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|
/*
* Xen domain builder -- core bits.
*
* The core code goes here:
* - allocate and release domain structs.
* - memory management functions.
* - misc helper functions.
*
* 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
*
* written 2006 by Gerd Hoffmann <kraxel@suse.de>.
*
*/
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <stdarg.h>
#include <inttypes.h>
#include <zlib.h>
#include <assert.h>
#include "xg_private.h"
#include "xc_dom.h"
/* ------------------------------------------------------------------------ */
/* debugging */
static const char *default_logfile = "/var/log/xen/domain-builder-ng.log";
int xc_dom_loginit(xc_interface *xch) {
if (xch->dombuild_logger) return 0;
if (!xch->dombuild_logger_file) {
xch->dombuild_logger_file = fopen(default_logfile, "a");
if (!xch->dombuild_logger_file) {
PERROR("Could not open logfile `%s'", default_logfile);
return -1;
}
}
xch->dombuild_logger = xch->dombuild_logger_tofree =
(xentoollog_logger*)
xtl_createlogger_stdiostream(xch->dombuild_logger_file, XTL_DETAIL,
XTL_STDIOSTREAM_SHOW_DATE|XTL_STDIOSTREAM_SHOW_PID);
if (!xch->dombuild_logger)
return -1;
xc_dom_printf(xch, "### ----- xc domain builder logfile opened -----");
return 0;
}
void xc_dom_printf(xc_interface *xch, const char *fmt, ...)
{
va_list args;
if (!xch->dombuild_logger) return;
va_start(args, fmt);
xtl_logv(xch->dombuild_logger, XTL_DETAIL, -1, "domainbuilder", fmt, args);
va_end(args);
}
void xc_dom_panic_func(xc_interface *xch,
const char *file, int line, xc_error_code err,
const char *fmt, ...)
{
va_list args;
char msg[XC_MAX_ERROR_MSG_LEN];
va_start(args, fmt);
vsnprintf(msg, sizeof(msg), fmt, args);
va_end(args);
msg[sizeof(msg)-1] = 0;
xc_report(xch,
xch->dombuild_logger ? xch->dombuild_logger : xch->error_handler,
XTL_ERROR, err, "panic: %s:%d: %s",
file, line, msg);
}
static void print_mem(struct xc_dom_image *dom, const char *name, size_t mem)
{
if ( mem > (32 * 1024 * 1024) )
DOMPRINTF("%-24s : %zd MB", name, mem / (1024 * 1024));
else if ( mem > (32 * 1024) )
DOMPRINTF("%-24s : %zd kB", name, mem / 1024);
else
DOMPRINTF("%-24s : %zd bytes", name, mem);
}
void xc_dom_log_memory_footprint(struct xc_dom_image *dom)
{
DOMPRINTF("domain builder memory footprint");
DOMPRINTF(" allocated");
print_mem(dom, " malloc", dom->alloc_malloc);
print_mem(dom, " anon mmap", dom->alloc_mem_map);
DOMPRINTF(" mapped");
print_mem(dom, " file mmap", dom->alloc_file_map);
print_mem(dom, " domU mmap", dom->alloc_domU_map);
}
/* ------------------------------------------------------------------------ */
/* simple memory pool */
void *xc_dom_malloc(struct xc_dom_image *dom, size_t size)
{
struct xc_dom_mem *block;
if ( size > SIZE_MAX - sizeof(*block) )
{
DOMPRINTF("%s: unreasonable allocation size", __FUNCTION__);
return NULL;
}
block = malloc(sizeof(*block) + size);
if ( block == NULL )
{
DOMPRINTF("%s: allocation failed", __FUNCTION__);
return NULL;
}
memset(block, 0, sizeof(*block) + size);
block->next = dom->memblocks;
dom->memblocks = block;
dom->alloc_malloc += sizeof(*block) + size;
if ( size > (100 * 1024) )
print_mem(dom, __FUNCTION__, size);
return block->memory;
}
void *xc_dom_malloc_page_aligned(struct xc_dom_image *dom, size_t size)
{
struct xc_dom_mem *block;
block = malloc(sizeof(*block));
if ( block == NULL )
{
DOMPRINTF("%s: allocation failed", __FUNCTION__);
return NULL;
}
memset(block, 0, sizeof(*block));
block->mmap_len = size;
block->mmap_ptr = mmap(NULL, block->mmap_len,
PROT_READ | PROT_WRITE, MAP_PRIVATE | MAP_ANON,
-1, 0);
if ( block->mmap_ptr == MAP_FAILED )
{
DOMPRINTF("%s: mmap failed", __FUNCTION__);
free(block);
return NULL;
}
block->next = dom->memblocks;
dom->memblocks = block;
dom->alloc_malloc += sizeof(*block);
dom->alloc_mem_map += block->mmap_len;
if ( size > (100 * 1024) )
print_mem(dom, __FUNCTION__, size);
return block->mmap_ptr;
}
void *xc_dom_malloc_filemap(struct xc_dom_image *dom,
const char *filename, size_t * size,
const size_t max_size)
{
struct xc_dom_mem *block = NULL;
int fd = -1;
fd = open(filename, O_RDONLY);
if ( fd == -1 )
goto err;
lseek(fd, 0, SEEK_SET);
*size = lseek(fd, 0, SEEK_END);
if ( max_size && *size > max_size )
{
xc_dom_panic(dom->xch, XC_OUT_OF_MEMORY,
"tried to map file which is too large");
goto err;
}
block = malloc(sizeof(*block));
if ( block == NULL )
goto err;
memset(block, 0, sizeof(*block));
block->mmap_len = *size;
block->mmap_ptr = mmap(NULL, block->mmap_len, PROT_READ,
MAP_SHARED, fd, 0);
if ( block->mmap_ptr == MAP_FAILED )
goto err;
block->next = dom->memblocks;
dom->memblocks = block;
dom->alloc_malloc += sizeof(*block);
dom->alloc_file_map += block->mmap_len;
close(fd);
if ( *size > (100 * 1024) )
print_mem(dom, __FUNCTION__, *size);
return block->mmap_ptr;
err:
if ( fd != -1 )
close(fd);
if ( block != NULL )
free(block);
DOMPRINTF("%s: failed (on file `%s')", __FUNCTION__, filename);
return NULL;
}
static void xc_dom_free_all(struct xc_dom_image *dom)
{
struct xc_dom_mem *block;
while ( (block = dom->memblocks) != NULL )
{
dom->memblocks = block->next;
if ( block->mmap_ptr )
munmap(block->mmap_ptr, block->mmap_len);
free(block);
}
}
char *xc_dom_strdup(struct xc_dom_image *dom, const char *str)
{
size_t len = strlen(str) + 1;
char *nstr = xc_dom_malloc(dom, len);
if ( nstr == NULL )
return NULL;
memcpy(nstr, str, len);
return nstr;
}
/* ------------------------------------------------------------------------ */
/* decompression buffer sizing */
int xc_dom_kernel_check_size(struct xc_dom_image *dom, size_t sz)
{
/* No limit */
if ( !dom->max_kernel_size )
return 0;
if ( sz > dom->max_kernel_size )
{
xc_dom_panic(dom->xch, XC_INVALID_KERNEL,
"kernel image too large");
return 1;
}
return 0;
}
int xc_dom_ramdisk_check_size(struct xc_dom_image *dom, size_t sz)
{
/* No limit */
if ( !dom->max_ramdisk_size )
return 0;
if ( sz > dom->max_ramdisk_size )
{
xc_dom_panic(dom->xch, XC_INVALID_KERNEL,
"ramdisk image too large");
return 1;
}
return 0;
}
/* ------------------------------------------------------------------------ */
/* read files, copy memory blocks, with transparent gunzip */
size_t xc_dom_check_gzip(xc_interface *xch, void *blob, size_t ziplen)
{
unsigned char *gzlen;
size_t unziplen;
if ( ziplen < 6 )
/* Too small. We need (i.e. the subsequent code relies on)
* 2 bytes for the magic number plus 4 bytes length. */
return 0;
if ( strncmp(blob, "\037\213", 2) )
/* not gzipped */
return 0;
gzlen = blob + ziplen - 4;
unziplen = gzlen[3] << 24 | gzlen[2] << 16 | gzlen[1] << 8 | gzlen[0];
if ( (unziplen < 0) || (unziplen > XC_DOM_DECOMPRESS_MAX) )
{
xc_dom_printf
(xch,
"%s: size (zip %zd, unzip %zd) looks insane, skip gunzip",
__FUNCTION__, ziplen, unziplen);
return 0;
}
return unziplen + 16;
}
int xc_dom_do_gunzip(xc_interface *xch,
void *src, size_t srclen, void *dst, size_t dstlen)
{
z_stream zStream;
int rc;
memset(&zStream, 0, sizeof(zStream));
zStream.next_in = src;
zStream.avail_in = srclen;
zStream.next_out = dst;
zStream.avail_out = dstlen;
rc = inflateInit2(&zStream, (MAX_WBITS + 32)); /* +32 means "handle gzip" */
if ( rc != Z_OK )
{
xc_dom_panic(xch, XC_INTERNAL_ERROR,
"%s: inflateInit2 failed (rc=%d)", __FUNCTION__, rc);
return -1;
}
rc = inflate(&zStream, Z_FINISH);
inflateEnd(&zStream);
if ( rc != Z_STREAM_END )
{
xc_dom_panic(xch, XC_INTERNAL_ERROR,
"%s: inflate failed (rc=%d)", __FUNCTION__, rc);
return -1;
}
xc_dom_printf(xch, "%s: unzip ok, 0x%zx -> 0x%zx",
__FUNCTION__, srclen, dstlen);
return 0;
}
int xc_dom_try_gunzip(struct xc_dom_image *dom, void **blob, size_t * size)
{
void *unzip;
size_t unziplen;
unziplen = xc_dom_check_gzip(dom->xch, *blob, *size);
if ( unziplen == 0 )
return 0;
if ( xc_dom_kernel_check_size(dom, unziplen) )
return 0;
unzip = xc_dom_malloc(dom, unziplen);
if ( unzip == NULL )
return -1;
if ( xc_dom_do_gunzip(dom->xch, *blob, *size, unzip, unziplen) == -1 )
return -1;
*blob = unzip;
*size = unziplen;
return 0;
}
/* ------------------------------------------------------------------------ */
/* domain memory */
void *xc_dom_pfn_to_ptr(struct xc_dom_image *dom, xen_pfn_t pfn,
xen_pfn_t count)
{
xen_pfn_t count_out_dummy;
return xc_dom_pfn_to_ptr_retcount(dom, pfn, count, &count_out_dummy);
}
void *xc_dom_pfn_to_ptr_retcount(struct xc_dom_image *dom, xen_pfn_t pfn,
xen_pfn_t count, xen_pfn_t *count_out)
{
struct xc_dom_phys *phys;
xen_pfn_t offset;
unsigned int page_shift = XC_DOM_PAGE_SHIFT(dom);
char *mode = "unset";
*count_out = 0;
offset = pfn - dom->rambase_pfn;
if ( offset > dom->total_pages || /* multiple checks to avoid overflows */
count > dom->total_pages ||
offset > dom->total_pages - count )
{
DOMPRINTF("%s: pfn %"PRI_xen_pfn" out of range (0x%" PRIpfn " > 0x%" PRIpfn ")",
__FUNCTION__, pfn, offset, dom->total_pages);
return NULL;
}
/* already allocated? */
for ( phys = dom->phys_pages; phys != NULL; phys = phys->next )
{
if ( pfn >= (phys->first + phys->count) )
continue;
if ( count )
{
/* size given: must be completely within the already allocated block */
if ( (pfn + count) <= phys->first )
continue;
if ( (pfn < phys->first) ||
((pfn + count) > (phys->first + phys->count)) )
{
DOMPRINTF("%s: request overlaps allocated block"
" (req 0x%" PRIpfn "+0x%" PRIpfn ","
" blk 0x%" PRIpfn "+0x%" PRIpfn ")",
__FUNCTION__, pfn, count, phys->first,
phys->count);
return NULL;
}
*count_out = count;
}
else
{
/* no size given: block must be allocated already,
just hand out a pointer to it */
if ( pfn < phys->first )
continue;
if ( pfn >= phys->first + phys->count )
continue;
*count_out = phys->count - (pfn - phys->first);
}
return phys->ptr + ((pfn - phys->first) << page_shift);
}
/* allocating is allowed with size specified only */
if ( count == 0 )
{
DOMPRINTF("%s: no block found, no size given,"
" can't malloc (pfn 0x%" PRIpfn ")",
__FUNCTION__, pfn);
return NULL;
}
/* not found, no overlap => allocate */
phys = xc_dom_malloc(dom, sizeof(*phys));
if ( phys == NULL )
return NULL;
memset(phys, 0, sizeof(*phys));
phys->first = pfn;
phys->count = count;
if ( dom->guest_domid )
{
mode = "domU mapping";
phys->ptr = xc_dom_boot_domU_map(dom, phys->first, phys->count);
if ( phys->ptr == NULL )
return NULL;
dom->alloc_domU_map += phys->count << page_shift;
}
else
{
int err;
mode = "anonymous memory";
phys->ptr = mmap(NULL, phys->count << page_shift,
PROT_READ | PROT_WRITE, MAP_PRIVATE | MAP_ANON,
-1, 0);
if ( phys->ptr == MAP_FAILED )
{
err = errno;
xc_dom_panic(dom->xch, XC_OUT_OF_MEMORY,
"%s: oom: can't allocate 0x%" PRIpfn " pages"
" [mmap, errno=%i (%s)]",
__FUNCTION__, count, err, strerror(err));
return NULL;
}
dom->alloc_mem_map += phys->count << page_shift;
}
#if 1
DOMPRINTF("%s: %s: pfn 0x%" PRIpfn "+0x%" PRIpfn " at %p",
__FUNCTION__, mode, phys->first, phys->count, phys->ptr);
#endif
phys->next = dom->phys_pages;
dom->phys_pages = phys;
return phys->ptr;
}
int xc_dom_alloc_segment(struct xc_dom_image *dom,
struct xc_dom_seg *seg, char *name,
xen_vaddr_t start, xen_vaddr_t size)
{
unsigned int page_size = XC_DOM_PAGE_SIZE(dom);
xen_pfn_t pages = (size + page_size - 1) / page_size;
xen_pfn_t pfn;
void *ptr;
if ( start == 0 )
start = dom->virt_alloc_end;
if ( start & (page_size - 1) )
{
xc_dom_panic(dom->xch, XC_INTERNAL_ERROR,
"%s: segment start isn't page aligned (0x%" PRIx64 ")",
__FUNCTION__, start);
return -1;
}
if ( start < dom->virt_alloc_end )
{
xc_dom_panic(dom->xch, XC_INTERNAL_ERROR,
"%s: segment start too low (0x%" PRIx64 " < 0x%" PRIx64
")", __FUNCTION__, start, dom->virt_alloc_end);
return -1;
}
seg->vstart = start;
pfn = (seg->vstart - dom->parms.virt_base) / page_size;
seg->pfn = pfn + dom->rambase_pfn;
if ( pages > dom->total_pages || /* multiple test avoids overflow probs */
pfn > dom->total_pages ||
pages > dom->total_pages - pfn)
{
xc_dom_panic(dom->xch, XC_OUT_OF_MEMORY,
"%s: segment %s too large (0x%"PRIpfn" > "
"0x%"PRIpfn" - 0x%"PRIpfn" pages)",
__FUNCTION__, name, pages, dom->total_pages, pfn);
return -1;
}
seg->vend = start + pages * page_size;
dom->virt_alloc_end = seg->vend;
if (dom->allocate)
dom->allocate(dom, dom->virt_alloc_end);
DOMPRINTF("%-20s: %-12s : 0x%" PRIx64 " -> 0x%" PRIx64
" (pfn 0x%" PRIpfn " + 0x%" PRIpfn " pages)",
__FUNCTION__, name, seg->vstart, seg->vend, seg->pfn, pages);
/* map and clear pages */
ptr = xc_dom_seg_to_ptr(dom, seg);
if ( ptr == NULL )
return -1;
memset(ptr, 0, pages * page_size);
return 0;
}
int xc_dom_alloc_page(struct xc_dom_image *dom, char *name)
{
unsigned int page_size = XC_DOM_PAGE_SIZE(dom);
xen_vaddr_t start;
xen_pfn_t pfn;
start = dom->virt_alloc_end;
dom->virt_alloc_end += page_size;
if (dom->allocate)
dom->allocate(dom, dom->virt_alloc_end);
pfn = (start - dom->parms.virt_base) / page_size;
DOMPRINTF("%-20s: %-12s : 0x%" PRIx64 " (pfn 0x%" PRIpfn ")",
__FUNCTION__, name, start, pfn);
return pfn;
}
void xc_dom_unmap_one(struct xc_dom_image *dom, xen_pfn_t pfn)
{
unsigned int page_shift = XC_DOM_PAGE_SHIFT(dom);
struct xc_dom_phys *phys, *prev = NULL;
for ( phys = dom->phys_pages; phys != NULL; phys = phys->next )
{
if ( (pfn >= phys->first) && (pfn < (phys->first + phys->count)) )
break;
prev = phys;
}
if ( !phys )
{
DOMPRINTF("%s: Huh? no mapping with pfn 0x%" PRIpfn "",
__FUNCTION__, pfn);
return;
}
munmap(phys->ptr, phys->count << page_shift);
if ( prev )
prev->next = phys->next;
else
dom->phys_pages = phys->next;
}
void xc_dom_unmap_all(struct xc_dom_image *dom)
{
while ( dom->phys_pages )
xc_dom_unmap_one(dom, dom->phys_pages->first);
}
/* ------------------------------------------------------------------------ */
/* pluggable kernel loaders */
static struct xc_dom_loader *first_loader = NULL;
static struct xc_dom_arch *first_hook = NULL;
void xc_dom_register_loader(struct xc_dom_loader *loader)
{
loader->next = first_loader;
first_loader = loader;
}
static struct xc_dom_loader *xc_dom_find_loader(struct xc_dom_image *dom)
{
struct xc_dom_loader *loader = first_loader;
while ( loader != NULL )
{
DOMPRINTF("%s: trying %s loader ... ", __FUNCTION__, loader->name);
if ( loader->probe(dom) == 0 )
{
DOMPRINTF("loader probe OK");
return loader;
}
DOMPRINTF("loader probe failed");
loader = loader->next;
}
xc_dom_panic(dom->xch,
XC_INVALID_KERNEL, "%s: no loader found", __FUNCTION__);
return NULL;
}
void xc_dom_register_arch_hooks(struct xc_dom_arch *hooks)
{
hooks->next = first_hook;
first_hook = hooks;
}
struct xc_dom_arch *xc_dom_find_arch_hooks(xc_interface *xch, char *guest_type)
{
struct xc_dom_arch *hooks = first_hook;
while ( hooks != NULL )
{
if ( !strcmp(hooks->guest_type, guest_type))
return hooks;
hooks = hooks->next;
}
xc_dom_panic(xch, XC_INVALID_KERNEL,
"%s: not found (type %s)", __FUNCTION__, guest_type);
return NULL;
}
/* ------------------------------------------------------------------------ */
/* public interface */
void xc_dom_release(struct xc_dom_image *dom)
{
DOMPRINTF_CALLED(dom->xch);
if ( dom->phys_pages )
xc_dom_unmap_all(dom);
xc_dom_free_all(dom);
free(dom);
}
struct xc_dom_image *xc_dom_allocate(xc_interface *xch,
const char *cmdline, const char *features)
{
struct xc_dom_image *dom;
xc_dom_printf(xch, "%s: cmdline=\"%s\", features=\"%s\"",
__FUNCTION__, cmdline, features);
dom = malloc(sizeof(*dom));
if ( !dom )
goto err;
memset(dom, 0, sizeof(*dom));
dom->xch = xch;
dom->max_kernel_size = XC_DOM_DECOMPRESS_MAX;
dom->max_ramdisk_size = XC_DOM_DECOMPRESS_MAX;
if ( cmdline )
dom->cmdline = xc_dom_strdup(dom, cmdline);
if ( features )
elf_xen_parse_features(features, dom->f_requested, NULL);
dom->parms.virt_base = UNSET_ADDR;
dom->parms.virt_entry = UNSET_ADDR;
dom->parms.virt_hypercall = UNSET_ADDR;
dom->parms.virt_hv_start_low = UNSET_ADDR;
dom->parms.elf_paddr_offset = UNSET_ADDR;
dom->alloc_malloc += sizeof(*dom);
return dom;
err:
if ( dom )
xc_dom_release(dom);
return NULL;
}
int xc_dom_kernel_max_size(struct xc_dom_image *dom, size_t sz)
{
DOMPRINTF("%s: kernel_max_size=%zx", __FUNCTION__, sz);
dom->max_kernel_size = sz;
return 0;
}
int xc_dom_ramdisk_max_size(struct xc_dom_image *dom, size_t sz)
{
DOMPRINTF("%s: ramdisk_max_size=%zx", __FUNCTION__, sz);
dom->max_ramdisk_size = sz;
return 0;
}
int xc_dom_kernel_file(struct xc_dom_image *dom, const char *filename)
{
DOMPRINTF("%s: filename=\"%s\"", __FUNCTION__, filename);
dom->kernel_blob = xc_dom_malloc_filemap(dom, filename, &dom->kernel_size,
dom->max_kernel_size);
if ( dom->kernel_blob == NULL )
return -1;
return xc_dom_try_gunzip(dom, &dom->kernel_blob, &dom->kernel_size);
}
int xc_dom_ramdisk_file(struct xc_dom_image *dom, const char *filename)
{
DOMPRINTF("%s: filename=\"%s\"", __FUNCTION__, filename);
dom->ramdisk_blob =
xc_dom_malloc_filemap(dom, filename, &dom->ramdisk_size,
dom->max_ramdisk_size);
if ( dom->ramdisk_blob == NULL )
return -1;
// return xc_dom_try_gunzip(dom, &dom->ramdisk_blob, &dom->ramdisk_size);
return 0;
}
int xc_dom_kernel_mem(struct xc_dom_image *dom, const void *mem, size_t memsize)
{
DOMPRINTF_CALLED(dom->xch);
dom->kernel_blob = (void *)mem;
dom->kernel_size = memsize;
return xc_dom_try_gunzip(dom, &dom->kernel_blob, &dom->kernel_size);
}
int xc_dom_ramdisk_mem(struct xc_dom_image *dom, const void *mem,
size_t memsize)
{
DOMPRINTF_CALLED(dom->xch);
dom->ramdisk_blob = (void *)mem;
dom->ramdisk_size = memsize;
// return xc_dom_try_gunzip(dom, &dom->ramdisk_blob, &dom->ramdisk_size);
return 0;
}
int xc_dom_parse_image(struct xc_dom_image *dom)
{
int i;
DOMPRINTF_CALLED(dom->xch);
/* parse kernel image */
dom->kernel_loader = xc_dom_find_loader(dom);
if ( dom->kernel_loader == NULL )
goto err;
if ( dom->kernel_loader->parser(dom) != 0 )
goto err;
if ( dom->guest_type == NULL )
{
xc_dom_panic(dom->xch, XC_INTERNAL_ERROR,
"%s: guest_type not set", __FUNCTION__);
goto err;
}
/* check features */
for ( i = 0; i < XENFEAT_NR_SUBMAPS; i++ )
{
dom->f_active[i] |= dom->f_requested[i]; /* cmd line */
dom->f_active[i] |= dom->parms.f_required[i]; /* kernel */
if ( (dom->f_active[i] & dom->parms.f_supported[i]) !=
dom->f_active[i] )
{
xc_dom_panic(dom->xch, XC_INVALID_PARAM,
"%s: unsupported feature requested", __FUNCTION__);
goto err;
}
}
return 0;
err:
return -1;
}
int xc_dom_mem_init(struct xc_dom_image *dom, unsigned int mem_mb)
{
unsigned int page_shift;
xen_pfn_t nr_pages;
dom->arch_hooks = xc_dom_find_arch_hooks(dom->xch, dom->guest_type);
if ( dom->arch_hooks == NULL )
{
xc_dom_panic(dom->xch, XC_INTERNAL_ERROR, "%s: arch hooks not set",
__FUNCTION__);
return -1;
}
page_shift = XC_DOM_PAGE_SHIFT(dom);
nr_pages = mem_mb << (20 - page_shift);
DOMPRINTF("%s: mem %d MB, pages 0x%" PRIpfn " pages, %dk each",
__FUNCTION__, mem_mb, nr_pages, 1 << (page_shift-10));
dom->total_pages = nr_pages;
DOMPRINTF("%s: 0x%" PRIpfn " pages",
__FUNCTION__, dom->total_pages);
return 0;
}
int xc_dom_update_guest_p2m(struct xc_dom_image *dom)
{
uint32_t *p2m_32;
uint64_t *p2m_64;
xen_pfn_t i;
if ( !dom->p2m_guest )
return 0;
switch ( dom->arch_hooks->sizeof_pfn )
{
case 4:
DOMPRINTF("%s: dst 32bit, pages 0x%" PRIpfn "",
__FUNCTION__, dom->total_pages);
p2m_32 = dom->p2m_guest;
for ( i = 0; i < dom->total_pages; i++ )
if ( dom->p2m_host[i] != INVALID_P2M_ENTRY )
p2m_32[i] = dom->p2m_host[i];
else
p2m_32[i] = (uint32_t) - 1;
break;
case 8:
DOMPRINTF("%s: dst 64bit, pages 0x%" PRIpfn "",
__FUNCTION__, dom->total_pages);
p2m_64 = dom->p2m_guest;
for ( i = 0; i < dom->total_pages; i++ )
if ( dom->p2m_host[i] != INVALID_P2M_ENTRY )
p2m_64[i] = dom->p2m_host[i];
else
p2m_64[i] = (uint64_t) - 1;
break;
default:
xc_dom_panic(dom->xch, XC_INTERNAL_ERROR,
"sizeof_pfn is invalid (is %d, can be 4 or 8)",
dom->arch_hooks->sizeof_pfn);
return -1;
}
return 0;
}
int xc_dom_build_image(struct xc_dom_image *dom)
{
unsigned int page_size;
DOMPRINTF_CALLED(dom->xch);
/* check for arch hooks */
if ( dom->arch_hooks == NULL )
{
xc_dom_panic(dom->xch, XC_INTERNAL_ERROR, "%s: arch hooks not set",
__FUNCTION__);
goto err;
}
page_size = XC_DOM_PAGE_SIZE(dom);
/* load kernel */
if ( xc_dom_alloc_segment(dom, &dom->kernel_seg, "kernel",
dom->kernel_seg.vstart,
dom->kernel_seg.vend -
dom->kernel_seg.vstart) != 0 )
goto err;
if ( dom->kernel_loader->loader(dom) != 0 )
goto err;
/* load ramdisk */
if ( dom->ramdisk_blob )
{
size_t unziplen, ramdisklen;
void *ramdiskmap;
unziplen = xc_dom_check_gzip(dom->xch, dom->ramdisk_blob, dom->ramdisk_size);
if ( xc_dom_ramdisk_check_size(dom, unziplen) != 0 )
unziplen = 0;
ramdisklen = unziplen ? unziplen : dom->ramdisk_size;
if ( xc_dom_alloc_segment(dom, &dom->ramdisk_seg, "ramdisk", 0,
ramdisklen) != 0 )
goto err;
ramdiskmap = xc_dom_seg_to_ptr(dom, &dom->ramdisk_seg);
if ( ramdiskmap == NULL )
{
DOMPRINTF("%s: xc_dom_seg_to_ptr(dom, &dom->ramdisk_seg) => NULL",
__FUNCTION__);
goto err;
}
if ( unziplen )
{
if ( xc_dom_do_gunzip(dom->xch,
dom->ramdisk_blob, dom->ramdisk_size,
ramdiskmap, ramdisklen) == -1 )
goto err;
}
else
memcpy(ramdiskmap, dom->ramdisk_blob, dom->ramdisk_size);
}
/* allocate other pages */
if ( dom->arch_hooks->alloc_magic_pages(dom) != 0 )
goto err;
if ( dom->arch_hooks->count_pgtables )
{
if ( dom->arch_hooks->count_pgtables(dom) != 0 )
goto err;
if ( (dom->pgtables > 0) &&
(xc_dom_alloc_segment(dom, &dom->pgtables_seg, "page tables", 0,
dom->pgtables * page_size) != 0) )
goto err;
}
if ( dom->alloc_bootstack )
dom->bootstack_pfn = xc_dom_alloc_page(dom, "boot stack");
DOMPRINTF("%-20s: virt_alloc_end : 0x%" PRIx64 "",
__FUNCTION__, dom->virt_alloc_end);
DOMPRINTF("%-20s: virt_pgtab_end : 0x%" PRIx64 "",
__FUNCTION__, dom->virt_pgtab_end);
return 0;
err:
return -1;
}
/*
* Local variables:
* mode: C
* c-file-style: "BSD"
* c-basic-offset: 4
* tab-width: 4
* indent-tabs-mode: nil
* End:
*/
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