static int ia64_setup_memmap(struct xc_dom_image *dom)
{
unsigned int page_size = XC_DOM_PAGE_SIZE(dom);
unsigned long memmap_info_num_pages;
unsigned long memmap_info_pfn;
xen_ia64_memmap_info_t* memmap_info;
unsigned int num_mds;
efi_memory_desc_t *md;
char* start_info;
struct xen_ia64_boot_param* bp;
/* setup memmap page */
memmap_info_num_pages = 1;
memmap_info_pfn = dom->start_info_pfn - 1;
xc_dom_printf("%s: memmap: mfn 0x%" PRIpfn " pages 0x%lx\n",
__FUNCTION__, memmap_info_pfn, memmap_info_num_pages);
memmap_info = xc_map_foreign_range(dom->guest_xc, dom->guest_domid,
page_size * memmap_info_num_pages,
PROT_READ | PROT_WRITE,
memmap_info_pfn);
if (NULL == memmap_info)
return -1;
/* [0, total_pages) */
memmap_info->efi_memdesc_size = sizeof(md[0]);
memmap_info->efi_memdesc_version = EFI_MEMORY_DESCRIPTOR_VERSION;
num_mds = 0;
md = (efi_memory_desc_t*)&memmap_info->memdesc;
md[num_mds].type = EFI_CONVENTIONAL_MEMORY;
md[num_mds].pad = 0;
md[num_mds].phys_addr = 0;
md[num_mds].virt_addr = 0;
md[num_mds].num_pages = dom->total_pages << (PAGE_SHIFT - EFI_PAGE_SHIFT);
md[num_mds].attribute = EFI_MEMORY_WB;
num_mds++;
memmap_info->efi_memmap_size = num_mds * sizeof(md[0]);
munmap(memmap_info, page_size * memmap_info_num_pages);
assert(num_mds <=
(page_size * memmap_info_num_pages -
offsetof(typeof(*memmap_info), memdesc))/sizeof(*md));
/*
* kludge: we need to pass memmap_info page's pfn and other magic pages
* somehow.
* we use xen_ia64_boot_param::efi_memmap::{efi_memmap, efi_memmap_size}
* for this purpose
*/
start_info = xc_map_foreign_range(dom->guest_xc, dom->guest_domid,
page_size,
PROT_READ | PROT_WRITE,
dom->start_info_pfn);
if (NULL == start_info)
return -1;
bp = (struct xen_ia64_boot_param*)(start_info + sizeof(start_info_t));
memset(bp, 0, sizeof(*bp));
XEN_IA64_MEMMAP_INFO_NUM_PAGES(bp) = memmap_info_num_pages;
XEN_IA64_MEMMAP_INFO_PFN(bp) = memmap_info_pfn;
munmap(start_info, page_size);
return 0;
}
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;
void *ptr;
if ( start && xc_dom_alloc_pad(dom, start) )
return -1;
pages = (size + page_size - 1) / page_size;
start = dom->virt_alloc_end;
seg->pfn = dom->pfn_alloc_end;
seg->pages = pages;
if ( xc_dom_chk_alloc_pages(dom, name, pages) )
return -1;
/* map and clear pages */
ptr = xc_dom_seg_to_ptr(dom, seg);
if ( ptr == NULL )
return -1;
memset(ptr, 0, pages * page_size);
seg->vstart = start;
seg->vend = 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);
return 0;
}
static int xc_dom_chk_alloc_pages(struct xc_dom_image *dom, char *name,
xen_pfn_t pages)
{
unsigned int page_size = XC_DOM_PAGE_SIZE(dom);
if ( pages > dom->total_pages || /* multiple test avoids overflow probs */
dom->pfn_alloc_end - dom->rambase_pfn > dom->total_pages ||
pages > dom->total_pages - dom->pfn_alloc_end + dom->rambase_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,
dom->pfn_alloc_end - dom->rambase_pfn);
return -1;
}
dom->pfn_alloc_end += pages;
dom->virt_alloc_end += pages * page_size;
if ( dom->allocate )
dom->allocate(dom);
return 0;
}
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;
xc_dom_printf("%-20s: %-12s : 0x%" PRIx64 " (pfn 0x%" PRIpfn ")\n",
__FUNCTION__, name, start, pfn);
return pfn;
}
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;
void *ptr;
if ( start == 0 )
start = dom->virt_alloc_end;
if ( start & (page_size - 1) )
{
xc_dom_panic(XC_INTERNAL_ERROR,
"%s: segment start isn't page aligned (0x%" PRIx64 ")\n",
__FUNCTION__, start);
return -1;
}
if ( start < dom->virt_alloc_end )
{
xc_dom_panic(XC_INTERNAL_ERROR,
"%s: segment start too low (0x%" PRIx64 " < 0x%" PRIx64
")\n", __FUNCTION__, start, dom->virt_alloc_end);
return -1;
}
seg->vstart = start;
seg->vend = start + pages * page_size;
seg->pfn = (seg->vstart - dom->parms.virt_base) / page_size;
dom->virt_alloc_end = seg->vend;
if (dom->allocate)
dom->allocate(dom, dom->virt_alloc_end);
xc_dom_printf("%-20s: %-12s : 0x%" PRIx64 " -> 0x%" PRIx64
" (pfn 0x%" PRIpfn " + 0x%" PRIpfn " pages)\n",
__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 arch_setup_bootlate(struct xc_dom_image *dom)
{
unsigned int page_size = XC_DOM_PAGE_SIZE(dom);
shared_info_t *shared_info;
/* setup shared_info page */
xc_dom_printf("%s: shared_info: mfn 0x%" PRIpfn "\n",
__FUNCTION__, dom->shared_info_mfn);
shared_info = xc_map_foreign_range(dom->guest_xc, dom->guest_domid,
page_size,
PROT_READ | PROT_WRITE,
dom->shared_info_mfn);
if ( shared_info == NULL )
return -1;
dom->arch_hooks->shared_info(dom, shared_info);
munmap(shared_info, page_size);
return 0;
}
static int xc_dom_alloc_pad(struct xc_dom_image *dom, xen_vaddr_t boundary)
{
unsigned int page_size = XC_DOM_PAGE_SIZE(dom);
xen_pfn_t pages;
if ( boundary & (page_size - 1) )
{
xc_dom_panic(dom->xch, XC_INTERNAL_ERROR,
"%s: segment boundary isn't page aligned (0x%" PRIx64 ")",
__FUNCTION__, boundary);
return -1;
}
if ( boundary < dom->virt_alloc_end )
{
xc_dom_panic(dom->xch, XC_INTERNAL_ERROR,
"%s: segment boundary too low (0x%" PRIx64 " < 0x%" PRIx64
")", __FUNCTION__, boundary, dom->virt_alloc_end);
return -1;
}
pages = (boundary - dom->virt_alloc_end) / page_size;
return xc_dom_chk_alloc_pages(dom, "padding", pages);
}
int xc_dom_build_image(struct xc_dom_image *dom)
{
unsigned int page_size;
xc_dom_printf("%s: called\n", __FUNCTION__);
/* check for arch hooks */
if ( dom->arch_hooks == NULL )
{
xc_dom_panic(XC_INTERNAL_ERROR, "%s: arch hooks not set\n",
__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->ramdisk_blob, dom->ramdisk_size);
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 ( unziplen )
{
if ( xc_dom_do_gunzip(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 )
{
dom->arch_hooks->count_pgtables(dom);
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");
xc_dom_printf("%-20s: virt_alloc_end : 0x%" PRIx64 "\n",
__FUNCTION__, dom->virt_alloc_end);
xc_dom_printf("%-20s: virt_pgtab_end : 0x%" PRIx64 "\n",
__FUNCTION__, dom->virt_pgtab_end);
return 0;
err:
return -1;
}
int libxl__arch_domain_construct_memmap(libxl__gc *gc,
libxl_domain_config *d_config,
uint32_t domid,
struct xc_dom_image *dom)
{
int rc = 0;
unsigned int nr = 0, i;
/* We always own at least one lowmem entry. */
unsigned int e820_entries = 1;
struct e820entry *e820 = NULL;
uint64_t highmem_size =
dom->highmem_end ? dom->highmem_end - (1ull << 32) : 0;
uint32_t lowmem_start = dom->device_model ? GUEST_LOW_MEM_START_DEFAULT : 0;
unsigned page_size = XC_DOM_PAGE_SIZE(dom);
/* Add all rdm entries. */
for (i = 0; i < d_config->num_rdms; i++)
if (d_config->rdms[i].policy != LIBXL_RDM_RESERVE_POLICY_INVALID)
e820_entries++;
/* If we should have a highmem range. */
if (highmem_size)
e820_entries++;
for (i = 0; i < MAX_ACPI_MODULES; i++)
if (dom->acpi_modules[i].length)
e820_entries++;
if (e820_entries >= E820MAX) {
LOGD(ERROR, domid, "Ooops! Too many entries in the memory map!");
rc = ERROR_INVAL;
goto out;
}
e820 = libxl__malloc(gc, sizeof(struct e820entry) * e820_entries);
/* Low memory */
e820[nr].addr = lowmem_start;
e820[nr].size = dom->lowmem_end - lowmem_start;
e820[nr].type = E820_RAM;
nr++;
/* RDM mapping */
for (i = 0; i < d_config->num_rdms; i++) {
if (d_config->rdms[i].policy == LIBXL_RDM_RESERVE_POLICY_INVALID)
continue;
e820[nr].addr = d_config->rdms[i].start;
e820[nr].size = d_config->rdms[i].size;
e820[nr].type = E820_RESERVED;
nr++;
}
for (i = 0; i < MAX_ACPI_MODULES; i++) {
if (dom->acpi_modules[i].length) {
e820[nr].addr = dom->acpi_modules[i].guest_addr_out & ~(page_size - 1);
e820[nr].size = dom->acpi_modules[i].length +
(dom->acpi_modules[i].guest_addr_out & (page_size - 1));
e820[nr].type = E820_ACPI;
nr++;
}
}
/* High memory */
if (highmem_size) {
e820[nr].addr = ((uint64_t)1 << 32);
e820[nr].size = highmem_size;
e820[nr].type = E820_RAM;
}
if (xc_domain_set_memory_map(CTX->xch, domid, e820, e820_entries) != 0) {
rc = ERROR_FAIL;
goto out;
}
out:
return rc;
}
