145,19 @@ > /* In verify mode, we use a copy; otherwise we work in place */ > page = pagebuf->verify ? (void *)buf : (region_base + i*PAGE_SIZE); > > - memcpy(page, pagebuf->pages + (curpage + curbatch) * PAGE_SIZE, PAGE_SIZE); > + /* Remus - page decompression */ > + if (pagebuf->compression) > + { > + if (xc_remus_uncompress(xch, pagebuf->pages, pagebuf->compbuf_size, > + &pagebuf->compbuf_pos, (char *)page)) > + { > + ERROR("Failed to uncompress page (pfn=%lx)\n", pfn); > + goto err_mapped; > + } > + } > + else > + memcpy(page, pagebuf->pages + (curpage + curbatch) * PAGE_SIZE, > + PAGE_SIZE); > > pagetype &= XEN_DOMCTL_PFINFO_LTABTYPE_MASK; > > @@ -1353,6 +1419,7 @@ > > if ( !ctx->completed ) { > pagebuf.nr_physpages = pagebuf.nr_pages = 0; > + pagebuf.compbuf_pos = pagebuf.compbuf_size = 0; > if ( pagebuf_get_one(xch, ctx, &pagebuf, io_fd, dom) < 0 ) { > PERROR("Error when reading batch"); > goto out; > @@ -1395,6 +1462,7 @@ > } > > pagebuf.nr_physpages = pagebuf.nr_pages = 0; > + pagebuf.compbuf_pos = pagebuf.compbuf_size = 0; > > n += j; /* crude stats */ > > @@ -1438,6 +1506,13 @@ > */ > if ( !ctx->last_checkpoint ) > fcntl(io_fd, F_SETFL, orig_io_fd_flags | O_NONBLOCK); > + > + /* > + * If sender had sent enable compression flag, switch to compressed > + * checkpoints mode once the first checkpoint is received. > + */ > + if (ctx->compression) > + pagebuf.compression = 1; > } > > if (pagebuf.acpi_ioport_location == 1) { > diff -r 23c068b10923 -r b4974a38d101 tools/libxc/xc_domain_save.c > --- a/tools/libxc/xc_domain_save.c Wed Jun 15 16:16:41 2011 +0100 > +++ b/tools/libxc/xc_domain_save.c Sat Jun 18 20:51:59 2011 -0700 > @@ -269,6 +269,57 @@ > return noncached_write(xch, ob, fd, buf, len); > } > > +static int write_compressed(xc_interface *xch, void *remus_ctx, int dobuf, > + struct outbuf* ob, int fd) > +{ > + int rc = 0; > + int header = sizeof(int) + sizeof(unsigned long); > + int marker = XC_SAVE_ID_COMPRESSED_DATA; > + unsigned long compbuf_len = 0; > + > + do > + { > + /* check for available space (atleast 8k) */ > + if ((ob->pos + header + XC_PAGE_SIZE * 2) > ob->size) > + { > + if (outbuf_flush(xch, ob, fd) < 0) > + { > + ERROR("Error when flushing outbuf intermediate"); > + return -1; > + } > + } > + > + xc_remus_compbuf_set(xch, remus_ctx, ob->buf + ob->pos + header, > + ob->size - ob->pos - header); > + rc = xc_remus_compress(xch, remus_ctx); > + if (!rc) > + break; > + compbuf_len = xc_remus_get_compbuf_len(xch, remus_ctx); > + > + if (outbuf_hardwrite(xch, ob, fd, &marker, sizeof(marker)) < 0) > + { > + PERROR("Error when writing marker (errno %d)", errno); > + return -1; > + } > + > + if (outbuf_hardwrite(xch, ob, fd, &compbuf_len, sizeof(compbuf_len)) < 0) > + { > + PERROR("Error when writing compbuf_len (errno %d)", errno); > + return -1; > + } > + > + ob->pos += (size_t) compbuf_len; > + if (!dobuf && outbuf_flush(xch, ob, fd) < 0) > + { > + ERROR("Error when writing compressed chunk"); > + return -1; > + } > + } while (rc != 0); > + > + xc_remus_pagebuf_reset(xch, remus_ctx); > + return 0; > +} > + > struct time_stats { > struct timeval wall; > long long d0_cpu, d1_cpu; > @@ -866,11 +917,19 @@ > > unsigned long mfn; > > - struct outbuf ob; > + struct outbuf ob_pagebuf, ob_tailbuf, *ob = NULL; > struct save_ctx _ctx; > struct save_ctx *ctx = &_ctx; > struct domain_info_context *dinfo = &ctx->dinfo; > > + /* Remus context */ > + void *remus_ctx = NULL; > + /* Even if XCFLAGS_REMUS_COMPRESS is set, we enable compression only > + * after sending XC_SAVE_ID_ENABLE_COMPRESSION and the tailbuf for > + * first time. > + */ > + int compression = 0; > + > int completed = 0; > > if ( hvm && !callbacks->switch_qemu_logdirty ) > @@ -880,7 +939,7 @@ > return 1; > } > > - outbuf_init(xch, &ob, OUTBUF_SIZE); > + outbuf_init(xch, &ob_pagebuf, OUTBUF_SIZE); > > memset(ctx, 0, sizeof(*ctx)); > > @@ -968,6 +1027,16 @@ > } > } > > + if ( flags & XCFLAGS_REMUS_COMPRESS ) > + { > + if (!(remus_ctx = xc_remus_create_context(xch, dinfo->p2m_size))) > + { > + ERROR("Failed to create remus context"); > + goto out; > + } > + outbuf_init(xch, &ob_tailbuf, OUTBUF_SIZE/4); > + } > + > last_iter = !live; > > /* pretend we sent all the pages last iteration */ > @@ -1076,9 +1145,11 @@ > } > > copypages: > -#define wrexact(fd, buf, len) write_buffer(xch, last_iter, &ob, (fd), (buf), (len)) > -#define wruncached(fd, live, buf, len) write_uncached(xch, last_iter, &ob, (fd), (buf), (len)) > +#define wrexact(fd, buf, len) write_buffer(xch, last_iter, ob, (fd), (buf), (len)) > +#define wruncached(fd, live, buf, len) write_uncached(xch, last_iter, ob, (fd), (buf), (len)) > +#define wrcompressed(fd) write_compressed(xch, remus_ctx, last_iter, ob, (fd)) > > + ob = &ob_pagebuf; /* Holds pfn_types, pages/compressed pages */ > /* Now write out each data page, canonicalising page tables as we go... */ > for ( ; ; ) > { > @@ -1321,7 +1392,7 @@ > { > /* If the page is not a normal data page, write out any > run of pages we may have previously acumulated */ > - if ( run ) > + if ( !compression && run ) > { > if ( wruncached(io_fd, live, > (char*)region_base+(PAGE_SIZE*(j-run)), > @@ -1356,7 +1427,32 @@ > goto out; > } > > - if ( wruncached(io_fd, live, page, PAGE_SIZE) != PAGE_SIZE ) > + if (compression) > + { > + /* Mark pagetable page to be sent uncompressed */ > + if (xc_remus_add_page(xch, remus_ctx, page, > + pfn, 1 /* raw page */) < 0) > + { > + /* > + * We are out of buffer space to hold dirty > + * pages. Compress and flush the current buffer > + * to make space. This is a corner case, that > + * slows down checkpointing as the compression > + * happens while domain is suspended. Happens > + * seldom and if you find this occuring > + * frequently, increase the PAGE_BUFFER_SIZE > + * in xc_remus.c. > + */ > + if (wrcompressed(io_fd) < 0) > + { > + ERROR("Error when writing compressed" > + " data (4b)\n"); > + goto out; > + } > + } > + } > + else if ( wruncached(io_fd, live, page, > + PAGE_SIZE) != PAGE_SIZE ) > { > PERROR("Error when writing to state file (4b)" > " (errno %d)", errno); > @@ -1366,7 +1462,24 @@ > else > { > /* We have a normal page: accumulate it for writing. */ > - run++; > + if (compression) > + { > + /* For remus/compression, accumulate the page in the > + * page buffer, to be compressed later. > + */ > + if (xc_remus_add_page(xch, remus_ctx, spage, > + pfn, 0 /* not raw page */) < 0) > + { > + if (wrcompressed(io_fd) < 0) > + { > + ERROR("Error when writing compressed" > + " data (4c)\n"); > + goto out; > + } > + } > + } > + else > + run++; > } > } /* end of the write out for this batch */ > > @@ -1474,6 +1587,15 @@ > > DPRINTF("All memory is saved\n"); > > + /* After last_iter, buffer the rest of pagebuf & tailbuf data into a > + * separate output buffer and flush it after the compressed page chunks. > + */ > + if (compression) > + { > + ob = &ob_tailbuf; > + ob->pos = 0; > + } > + > { > struct { > int id; > @@ -1573,6 +1695,25 @@ > } > } > > + /* Enable compression logic on both sides by sending this > + * one time marker. > + * NOTE: We could have simplified this procedure by sending > + * the enable/disable compression flag before the beginning of > + * the main for loop. But this would break compatibility for > + * live migration code, with older versions of xen. So we have > + * to enable it after the last_iter, when the XC_SAVE_ID_* > + * elements are sent. > + */ > + if (!compression && (flags & XCFLAGS_REMUS_COMPRESS)) > + { > + i = XC_SAVE_ID_ENABLE_COMPRESSION; > + if ( wrexact(io_fd, &i, sizeof(int)) ) > + { > + PERROR("Error when writing enable_compression marker"); > + goto out; > + } > + } > + > /* Zero terminate */ > i = 0; > if ( wrexact(io_fd, &i, sizeof(int)) ) > @@ -1817,14 +1958,38 @@ > if ( !rc && callbacks->postcopy ) > callbacks->postcopy(callbacks->data); > > + /* guest has been resumed. Now we can compress data > + * at our own pace. > + */ > + if (!rc && compression) > + { > + ob = &ob_pagebuf; > + if (wrcompressed(io_fd) < 0) > + { > + ERROR("Error when writing compressed data, after postcopy\n"); > + rc = 1; > + goto out; > + } > + /* Copy the tailbuf data into the main outbuf */ > + if ( wrexact(io_fd, ob_tailbuf.buf, ob_tailbuf.pos) ) > + { > + rc = 1; > + PERROR("Error when copying tailbuf into outbuf"); > + goto out; > + } > + } > + > /* Flush last write and discard cache for file. */ > - if ( outbuf_flush(xch, &ob, io_fd) < 0 ) { > + if ( outbuf_flush(xch, ob, io_fd) < 0 ) { > PERROR("Error when flushing output buffer"); > rc = 1; > } > > discard_file_cache(xch, io_fd, 1 /* flush */); > > + /* Enable compression now, finally */ > + compression = (flags & XCFLAGS_REMUS_COMPRESS); > + > /* checkpoint_cb can spend arbitrarily long in between rounds */ > if (!rc && callbacks->checkpoint && > callbacks->checkpoint(callbacks->data) > 0) > @@ -1866,6 +2031,9 @@ > DPRINTF("Warning - couldn''t disable qemu log-dirty mode"); > } > > + if (remus_ctx) > + xc_remus_free_context(xch, remus_ctx); > + > if ( live_shinfo ) > munmap(live_shinfo, PAGE_SIZE); > > diff -r 23c068b10923 -r b4974a38d101 tools/libxc/xc_remus.c > --- /dev/null Thu Jan 01 00:00:00 1970 +0000 > +++ b/tools/libxc/xc_remus.c Sat Jun 18 20:51:59 2011 -0700 > @@ -0,0 +1,465 @@ > +/****************************************************************************** > + * xc_remus.c > + * > + * Checkpoint Compression using Page Delta Algorithm. > + * - A LRU cache of recently dirtied guest pages is maintained. > + * - For each dirty guest page in the checkpoint, if a previous version of the > + * page exists in the cache, XOR both pages and send the non-zero sections > + * to the receiver. The cache is then updated with the newer copy of guest page. > + * - The receiver will XOR the non-zero sections against its copy of the guest > + * page, thereby bringing the guest page up-to-date with the sender side. > + * > + * Copyright (c) 2011 Shriram Rajagopalan (rshriram@cs.ubc.ca). > + * > + * This library is free software; you can redistribute it and/or > + * modify it under the terms of the GNU Lesser General Public > + * License as published by the Free Software Foundation; > + * version 2.1 of the License. > + * > + * This library is distributed in the hope that it will be useful, > + * but WITHOUT ANY WARRANTY; without even the implied warranty of > + * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU > + * Lesser General Public License for more details. > + * > + * You should have received a copy of the GNU Lesser General Public > + * License along with this library; if not, write to the Free Software > + * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA > + * > + */ > + > +#include <stdio.h> > +#include <stdlib.h> > +#include <unistd.h> > +#include <sys/types.h> > +#include <inttypes.h> > +#include <errno.h> > +#include "xenctrl.h" > +#include "xg_save_restore.h" > +#include "xg_private.h" > + > +/* Already defined in xc_dom.h, but it doesnt have > + * a conditional include macro. So, redifine here. > + */ > +#define INVALID_P2M_ENTRY ((xen_pfn_t)-1) > + > +/* Page Cache for Delta Compression*/ > +#define DELTA_CACHE_SIZE (XC_PAGE_SIZE * 8192) > + > +struct cache_page; > +struct cache_page > +{ > + char *page; > + unsigned long pfn; > + struct cache_page *next; > + struct cache_page *prev; > +}; > + > +/* After XORing the older and newer version, the non-zero sections > + * are sent as a sequence of tuples <2-byte-offset,4-byte-data> called markers. > + * - Each page begins with a BEGIN marker (for synchronization). > + * - If the result of XOR is a page filled with zeros (i.e no difference between > + * old and new page, then only the BEGIN marker is sent for the page. > + * - If the two versions of the page differ by more than 50%, the page is sent > + * as is, with a FULLPAGE marker, without a BEGIN marker. > + * > + * About the choice of data types: typical page size is 4K. Each marker is > + * 6 bytes long, with a 4-byte data word (1024 data words per page). If 50% of > + * the page changed, then we would be transmitting ~3000 bytes (worst case). > + * - If we use 8-byte data word (10-byte marker), we end up sending > + * ~5000 bytes (>4096). > + */ > + > +typedef unsigned int data_t; > +typedef short int moff_t; > + > +#define BEGIN -100 > +#define FULLPAGE -101 > +struct marker > +{ > + moff_t off; > + data_t val; > +} __attribute__((packed)); > + > +static struct marker begin_page = { BEGIN, -1}; > +static struct marker full_page = {FULLPAGE, -1}; > + > +/* Internal page buffer to hold dirty pages of a checkpoint, > + * to be compressed after the domain is resumed for execution. > + */ > +#define PAGE_BUFFER_SIZE (XC_PAGE_SIZE * 8192) > + > +struct remus_context > +{ > + /* compression buffer - holds compressed data */ > + char *compbuf; > + unsigned long compbuf_size; > + unsigned long compbuf_pos; > + > + /* Page buffer to hold pages to be compressed */ > + char *inputbuf; > + /* pfns of pages to be compressed */ > + unsigned long *sendbuf_pfns; > + unsigned int pfns_index; > + unsigned int pfns_iterator; > + > + /* Compression Cache (LRU) */ > + char *cache_base; > + struct cache_page **pfn2cache; > + struct cache_page *cache2pfn; > + struct cache_page *page_list_head; > + struct cache_page *page_list_tail; > +}; > + > +static > +int __compress(xc_interface *xch, struct remus_context *ctx, char *srcpage, > + char *copypage, int israw) > +{ > + struct marker *dest = (struct marker *)(ctx->compbuf+ ctx->compbuf_pos); > + moff_t off; > + int j=0, rc = 0; > + data_t *src, *copy; > + > + src = (data_t*)srcpage; > + copy = (data_t*)copypage; > + > + if ((ctx->compbuf_pos + sizeof(struct marker)) > ctx->compbuf_size) > + return -1; > + > + if (!israw && copypage) > + { > + dest[j++] = begin_page; > + for (off = 0; off < XC_PAGE_SIZE/sizeof(data_t); off++) > + { > + if (copy[off] != src[off]) > + { > + if ((ctx->compbuf_pos + (j + 1) * > + sizeof(struct marker)) > ctx->compbuf_size) > + return -1; > + > + copy[off] = src[off]; > + dest[j].off = off; > + dest[j].val = src[off]; > + j++; > + } > + if (j > 500) /* more than 50% of page changed */ > + goto FullPage; > + } > + rc = (j * sizeof(struct marker)); > + } > + else > + { > + FullPage: > + if ( (ctx->compbuf_pos + sizeof(struct marker) > + + XC_PAGE_SIZE) > ctx->compbuf_size) > + return -1; > + > + dest[0] = full_page; > + if (copypage) > + memcpy(copypage, srcpage, XC_PAGE_SIZE); > + memcpy((char *)&dest[1], srcpage, XC_PAGE_SIZE); > + rc = XC_PAGE_SIZE + sizeof(struct marker); > + } > + ctx->compbuf_pos += rc; > + > + return rc; > +} > + > +static > +int __uncompress(xc_interface *xch, char *destpage, unsigned long *compbuf_pos, > + char *compbuf, unsigned long compbuf_size) > +{ > + struct marker *src = (struct marker *)(compbuf + *compbuf_pos); > + int i; > + data_t *dest = (data_t *)destpage; > + > + if (*compbuf_pos >= compbuf_size) > + { > + ERROR("Out of bounds exception: read ptr:%lu, bufsize = %lu\n", > + *compbuf_pos, compbuf_size); > + return -1; > + } > + > + if (src[0].off == BEGIN) > + { > + *compbuf_pos += sizeof(struct marker); > + for (i = 1; (*compbuf_pos < compbuf_size) && (src[i].off >= 0); > + i++, *compbuf_pos += sizeof(struct marker)) > + dest[src[i].off] = src[i].val; > + } > + else if (src[0].off == FULLPAGE) > + { > + *compbuf_pos += sizeof(struct marker) + XC_PAGE_SIZE; > + memcpy(destpage, (char *)&src[1], XC_PAGE_SIZE); > + } > + else > + { > + ERROR("Invalid marker %d in compression buffer at %u\n", > + src[0].off, *compbuf_pos); > + return -1; > + } > + return 0; > +} > + > +static > +char *get_cache_page(struct remus_context *ctx, unsigned long pfn, > + int *israw) > +{ > + struct cache_page *item = NULL; > + > +start: > + item = ctx->pfn2cache[pfn]; > + /* if requested item is in cache move to head of list */ > + if (item) > + { > + /* item already at head of list */ > + if (item == ctx->page_list_head) > + goto end; > + if (item == ctx->page_list_tail) > + { > + /* item at tail of list. */ > + ctx->page_list_tail = item->prev; > + (ctx->page_list_tail)->next = NULL; > + } > + else > + { > + /* item in middle of list */ > + item->prev->next = item->next; > + item->next->prev = item->prev; > + } > + > + item->prev = NULL; > + item->next = ctx->page_list_head; > + (ctx->page_list_head)->prev = item; > + ctx->page_list_head = item; > + goto end; > + } > + else > + { > + *israw = 1; > + /* Add new item to list. If list is full, > + * evict a page from tail of list. > + */ > + if ((ctx->page_list_tail)->pfn != INVALID_P2M_ENTRY) > + ctx->pfn2cache[(ctx->page_list_tail)->pfn] = NULL; > + (ctx->page_list_tail)->pfn = pfn; > + ctx->pfn2cache[pfn] = ctx->page_list_tail; > + > + /* Will have same effect as cache hit at tail of list */ > + goto start; > + } > +end: > + return (ctx->page_list_head)->page; > +} > + > +/* Remove pagetable pages from cache and move to tail, as free pages */ > +static > +void invalidate_cache_page(struct remus_context *ctx, unsigned long pfn) > +{ > + struct cache_page *item = NULL; > + > + item = ctx->pfn2cache[pfn]; > + if (item) > + { > + /* item at head of list */ > + if (item == ctx->page_list_head) > + { > + ctx->page_list_head = (ctx->page_list_head)->next; > + (ctx->page_list_head)->prev = NULL; > + } > + else if (item == ctx->page_list_tail) > + { > + /* item already at tail of list. */ > + goto end; > + } > + else > + { > + /* item in middle of list */ > + item->prev->next = item->next; > + item->next->prev = item->prev; > + } > + item->next = NULL; > + item->prev = ctx->page_list_tail; > + (ctx->page_list_tail)->next = item; > + ctx->page_list_tail = item; > + end: > + ctx->pfn2cache[pfn] = NULL; > + (ctx->page_list_tail)->pfn = INVALID_P2M_ENTRY; > + } > +} > + > +int xc_remus_add_page(xc_interface *xch, void *remus_ctx, char *page, > + unsigned long pfn, int israw) > +{ > + struct remus_context *ctx = (struct remus_context *)remus_ctx; > + > + /* pagetable page */ > + if (israw) > + invalidate_cache_page(ctx, pfn); > + ctx->sendbuf_pfns[ctx->pfns_index] = israw? INVALID_P2M_ENTRY : pfn; > + memcpy(ctx->inputbuf + ctx->pfns_index * XC_PAGE_SIZE, page, XC_PAGE_SIZE); > + ctx->pfns_index++; > + > + /* check if we have run out of space. If so, > + * we need to synchronously compress the pages and flush them out > + */ > + if (ctx->pfns_index == NRPAGES(PAGE_BUFFER_SIZE)) > + return -1; > + return 0; > +} > + > +int xc_remus_compress(xc_interface *xch, void *remus_ctx) > +{ > + struct remus_context *ctx = (struct remus_context *)remus_ctx; > + char *cache_copy = NULL; > + int israw; > + > + if (!ctx->pfns_index || (ctx->pfns_iterator == ctx->pfns_index)) > + return 0; > + > + for (; ctx->pfns_iterator < ctx->pfns_index; ctx->pfns_iterator++) > + { > + israw = 0; > + cache_copy = NULL; > + if (ctx->sendbuf_pfns[ctx->pfns_iterator] == INVALID_P2M_ENTRY) > + israw = 1; > + else > + cache_copy = get_cache_page(ctx, ctx->sendbuf_pfns[ctx->pfns_iterator], > + &israw); > + > + /* Out of space in outbuf! flush and come back */ > + if (__compress(xch, ctx, ctx->inputbuf + ctx->pfns_iterator * XC_PAGE_SIZE, > + cache_copy, israw) < 0) > + return -1; > + } > + > + return 1; > +} > + > +inline > +unsigned long xc_remus_get_compbuf_len(xc_interface *xch, void *remus_ctx) > +{ > + struct remus_context *ctx = (struct remus_context *)remus_ctx; > + return ctx->compbuf_pos; > +} > + > +inline > +void xc_remus_compbuf_set(xc_interface *xch, void *remus_ctx, > + char *compbuf, unsigned long compbuf_size) > +{ > + struct remus_context *ctx = (struct remus_context *)remus_ctx; > + ctx->compbuf_pos = 0; > + ctx->compbuf = compbuf; > + ctx->compbuf_size = compbuf_size; > +} > + > +inline > +void xc_remus_pagebuf_reset(xc_interface *xch, void *remus_ctx) > +{ > + struct remus_context *ctx = (struct remus_context *)remus_ctx; > + ctx->pfns_index = ctx->pfns_iterator = 0; > +} > + > +int xc_remus_uncompress(xc_interface *xch, char *compbuf, > + unsigned long compbuf_size, > + unsigned long *compbuf_pos, char *dest) > +{ > + return __uncompress(xch, dest, compbuf_pos, compbuf, compbuf_size); > +} > + > +void xc_remus_free_context(xc_interface *xch, void *ctx) > +{ > + struct remus_context *remus_ctx = (struct remus_context *)ctx; > + > + if (!remus_ctx) return; > + > + if (remus_ctx->inputbuf) > + free(remus_ctx->inputbuf); > + if (remus_ctx->sendbuf_pfns) > + free(remus_ctx->sendbuf_pfns); > + if (remus_ctx->cache_base) > + free(remus_ctx->cache_base); > + if (remus_ctx->pfn2cache) > + free(remus_ctx->pfn2cache); > + if (remus_ctx->cache2pfn) > + free(remus_ctx->cache2pfn); > + free(remus_ctx); > +} > + > +void *xc_remus_create_context(xc_interface *xch, unsigned long p2m_size) > +{ > + unsigned long i; > + struct remus_context *remus_ctx = NULL; > + unsigned long num_cache_pages = DELTA_CACHE_SIZE/XC_PAGE_SIZE; > + > + remus_ctx = malloc(sizeof(struct remus_context)); > + if (!remus_ctx) > + { > + ERROR("Failed to allocate remus_ctx\n"); > + goto error; > + } > + memset(remus_ctx, 0, sizeof(struct remus_context)); > + > + if (posix_memalign((void **)&remus_ctx->inputbuf, > + XC_PAGE_SIZE, PAGE_BUFFER_SIZE)) > + { > + ERROR("Failed to allocate page buffer\n"); > + goto error; > + } > + > + remus_ctx->sendbuf_pfns = malloc(NRPAGES(PAGE_BUFFER_SIZE) * > + sizeof(unsigned long)); > + if (!remus_ctx->sendbuf_pfns) > + { > + ERROR("Could not alloc sendbuf_pfns\n"); > + goto error; > + } > + memset(remus_ctx->sendbuf_pfns, -1, > + NRPAGES(PAGE_BUFFER_SIZE) * sizeof(unsigned long)); > + > + if (posix_memalign((void **)&remus_ctx->cache_base, > + XC_PAGE_SIZE, DELTA_CACHE_SIZE)) > + { > + ERROR("Failed to allocate delta cache\n"); > + goto error; > + } > + > + remus_ctx->pfn2cache = calloc(p2m_size, sizeof(struct cache_page *)); > + if (!remus_ctx->pfn2cache) > + { > + ERROR("Could not alloc pfn2cache map\n"); > + goto error; > + } > + > + remus_ctx->cache2pfn = malloc(num_cache_pages * sizeof(struct cache_page)); > + if (!remus_ctx->cache2pfn) > + { > + ERROR("Could not alloc cache2pfn map\n"); > + goto error; > + } > + > + for (i = 0; i < num_cache_pages; i++) > + { > + remus_ctx->cache2pfn[i].pfn = INVALID_P2M_ENTRY; > + remus_ctx->cache2pfn[i].page = remus_ctx->cache_base + i * XC_PAGE_SIZE; > + remus_ctx->cache2pfn[i].prev = (i == 0)? NULL : &(remus_ctx->cache2pfn[i - 1]); > + remus_ctx->cache2pfn[i].next = ((i+1) == num_cache_pages)? NULL : > + &(remus_ctx->cache2pfn[i + 1]); > + } > + remus_ctx->page_list_head = &(remus_ctx->cache2pfn[0]); > + remus_ctx->page_list_tail = &(remus_ctx->cache2pfn[num_cache_pages -1]); > + > + return (void *)remus_ctx; > +error: > + xc_remus_free_context(xch, remus_ctx); > + return NULL; > +} > + > +/* > + * Local variables: > + * mode: C > + * c-set-style: "BSD" > + * c-basic-offset: 4 > + * tab-width: 4 > + * indent-tabs-mode: nil > + * End: > + */ > diff -r 23c068b10923 -r b4974a38d101 tools/libxc/xenctrl.h > --- a/tools/libxc/xenctrl.h Wed Jun 15 16:16:41 2011 +0100 > +++ b/tools/libxc/xenctrl.h Sat Jun 18 20:51:59 2011 -0700 > @@ -1820,4 +1820,58 @@ > int verbose); > /* Useful for callers who also use libelf. */ > > +/** > + * Remus Checkpoint Compression > + */ > +void *xc_remus_create_context(xc_interface *xch, unsigned long p2m_size); > +void xc_remus_free_context(xc_interface *xch, void *remus_ctx); > + > +/** > + * Add a page to remus buffer, to be compressed later. > + * returns -1 if there is no space in buffer. > + */ > +int xc_remus_add_page(xc_interface *xch, void *remus_ctx, char *page, > + unsigned long pfn, int israw); > + > +/** > + * Should be called before compressing the pages. Caller supplies a > + * compression buffer compbuf of size compbuf_size. > + */ > +void xc_remus_compbuf_set(xc_interface *xch, void *remus_ctx, char *compbuf, > + unsigned long compbuf_size); > + > +/** > + * Delta compress pages in the remus buffer and inserts the > + * compressed data into the previously supplied compression buffer, compbuf. > + * After compression, the page is copied to the internal LRU cache. > + * > + * This function compresses as many pages as possible into the > + * supplied compression buffer. It maintains an internal iterator to > + * keep track of pages in the input buffer that are yet to be compressed. > + * > + * returns -1 if the compression buffer has run out of space. > + * returns 1 on success. > + * returns 0 if no more pages are left to be compressed. > + */ > +int xc_remus_compress(xc_interface *xch, void *remus_ctx); > + > +/** > + * Returns the exact length of data, in the compression buffer. > + */ > +unsigned long xc_remus_get_compbuf_len(xc_interface *xch, void *remus_ctx); > + > +/** > + * Resets the internal page buffer that holds dirty pages before compression. > + * Also resets the iterators. > + */ > +void xc_remus_pagebuf_reset(xc_interface *xch, void *remus_ctx); > + > +/** > + * Caller must supply the compression buffer (compbuf), its size (compbuf_size) and > + * an reference to index variable (compbuf_pos) that is used internally. > + * Each call pulls out one page from the compressed chunk and copies it to dest. > + */ > +int xc_remus_uncompress(xc_interface *xch, char *compbuf, unsigned long compbuf_size, > + unsigned long *compbuf_pos, char *dest); > + > #endif /* XENCTRL_H */ > diff -r 23c068b10923 -r b4974a38d101 tools/libxc/xenguest.h > --- a/tools/libxc/xenguest.h Wed Jun 15 16:16:41 2011 +0100 > +++ b/tools/libxc/xenguest.h Sat Jun 18 20:51:59 2011 -0700 > @@ -27,6 +27,7 @@ > #define XCFLAGS_DEBUG 2 > #define XCFLAGS_HVM 4 > #define XCFLAGS_STDVGA 8 > +#define XCFLAGS_REMUS_COMPRESS 16 > #define X86_64_B_SIZE 64 > #define X86_32_B_SIZE 32 > > diff -r 23c068b10923 -r b4974a38d101 tools/libxc/xg_save_restore.h > --- a/tools/libxc/xg_save_restore.h Wed Jun 15 16:16:41 2011 +0100 > +++ b/tools/libxc/xg_save_restore.h Sat Jun 18 20:51:59 2011 -0700 > @@ -134,6 +134,8 @@ > #define XC_SAVE_ID_HVM_CONSOLE_PFN -8 /* (HVM-only) */ > #define XC_SAVE_ID_LAST_CHECKPOINT -9 /* Commit to restoring after completion of current iteration. */ > #define XC_SAVE_ID_HVM_ACPI_IOPORTS_LOCATION -10 > +#define XC_SAVE_ID_COMPRESSED_DATA -11 /* Marker to indicate arrival of compressed data */ > +#define XC_SAVE_ID_ENABLE_COMPRESSION -12 /* Marker to enable compression logic at receiver side */ > > /* > ** We process save/restore/migrate in batches of pages; the below_______________________________________________ Xen-devel mailing list Xen-devel@lists.xensource.com http://lists.xensource.com/xen-devel
Ian Jackson
2011-Jun-21 15:18 UTC
Re: [Xen-devel] [PATCH 0 of 2] [Resend v2] remus: Checkpoint Compression
Shriram Rajagopalan writes ("[Xen-devel] [PATCH 0 of 2] [Resend v2] remus:
Checkpoint Compression"):> This patch series adds checkpoint compression functionality to Remus.
Can I ask a rather fundamental question: why is it a good idea to hook
this page compression logic into the guts of the already-complicated
migration code, rather than simply using transport compression for the
whole remus stream ?
The latter would be a good deal simpler.
Ian.
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George Dunlap
2011-Jun-21 15:25 UTC
Re: [Xen-devel] [PATCH 0 of 2] [Resend v2] remus: Checkpoint Compression
If I understand the patch correctly,the compression is of a special kind: it''s not gzipped, but the new page is compared to the previous page, and only the differences sent. (This is done in a clever way to be computationally efficient.) So simply running the whole stream through gzip won''t have the same effect: it won''t take advantage of the fact that most of the data already exists on the remote side, and only send the differences. So it will most likely take more computation power to compress, and end up with a higher bandwitdh. -George On Tue, 2011-06-21 at 16:18 +0100, Ian Jackson wrote:> Shriram Rajagopalan writes ("[Xen-devel] [PATCH 0 of 2] [Resend v2] remus: Checkpoint Compression"): > > This patch series adds checkpoint compression functionality to Remus. > > Can I ask a rather fundamental question: why is it a good idea to hook > this page compression logic into the guts of the already-complicated > migration code, rather than simply using transport compression for the > whole remus stream ? > > The latter would be a good deal simpler. > > Ian._______________________________________________ Xen-devel mailing list Xen-devel@lists.xensource.com http://lists.xensource.com/xen-devel
Ian Jackson
2011-Jun-21 15:29 UTC
Re: [Xen-devel] [PATCH 0 of 2] [Resend v2] remus: Checkpoint Compression
George Dunlap writes ("Re: [Xen-devel] [PATCH 0 of 2] [Resend v2] remus:
Checkpoint Compression"):> If I understand the patch correctly,the compression is of a special
> kind: it''s not gzipped, but the new page is compared to the
previous
> page, and only the differences sent. (This is done in a clever way to
> be computationally efficient.)
>
> So simply running the whole stream through gzip won''t have the
same
> effect: it won''t take advantage of the fact that most of the data
> already exists on the remote side, and only send the differences. So it
> will most likely take more computation power to compress, and end up
> with a higher bandwitdh.
Thanks. I shall read the patch in more detail.
Ian.
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Shriram Rajagopalan
2011-Jun-21 16:17 UTC
Re: [Xen-devel] [PATCH 0 of 2] [Resend v2] remus: Checkpoint Compression
On Tue, Jun 21, 2011 at 11:29 AM, Ian Jackson <Ian.Jackson@eu.citrix.com>wrote:> George Dunlap writes ("Re: [Xen-devel] [PATCH 0 of 2] [Resend v2] remus: > Checkpoint Compression"): > > If I understand the patch correctly,the compression is of a special > > kind: it''s not gzipped, but the new page is compared to the previous > > page, and only the differences sent. (This is done in a clever way to > > be computationally efficient.) > > > > So simply running the whole stream through gzip won''t have the same > > effect: it won''t take advantage of the fact that most of the data > > already exists on the remote side, and only send the differences. So it > > will most likely take more computation power to compress, and end up > > with a higher bandwitdh. > > Thanks George. That about sums the idea behind the patch.shriram> Thanks. I shall read the patch in more detail. > > Ian. > >_______________________________________________ Xen-devel mailing list Xen-devel@lists.xensource.com http://lists.xensource.com/xen-devel
Ian Campbell
2011-Jun-22 08:23 UTC
Re: [Xen-devel] [PATCH 0 of 2] [Resend v2] remus: Checkpoint Compression
On Sun, 2011-06-19 at 05:32 +0100, Shriram Rajagopalan wrote:> This patch series adds checkpoint compression functionality to Remus.Would there be any benefit to applying this technique to the second and subsequent rounds of a normal live migration? Or do you need the greater number of rounds which Remus implies to really see the benefit? Ian. _______________________________________________ Xen-devel mailing list Xen-devel@lists.xensource.com http://lists.xensource.com/xen-devel
Shriram Rajagopalan
2011-Jun-22 16:47 UTC
Re: [Xen-devel] [PATCH 0 of 2] [Resend v2] remus: Checkpoint Compression
On Wed, Jun 22, 2011 at 4:23 AM, Ian Campbell <Ian.Campbell@citrix.com>wrote:> On Sun, 2011-06-19 at 05:32 +0100, Shriram Rajagopalan wrote: > > This patch series adds checkpoint compression functionality to Remus. > > Would there be any benefit to applying this technique to the second and > subsequent rounds of a normal live migration? Or do you need the greater > number of rounds which Remus implies to really see the benefit? > > The benefits (bandwidth wise) will show up from 3rd round or so. 1st round,since "all" pages are sent as-is, they are not cached. 2nd round is where you would start caching pages. 3rd round onwards, you would see the benefits of the compression (depending on the workload in the VM). It all really depends on the workload, network state (lan vs wan) at the time of live migration. I havent really played around with live migration+compression combo, to give you a definitive yes/no. Ian.> > >_______________________________________________ Xen-devel mailing list Xen-devel@lists.xensource.com http://lists.xensource.com/xen-devel
George Dunlap
2011-Jun-23 10:55 UTC
Re: [Xen-devel] [PATCH 0 of 2] [Resend v2] remus: Checkpoint Compression
On Wed, Jun 22, 2011 at 5:47 PM, Shriram Rajagopalan <rshriram@cs.ubc.ca> wrote:> On Wed, Jun 22, 2011 at 4:23 AM, Ian Campbell <Ian.Campbell@citrix.com> > wrote: >> >> On Sun, 2011-06-19 at 05:32 +0100, Shriram Rajagopalan wrote: >> > This patch series adds checkpoint compression functionality to Remus. >> >> Would there be any benefit to applying this technique to the second and >> subsequent rounds of a normal live migration? Or do you need the greater >> number of rounds which Remus implies to really see the benefit? >> > The benefits (bandwidth wise) will show up from 3rd round or so. 1st round, > since > "all" pages are sent as-is, they are not cached. 2nd round is where you > would > start caching pages. 3rd round onwards, you would see the benefits of the > compression > (depending on the workload in the VM).So it sounds like the amount of bandwidth savings depends on how many rounds you go after the 2nd round; I''m not sure how many that is on average, but it seems unlikely to be too large. On the other hand, if there''s not too much of a cost, it might actually make the code simpler to send compressed checkpoints by default, rather than by gating them on Remus. -George _______________________________________________ Xen-devel mailing list Xen-devel@lists.xensource.com http://lists.xensource.com/xen-devel
Shriram Rajagopalan
2011-Jun-23 15:08 UTC
Re: [Xen-devel] [PATCH 0 of 2] [Resend v2] remus: Checkpoint Compression
On Thu, Jun 23, 2011 at 6:55 AM, George Dunlap <George.Dunlap@eu.citrix.com>wrote:> On Wed, Jun 22, 2011 at 5:47 PM, Shriram Rajagopalan <rshriram@cs.ubc.ca> > wrote: > > On Wed, Jun 22, 2011 at 4:23 AM, Ian Campbell <Ian.Campbell@citrix.com> > > wrote: > >> > >> On Sun, 2011-06-19 at 05:32 +0100, Shriram Rajagopalan wrote: > >> > This patch series adds checkpoint compression functionality to Remus. > >> > >> Would there be any benefit to applying this technique to the second and > >> subsequent rounds of a normal live migration? Or do you need the greater > >> number of rounds which Remus implies to really see the benefit? > >> > > The benefits (bandwidth wise) will show up from 3rd round or so. 1st > round, > > since > > "all" pages are sent as-is, they are not cached. 2nd round is where you > > would > > start caching pages. 3rd round onwards, you would see the benefits of the > > compression > > (depending on the workload in the VM). > > So it sounds like the amount of bandwidth savings depends on how many > rounds you go after the 2nd round; I''m not sure how many that is on > average, but it seems unlikely to be too large. > > Yes. That is what I was driving at.> On the other hand, if there''s not too much of a cost, >For compression, there is an additional overhead of 64M memory + 2 full page scans (original page + cached page) to compute the diff. For Remus, small changes to a page get amplified to full page transmissions without compression. And since Remus runs forever, this is bad in long term. OTOH, for live migration, while it makes code simpler and possibly reduces bandwidth, is it worth the cost mentioned above?> it might > actually make the code simpler to send compressed checkpoints by > default, rather than by gating them on Remus. > > -George > >_______________________________________________ Xen-devel mailing list Xen-devel@lists.xensource.com http://lists.xensource.com/xen-devel
Ian Jackson
2011-Jun-27 15:33 UTC
Re: [Xen-devel] [PATCH 1 of 2] tools/libxc: Remus Checkpoint Compression
Shriram Rajagopalan writes ("[Xen-devel] [PATCH 1 of 2] tools/libxc: Remus
Checkpoint Compression"):> [stuff]
Thanks for this. I have some comments.
TBH I don''t think "remus" is the right name for this
functionality.
This checkpoint compression may be useful in non-Remus applications
(we won''t know until we get some numbers) so it would be sensible to
name the functions and files accordingly.
> + if (!buf->pages) {
> + if (!(buf->pages = malloc(buf->compbuf_size))) {
> + ERROR("Could not allocate compression buffer");
> + return -1;
> + }
> + } else {
> + if (!(ptmp = realloc(buf->pages, buf->compbuf_size))) {
> + ERROR("Could not reallocate compression
buffer");
> + return -1;
> + }
> + buf->pages = ptmp;
realloc(0, some_nonzero_size) is legal and does what you would hope.
Using that would simplify this. (Yes, I know the original code does
it the verbose way later too...)
> +static
> +int __uncompress(xc_interface *xch, char *destpage, unsigned long
*compbuf_pos,
> + char *compbuf, unsigned long compbuf_size)
Identifiers starting with "__" are reserved for the C implementation
and must not be used in Xen userspace libraries like libxc. (The same
goes for identifiers starting with "_" with external linkage; although
those may be used for other purposes.)
> +typedef unsigned int data_t;
uint16_t surely.
> + if (src[0].off == BEGIN)
> + {
> + *compbuf_pos += sizeof(struct marker);
> + for (i = 1; (*compbuf_pos < compbuf_size) &&
(src[i].off >= 0);
> + i++, *compbuf_pos += sizeof(struct marker))
> + dest[src[i].off] = src[i].val;
> + }
> + else if (src[0].off == FULLPAGE)
> + {
> + *compbuf_pos += sizeof(struct marker) + XC_PAGE_SIZE;
> + memcpy(destpage, (char *)&src[1], XC_PAGE_SIZE);
> + }
I think there are some bugs here:
1. The accesses of src, and both arms of the conditional I quote
above, seem to be able to read beyond the end of the compressed
data buffer.
2. The value of src[i].off is used without checking that it''s within
the allowable range.
3. The code seems to be full of unaligned accesses.
When you have prepared a draft revised patch, can you please have
another Remus developer review the code for security problems ?
I would like to see them provide a formal reviewed-by/acked-by on your
resubmission.
Thanks,
Ian.
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Shriram Rajagopalan
2011-Jun-27 17:22 UTC
Re: [Xen-devel] [PATCH 1 of 2] tools/libxc: Remus Checkpoint Compression
On Mon, Jun 27, 2011 at 11:33 AM, Ian Jackson <Ian.Jackson@eu.citrix.com>wrote:> Shriram Rajagopalan writes ("[Xen-devel] [PATCH 1 of 2] tools/libxc: Remus > Checkpoint Compression"): > > [stuff] > > Thanks for this. I have some comments. > > TBH I don''t think "remus" is the right name for this functionality. > This checkpoint compression may be useful in non-Remus applications > (we won''t know until we get some numbers) so it would be sensible to > name the functions and files accordingly. > > > + if (!buf->pages) { > > + if (!(buf->pages = malloc(buf->compbuf_size))) { > > + ERROR("Could not allocate compression buffer"); > > + return -1; > > + } > > + } else { > > + if (!(ptmp = realloc(buf->pages, buf->compbuf_size))) { > > + ERROR("Could not reallocate compression buffer"); > > + return -1; > > + } > > + buf->pages = ptmp; > > realloc(0, some_nonzero_size) is legal and does what you would hope. > Using that would simplify this. (Yes, I know the original code does > it the verbose way later too...) > > > +static > > +int __uncompress(xc_interface *xch, char *destpage, unsigned long > *compbuf_pos, > > + char *compbuf, unsigned long compbuf_size) > > Identifiers starting with "__" are reserved for the C implementation > and must not be used in Xen userspace libraries like libxc. (The same > goes for identifiers starting with "_" with external linkage; although > those may be used for other purposes.) > > > +typedef unsigned int data_t; > > uint16_t surely. > > > + if (src[0].off == BEGIN) > > + { > > + *compbuf_pos += sizeof(struct marker); > > + for (i = 1; (*compbuf_pos < compbuf_size) && (src[i].off >= 0); > > + i++, *compbuf_pos += sizeof(struct marker)) > > + dest[src[i].off] = src[i].val; > > + } > > + else if (src[0].off == FULLPAGE) > > + { > > + *compbuf_pos += sizeof(struct marker) + XC_PAGE_SIZE; > > + memcpy(destpage, (char *)&src[1], XC_PAGE_SIZE); > > + } > > I think there are some bugs here: > > 1. The accesses of src, and both arms of the conditional I quote > above, seem to be able to read beyond the end of the compressed > data buffer. >I dont think that is possible in the if() block , as the conditional in the for statement (*compbuf_pos < compbuf_size) takes care of it. But I agree that the else() block can use some checks.> > 2. The value of src[i].off is used without checking that it''s within > the allowable range. >3. The code seems to be full of unaligned accesses.> > Can you elaborate on this? When the data is compressed, it automaticallyloses the alignments (no more page boundaries, or 4 byte boundaries). Do you mean padding the struct marker to 8 bytes instead of 6 bytes ? (the counter argument is given in the comment section preceding the typedefs) When you have prepared a draft revised patch, can you please have> another Remus developer review the code for security problems ? > I would like to see them provide a formal reviewed-by/acked-by on your > resubmission. > > Thanks, > Ian. > > shriram_______________________________________________ Xen-devel mailing list Xen-devel@lists.xensource.com http://lists.xensource.com/xen-devel
Ian Jackson
2011-Jun-28 11:29 UTC
Re: [Xen-devel] [PATCH 1 of 2] tools/libxc: Remus Checkpoint Compression
Shriram Rajagopalan writes ("Re: [Xen-devel] [PATCH 1 of 2] tools/libxc:
Remus Checkpoint Compression"):> On Mon, Jun 27, 2011 at 11:33 AM, Ian Jackson
<Ian.Jackson@eu.citrix.com>wrote:
> > I think there are some bugs here:
> >
> > 1. The accesses of src, and both arms of the conditional I quote
> > above, seem to be able to read beyond the end of the compressed
> > data buffer.
>
> I dont think that is possible in the if() block , as the conditional in the
> for statement (*compbuf_pos < compbuf_size) takes care of it. But I
agree
> that the else() block can use some checks.
No. Also the for loop''s use of two variables which have to be kept
in step to avoid overrunning is poor style.
> > 3. The code seems to be full of unaligned accesses.
>
> Can you elaborate on this? When the data is compressed, it automatically
> loses the alignments (no more page boundaries, or 4 byte boundaries).
> Do you mean padding the struct marker to 8 bytes instead of 6 bytes ?
> (the counter argument is given in the comment section preceding the
> typedefs)
I mean the decompressor makes many accesses to larger-than-char
objects using addresses computed using arbitrary offsets. Unaligned
accesses are not legal portable C and even on architectures where they
don''t trap they are often slow.
> > When you have prepared a draft revised patch, can you please have
> > another Remus developer review the code for security problems ?
> > I would like to see them provide a formal reviewed-by/acked-by on your
> > resubmission.
Perhaps you can get another of the Remus developers to help you
develop your C programming skills.
Ian.
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