[Date Prev][Date Next][Thread Prev][Thread Next][Date Index][Thread Index] [Xen-devel] [PATCH v4 09/31] libxc: introduce a xc_dom_arch for hvm-3.0-x86_32 guests
This xc_dom_arch will be used in order to build HVM domains. The code is based on the existing xc_hvm_populate_memory and xc_hvm_populate_params functions. Signed-off-by: Roger Pau Monnà <roger.pau@xxxxxxxxxx> Cc: Ian Jackson <ian.jackson@xxxxxxxxxxxxx> Cc: Stefano Stabellini <stefano.stabellini@xxxxxxxxxxxxx> Cc: Ian Campbell <ian.campbell@xxxxxxxxxx> Cc: Wei Liu <wei.liu2@xxxxxxxxxx> --- Changes since v3: - Make sure c/s b9dbe33 is not reverted on this patch. - Set the initial BSP state using {get/set}hvmcontext. --- tools/libxc/include/xc_dom.h | 6 + tools/libxc/xc_dom_x86.c | 619 ++++++++++++++++++++++++++++++++++++++++++- 2 files changed, 614 insertions(+), 11 deletions(-) diff --git a/tools/libxc/include/xc_dom.h b/tools/libxc/include/xc_dom.h index 0245d24..cda40d9 100644 --- a/tools/libxc/include/xc_dom.h +++ b/tools/libxc/include/xc_dom.h @@ -188,6 +188,12 @@ struct xc_dom_image { } container_type; /* HVM specific fields. */ + xen_pfn_t target_pages; + xen_pfn_t mmio_start; + xen_pfn_t mmio_size; + xen_pfn_t lowmem_end; + xen_pfn_t highmem_end; + /* Extra ACPI tables passed to HVMLOADER */ struct xc_hvm_firmware_module acpi_module; diff --git a/tools/libxc/xc_dom_x86.c b/tools/libxc/xc_dom_x86.c index ae8187f..18e3340 100644 --- a/tools/libxc/xc_dom_x86.c +++ b/tools/libxc/xc_dom_x86.c @@ -39,10 +39,32 @@ /* ------------------------------------------------------------------------ */ -#define SUPERPAGE_PFN_SHIFT 9 -#define SUPERPAGE_NR_PFNS (1UL << SUPERPAGE_PFN_SHIFT) #define SUPERPAGE_BATCH_SIZE 512 +#define SUPERPAGE_2MB_SHIFT 9 +#define SUPERPAGE_2MB_NR_PFNS (1UL << SUPERPAGE_2MB_SHIFT) +#define SUPERPAGE_1GB_SHIFT 18 +#define SUPERPAGE_1GB_NR_PFNS (1UL << SUPERPAGE_1GB_SHIFT) + +#define X86_CR0_PE 0x01 +#define X86_CR0_ET 0x10 + +#define VGA_HOLE_SIZE (0x20) + +#define SPECIALPAGE_PAGING 0 +#define SPECIALPAGE_ACCESS 1 +#define SPECIALPAGE_SHARING 2 +#define SPECIALPAGE_BUFIOREQ 3 +#define SPECIALPAGE_XENSTORE 4 +#define SPECIALPAGE_IOREQ 5 +#define SPECIALPAGE_IDENT_PT 6 +#define SPECIALPAGE_CONSOLE 7 +#define NR_SPECIAL_PAGES 8 +#define special_pfn(x) (0xff000u - NR_SPECIAL_PAGES + (x)) + +#define NR_IOREQ_SERVER_PAGES 8 +#define ioreq_server_pfn(x) (special_pfn(0) - NR_IOREQ_SERVER_PAGES + (x)) + #define bits_to_mask(bits) (((xen_vaddr_t)1 << (bits))-1) #define round_down(addr, mask) ((addr) & ~(mask)) #define round_up(addr, mask) ((addr) | (mask)) @@ -461,6 +483,135 @@ static int alloc_magic_pages(struct xc_dom_image *dom) return 0; } +static void build_hvm_info(void *hvm_info_page, struct xc_dom_image *dom) +{ + struct hvm_info_table *hvm_info = (struct hvm_info_table *) + (((unsigned char *)hvm_info_page) + HVM_INFO_OFFSET); + uint8_t sum; + int i; + + memset(hvm_info_page, 0, PAGE_SIZE); + + /* Fill in the header. */ + memcpy(hvm_info->signature, "HVM INFO", sizeof(hvm_info->signature)); + hvm_info->length = sizeof(struct hvm_info_table); + + /* Sensible defaults: these can be overridden by the caller. */ + hvm_info->apic_mode = 1; + hvm_info->nr_vcpus = 1; + memset(hvm_info->vcpu_online, 0xff, sizeof(hvm_info->vcpu_online)); + + /* Memory parameters. */ + hvm_info->low_mem_pgend = dom->lowmem_end >> PAGE_SHIFT; + hvm_info->high_mem_pgend = dom->highmem_end >> PAGE_SHIFT; + hvm_info->reserved_mem_pgstart = ioreq_server_pfn(0); + + /* Finish with the checksum. */ + for ( i = 0, sum = 0; i < hvm_info->length; i++ ) + sum += ((uint8_t *)hvm_info)[i]; + hvm_info->checksum = -sum; +} + +static int alloc_magic_pages_hvm(struct xc_dom_image *dom) +{ + unsigned long i; + void *hvm_info_page; + uint32_t *ident_pt, domid = dom->guest_domid; + int rc; + xen_pfn_t special_array[NR_SPECIAL_PAGES]; + xen_pfn_t ioreq_server_array[NR_IOREQ_SERVER_PAGES]; + xc_interface *xch = dom->xch; + + if ( (hvm_info_page = xc_map_foreign_range( + xch, domid, PAGE_SIZE, PROT_READ | PROT_WRITE, + HVM_INFO_PFN)) == NULL ) + goto error_out; + build_hvm_info(hvm_info_page, dom); + munmap(hvm_info_page, PAGE_SIZE); + + /* Allocate and clear special pages. */ + for ( i = 0; i < NR_SPECIAL_PAGES; i++ ) + special_array[i] = special_pfn(i); + + rc = xc_domain_populate_physmap_exact(xch, domid, NR_SPECIAL_PAGES, 0, 0, + special_array); + if ( rc != 0 ) + { + DOMPRINTF("Could not allocate special pages."); + goto error_out; + } + + if ( xc_clear_domain_pages(xch, domid, special_pfn(0), NR_SPECIAL_PAGES) ) + goto error_out; + + xc_hvm_param_set(xch, domid, HVM_PARAM_STORE_PFN, + special_pfn(SPECIALPAGE_XENSTORE)); + xc_hvm_param_set(xch, domid, HVM_PARAM_BUFIOREQ_PFN, + special_pfn(SPECIALPAGE_BUFIOREQ)); + xc_hvm_param_set(xch, domid, HVM_PARAM_IOREQ_PFN, + special_pfn(SPECIALPAGE_IOREQ)); + xc_hvm_param_set(xch, domid, HVM_PARAM_CONSOLE_PFN, + special_pfn(SPECIALPAGE_CONSOLE)); + xc_hvm_param_set(xch, domid, HVM_PARAM_PAGING_RING_PFN, + special_pfn(SPECIALPAGE_PAGING)); + xc_hvm_param_set(xch, domid, HVM_PARAM_MONITOR_RING_PFN, + special_pfn(SPECIALPAGE_ACCESS)); + xc_hvm_param_set(xch, domid, HVM_PARAM_SHARING_RING_PFN, + special_pfn(SPECIALPAGE_SHARING)); + + /* + * Allocate and clear additional ioreq server pages. The default + * server will use the IOREQ and BUFIOREQ special pages above. + */ + for ( i = 0; i < NR_IOREQ_SERVER_PAGES; i++ ) + ioreq_server_array[i] = ioreq_server_pfn(i); + + rc = xc_domain_populate_physmap_exact(xch, domid, NR_IOREQ_SERVER_PAGES, 0, + 0, ioreq_server_array); + if ( rc != 0 ) + { + DOMPRINTF("Could not allocate ioreq server pages."); + goto error_out; + } + + if ( xc_clear_domain_pages(xch, domid, ioreq_server_pfn(0), + NR_IOREQ_SERVER_PAGES) ) + goto error_out; + + /* Tell the domain where the pages are and how many there are */ + xc_hvm_param_set(xch, domid, HVM_PARAM_IOREQ_SERVER_PFN, + ioreq_server_pfn(0)); + xc_hvm_param_set(xch, domid, HVM_PARAM_NR_IOREQ_SERVER_PAGES, + NR_IOREQ_SERVER_PAGES); + + /* + * Identity-map page table is required for running with CR0.PG=0 when + * using Intel EPT. Create a 32-bit non-PAE page directory of superpages. + */ + if ( (ident_pt = xc_map_foreign_range( + xch, domid, PAGE_SIZE, PROT_READ | PROT_WRITE, + special_pfn(SPECIALPAGE_IDENT_PT))) == NULL ) + goto error_out; + for ( i = 0; i < PAGE_SIZE / sizeof(*ident_pt); i++ ) + ident_pt[i] = ((i << 22) | _PAGE_PRESENT | _PAGE_RW | _PAGE_USER | + _PAGE_ACCESSED | _PAGE_DIRTY | _PAGE_PSE); + munmap(ident_pt, PAGE_SIZE); + xc_hvm_param_set(xch, domid, HVM_PARAM_IDENT_PT, + special_pfn(SPECIALPAGE_IDENT_PT) << PAGE_SHIFT); + + dom->console_pfn = special_pfn(SPECIALPAGE_CONSOLE); + dom->xenstore_pfn = special_pfn(SPECIALPAGE_XENSTORE); + dom->parms.virt_hypercall = -1; + + rc = 0; + goto out; + error_out: + rc = -1; + out: + + return rc; +} + /* ------------------------------------------------------------------------ */ static int start_info_x86_32(struct xc_dom_image *dom) @@ -682,6 +833,103 @@ static int vcpu_x86_64(struct xc_dom_image *dom) return rc; } +static int vcpu_hvm(struct xc_dom_image *dom) +{ + struct { + struct hvm_save_descriptor header_d; + HVM_SAVE_TYPE(HEADER) header; + struct hvm_save_descriptor cpu_d; + HVM_SAVE_TYPE(CPU) cpu; + struct hvm_save_descriptor end_d; + HVM_SAVE_TYPE(END) end; + } bsp_ctx; + uint8_t *full_ctx = NULL; + int rc; + + DOMPRINTF_CALLED(dom->xch); + + /* + * Get the full HVM context in order to have the header, it is not + * possible to get the header with getcontext_partial, and crafting one + * from userspace is also not an option since cpuid is trapped and + * modified by Xen. + */ + + rc = xc_domain_hvm_getcontext(dom->xch, dom->guest_domid, NULL, 0); + if ( rc <= 0 ) + { + xc_dom_panic(dom->xch, XC_INTERNAL_ERROR, + "%s: unable to fetch HVM context size (rc=%d)", + __func__, rc); + return rc; + } + full_ctx = malloc(rc); + if ( full_ctx == NULL ) + { + xc_dom_panic(dom->xch, XC_INTERNAL_ERROR, + "%s: unable to allocate memory for HVM context (rc=%d)", + __func__, rc); + return -ENOMEM; + } + + memset(full_ctx, 0, rc); + + rc = xc_domain_hvm_getcontext(dom->xch, dom->guest_domid, full_ctx, rc); + if ( rc <= 0 ) + { + xc_dom_panic(dom->xch, XC_INTERNAL_ERROR, + "%s: unable to fetch HVM context (rc=%d)", + __func__, rc); + goto out; + } + + /* Copy the header to our partial context. */ + memset(&bsp_ctx, 0, sizeof(bsp_ctx)); + memcpy(&bsp_ctx, full_ctx, + sizeof(struct hvm_save_descriptor) + HVM_SAVE_LENGTH(HEADER)); + + /* Set the CPU descriptor. */ + bsp_ctx.cpu_d.typecode = HVM_SAVE_CODE(CPU); + bsp_ctx.cpu_d.instance = 0; + bsp_ctx.cpu_d.length = HVM_SAVE_LENGTH(CPU); + + /* Set the cached part of the relevant segment registers. */ + bsp_ctx.cpu.cs_base = 0; + bsp_ctx.cpu.ds_base = 0; + bsp_ctx.cpu.ss_base = 0; + bsp_ctx.cpu.tr_base = 0; + bsp_ctx.cpu.cs_limit = ~0u; + bsp_ctx.cpu.ds_limit = ~0u; + bsp_ctx.cpu.ss_limit = ~0u; + bsp_ctx.cpu.tr_limit = 0xff; + bsp_ctx.cpu.cs_arbytes = 0xc9b; + bsp_ctx.cpu.ds_arbytes = 0xc93; + bsp_ctx.cpu.ss_arbytes = 0xc93; + bsp_ctx.cpu.tr_arbytes = 0x8b; + + /* Set the control registers. */ + bsp_ctx.cpu.cr0 = X86_CR0_PE | X86_CR0_ET; + + /* Set the IP. */ + bsp_ctx.cpu.rip = dom->parms.phys_entry; + + /* Set the end descriptor. */ + bsp_ctx.end_d.typecode = HVM_SAVE_CODE(END); + bsp_ctx.end_d.instance = 0; + bsp_ctx.end_d.length = HVM_SAVE_LENGTH(END); + + rc = xc_domain_hvm_setcontext(dom->xch, dom->guest_domid, + (uint8_t *)&bsp_ctx, sizeof(bsp_ctx)); + if ( rc != 0 ) + xc_dom_panic(dom->xch, XC_INTERNAL_ERROR, + "%s: SETHVMCONTEXT failed (rc=%d)", __func__, rc); + + out: + if ( full_ctx != NULL ) + free(full_ctx); + return rc; +} + /* ------------------------------------------------------------------------ */ static int x86_compat(xc_interface *xch, domid_t domid, char *guest_type) @@ -762,7 +1010,7 @@ static int meminit_pv(struct xc_dom_image *dom) if ( dom->superpages ) { - int count = dom->total_pages >> SUPERPAGE_PFN_SHIFT; + int count = dom->total_pages >> SUPERPAGE_2MB_SHIFT; xen_pfn_t extents[count]; dom->p2m_size = dom->total_pages; @@ -773,9 +1021,9 @@ static int meminit_pv(struct xc_dom_image *dom) DOMPRINTF("Populating memory with %d superpages", count); for ( pfn = 0; pfn < count; pfn++ ) - extents[pfn] = pfn << SUPERPAGE_PFN_SHIFT; + extents[pfn] = pfn << SUPERPAGE_2MB_SHIFT; rc = xc_domain_populate_physmap_exact(dom->xch, dom->guest_domid, - count, SUPERPAGE_PFN_SHIFT, 0, + count, SUPERPAGE_2MB_SHIFT, 0, extents); if ( rc ) return rc; @@ -785,7 +1033,7 @@ static int meminit_pv(struct xc_dom_image *dom) for ( i = 0; i < count; i++ ) { mfn = extents[i]; - for ( j = 0; j < SUPERPAGE_NR_PFNS; j++, pfn++ ) + for ( j = 0; j < SUPERPAGE_2MB_NR_PFNS; j++, pfn++ ) dom->p2m_host[pfn] = mfn + j; } } @@ -870,7 +1118,7 @@ static int meminit_pv(struct xc_dom_image *dom) pages = (vmemranges[i].end - vmemranges[i].start) >> PAGE_SHIFT; - super_pages = pages >> SUPERPAGE_PFN_SHIFT; + super_pages = pages >> SUPERPAGE_2MB_SHIFT; pfn_base = vmemranges[i].start >> PAGE_SHIFT; for ( pfn = pfn_base; pfn < pfn_base+pages; pfn++ ) @@ -883,11 +1131,11 @@ static int meminit_pv(struct xc_dom_image *dom) super_pages -= count; for ( pfn = pfn_base_idx, j = 0; - pfn < pfn_base_idx + (count << SUPERPAGE_PFN_SHIFT); - pfn += SUPERPAGE_NR_PFNS, j++ ) + pfn < pfn_base_idx + (count << SUPERPAGE_2MB_SHIFT); + pfn += SUPERPAGE_2MB_NR_PFNS, j++ ) extents[j] = dom->p2m_host[pfn]; rc = xc_domain_populate_physmap(dom->xch, dom->guest_domid, count, - SUPERPAGE_PFN_SHIFT, memflags, + SUPERPAGE_2MB_SHIFT, memflags, extents); if ( rc < 0 ) return rc; @@ -897,7 +1145,7 @@ static int meminit_pv(struct xc_dom_image *dom) for ( j = 0; j < rc; j++ ) { mfn = extents[j]; - for ( k = 0; k < SUPERPAGE_NR_PFNS; k++, pfn++ ) + for ( k = 0; k < SUPERPAGE_2MB_NR_PFNS; k++, pfn++ ) dom->p2m_host[pfn] = mfn + k; } pfn_base_idx = pfn; @@ -938,6 +1186,332 @@ static int meminit_pv(struct xc_dom_image *dom) return rc; } +/* + * Check whether there exists mmio hole in the specified memory range. + * Returns 1 if exists, else returns 0. + */ +static int check_mmio_hole(uint64_t start, uint64_t memsize, + uint64_t mmio_start, uint64_t mmio_size) +{ + if ( start + memsize <= mmio_start || start >= mmio_start + mmio_size ) + return 0; + else + return 1; +} + +static int meminit_hvm(struct xc_dom_image *dom) +{ + unsigned long i, vmemid, nr_pages = dom->total_pages; + unsigned long p2m_size; + unsigned long target_pages = dom->target_pages; + unsigned long cur_pages, cur_pfn; + int rc; + xen_capabilities_info_t caps; + unsigned long stat_normal_pages = 0, stat_2mb_pages = 0, + stat_1gb_pages = 0; + unsigned int memflags = 0; + int claim_enabled = dom->claim_enabled; + uint64_t total_pages; + xen_vmemrange_t dummy_vmemrange[2]; + unsigned int dummy_vnode_to_pnode[1]; + xen_vmemrange_t *vmemranges; + unsigned int *vnode_to_pnode; + unsigned int nr_vmemranges, nr_vnodes; + xc_interface *xch = dom->xch; + uint32_t domid = dom->guest_domid; + + if ( nr_pages > target_pages ) + memflags |= XENMEMF_populate_on_demand; + + if ( dom->nr_vmemranges == 0 ) + { + /* Build dummy vnode information + * + * Guest physical address space layout: + * [0, hole_start) [hole_start, 4G) [4G, highmem_end) + * + * Of course if there is no high memory, the second vmemrange + * has no effect on the actual result. + */ + + dummy_vmemrange[0].start = 0; + dummy_vmemrange[0].end = dom->lowmem_end; + dummy_vmemrange[0].flags = 0; + dummy_vmemrange[0].nid = 0; + nr_vmemranges = 1; + + if ( dom->highmem_end > (1ULL << 32) ) + { + dummy_vmemrange[1].start = 1ULL << 32; + dummy_vmemrange[1].end = dom->highmem_end; + dummy_vmemrange[1].flags = 0; + dummy_vmemrange[1].nid = 0; + + nr_vmemranges++; + } + + dummy_vnode_to_pnode[0] = XC_NUMA_NO_NODE; + nr_vnodes = 1; + vmemranges = dummy_vmemrange; + vnode_to_pnode = dummy_vnode_to_pnode; + } + else + { + if ( nr_pages > target_pages ) + { + DOMPRINTF("Cannot enable vNUMA and PoD at the same time"); + goto error_out; + } + + nr_vmemranges = dom->nr_vmemranges; + nr_vnodes = dom->nr_vnodes; + vmemranges = dom->vmemranges; + vnode_to_pnode = dom->vnode_to_pnode; + } + + total_pages = 0; + p2m_size = 0; + for ( i = 0; i < nr_vmemranges; i++ ) + { + total_pages += ((vmemranges[i].end - vmemranges[i].start) + >> PAGE_SHIFT); + p2m_size = p2m_size > (vmemranges[i].end >> PAGE_SHIFT) ? + p2m_size : (vmemranges[i].end >> PAGE_SHIFT); + } + + if ( total_pages != nr_pages ) + { + DOMPRINTF("vNUMA memory pages mismatch (0x%"PRIx64" != 0x%"PRIx64")", + total_pages, nr_pages); + goto error_out; + } + + if ( xc_version(xch, XENVER_capabilities, &caps) != 0 ) + { + DOMPRINTF("Could not get Xen capabilities"); + goto error_out; + } + + dom->p2m_size = p2m_size; + dom->p2m_host = xc_dom_malloc(dom, sizeof(xen_pfn_t) * + dom->p2m_size); + if ( dom->p2m_host == NULL ) + { + DOMPRINTF("Could not allocate p2m"); + goto error_out; + } + + for ( i = 0; i < p2m_size; i++ ) + dom->p2m_host[i] = ((xen_pfn_t)-1); + for ( vmemid = 0; vmemid < nr_vmemranges; vmemid++ ) + { + uint64_t pfn; + + for ( pfn = vmemranges[vmemid].start >> PAGE_SHIFT; + pfn < vmemranges[vmemid].end >> PAGE_SHIFT; + pfn++ ) + dom->p2m_host[pfn] = pfn; + } + + /* + * Try to claim pages for early warning of insufficient memory available. + * This should go before xc_domain_set_pod_target, becuase that function + * actually allocates memory for the guest. Claiming after memory has been + * allocated is pointless. + */ + if ( claim_enabled ) { + rc = xc_domain_claim_pages(xch, domid, target_pages - VGA_HOLE_SIZE); + if ( rc != 0 ) + { + DOMPRINTF("Could not allocate memory for HVM guest as we cannot claim memory!"); + goto error_out; + } + } + + if ( memflags & XENMEMF_populate_on_demand ) + { + /* + * Subtract VGA_HOLE_SIZE from target_pages for the VGA + * "hole". Xen will adjust the PoD cache size so that domain + * tot_pages will be target_pages - VGA_HOLE_SIZE after + * this call. + */ + rc = xc_domain_set_pod_target(xch, domid, target_pages - VGA_HOLE_SIZE, + NULL, NULL, NULL); + if ( rc != 0 ) + { + DOMPRINTF("Could not set PoD target for HVM guest.\n"); + goto error_out; + } + } + + /* + * Allocate memory for HVM guest, skipping VGA hole 0xA0000-0xC0000. + * + * We attempt to allocate 1GB pages if possible. It falls back on 2MB + * pages if 1GB allocation fails. 4KB pages will be used eventually if + * both fail. + * + * Under 2MB mode, we allocate pages in batches of no more than 8MB to + * ensure that we can be preempted and hence dom0 remains responsive. + */ + rc = xc_domain_populate_physmap_exact( + xch, domid, 0xa0, 0, memflags, &dom->p2m_host[0x00]); + + stat_normal_pages = 0; + for ( vmemid = 0; vmemid < nr_vmemranges; vmemid++ ) + { + unsigned int new_memflags = memflags; + uint64_t end_pages; + unsigned int vnode = vmemranges[vmemid].nid; + unsigned int pnode = vnode_to_pnode[vnode]; + + if ( pnode != XC_NUMA_NO_NODE ) + new_memflags |= XENMEMF_exact_node(pnode); + + end_pages = vmemranges[vmemid].end >> PAGE_SHIFT; + /* + * Consider vga hole belongs to the vmemrange that covers + * 0xA0000-0xC0000. Note that 0x00000-0xA0000 is populated just + * before this loop. + */ + if ( vmemranges[vmemid].start == 0 ) + { + cur_pages = 0xc0; + stat_normal_pages += 0xc0; + } + else + cur_pages = vmemranges[vmemid].start >> PAGE_SHIFT; + + while ( (rc == 0) && (end_pages > cur_pages) ) + { + /* Clip count to maximum 1GB extent. */ + unsigned long count = end_pages - cur_pages; + unsigned long max_pages = SUPERPAGE_1GB_NR_PFNS; + + if ( count > max_pages ) + count = max_pages; + + cur_pfn = dom->p2m_host[cur_pages]; + + /* Take care the corner cases of super page tails */ + if ( ((cur_pfn & (SUPERPAGE_1GB_NR_PFNS-1)) != 0) && + (count > (-cur_pfn & (SUPERPAGE_1GB_NR_PFNS-1))) ) + count = -cur_pfn & (SUPERPAGE_1GB_NR_PFNS-1); + else if ( ((count & (SUPERPAGE_1GB_NR_PFNS-1)) != 0) && + (count > SUPERPAGE_1GB_NR_PFNS) ) + count &= ~(SUPERPAGE_1GB_NR_PFNS - 1); + + /* Attemp to allocate 1GB super page. Because in each pass + * we only allocate at most 1GB, we don't have to clip + * super page boundaries. + */ + if ( ((count | cur_pfn) & (SUPERPAGE_1GB_NR_PFNS - 1)) == 0 && + /* Check if there exists MMIO hole in the 1GB memory + * range */ + !check_mmio_hole(cur_pfn << PAGE_SHIFT, + SUPERPAGE_1GB_NR_PFNS << PAGE_SHIFT, + dom->mmio_start, dom->mmio_size) ) + { + long done; + unsigned long nr_extents = count >> SUPERPAGE_1GB_SHIFT; + xen_pfn_t sp_extents[nr_extents]; + + for ( i = 0; i < nr_extents; i++ ) + sp_extents[i] = + dom->p2m_host[cur_pages+(i<<SUPERPAGE_1GB_SHIFT)]; + + done = xc_domain_populate_physmap(xch, domid, nr_extents, + SUPERPAGE_1GB_SHIFT, + memflags, sp_extents); + + if ( done > 0 ) + { + stat_1gb_pages += done; + done <<= SUPERPAGE_1GB_SHIFT; + cur_pages += done; + count -= done; + } + } + + if ( count != 0 ) + { + /* Clip count to maximum 8MB extent. */ + max_pages = SUPERPAGE_2MB_NR_PFNS * 4; + if ( count > max_pages ) + count = max_pages; + + /* Clip partial superpage extents to superpage + * boundaries. */ + if ( ((cur_pfn & (SUPERPAGE_2MB_NR_PFNS-1)) != 0) && + (count > (-cur_pfn & (SUPERPAGE_2MB_NR_PFNS-1))) ) + count = -cur_pfn & (SUPERPAGE_2MB_NR_PFNS-1); + else if ( ((count & (SUPERPAGE_2MB_NR_PFNS-1)) != 0) && + (count > SUPERPAGE_2MB_NR_PFNS) ) + count &= ~(SUPERPAGE_2MB_NR_PFNS - 1); /* clip non-s.p. tail */ + + /* Attempt to allocate superpage extents. */ + if ( ((count | cur_pfn) & (SUPERPAGE_2MB_NR_PFNS - 1)) == 0 ) + { + long done; + unsigned long nr_extents = count >> SUPERPAGE_2MB_SHIFT; + xen_pfn_t sp_extents[nr_extents]; + + for ( i = 0; i < nr_extents; i++ ) + sp_extents[i] = + dom->p2m_host[cur_pages+(i<<SUPERPAGE_2MB_SHIFT)]; + + done = xc_domain_populate_physmap(xch, domid, nr_extents, + SUPERPAGE_2MB_SHIFT, + memflags, sp_extents); + + if ( done > 0 ) + { + stat_2mb_pages += done; + done <<= SUPERPAGE_2MB_SHIFT; + cur_pages += done; + count -= done; + } + } + } + + /* Fall back to 4kB extents. */ + if ( count != 0 ) + { + rc = xc_domain_populate_physmap_exact( + xch, domid, count, 0, new_memflags, &dom->p2m_host[cur_pages]); + cur_pages += count; + stat_normal_pages += count; + } + } + + if ( rc != 0 ) + break; + } + + if ( rc != 0 ) + { + DOMPRINTF("Could not allocate memory for HVM guest."); + goto error_out; + } + + DPRINTF("PHYSICAL MEMORY ALLOCATION:\n"); + DPRINTF(" 4KB PAGES: 0x%016lx\n", stat_normal_pages); + DPRINTF(" 2MB PAGES: 0x%016lx\n", stat_2mb_pages); + DPRINTF(" 1GB PAGES: 0x%016lx\n", stat_1gb_pages); + + rc = 0; + goto out; + error_out: + rc = -1; + out: + + /* ensure no unclaimed pages are left unused */ + xc_domain_claim_pages(xch, domid, 0 /* cancels the claim */); + + return rc; +} + /* ------------------------------------------------------------------------ */ static int bootearly(struct xc_dom_image *dom) @@ -1052,6 +1626,12 @@ static int bootlate_pv(struct xc_dom_image *dom) return 0; } +static int bootlate_hvm(struct xc_dom_image *dom) +{ + DOMPRINTF("%s: doing nothing", __func__); + return 0; +} + int xc_dom_feature_translated(struct xc_dom_image *dom) { /* Guests running inside HVM containers are always auto-translated. */ @@ -1095,10 +1675,27 @@ static struct xc_dom_arch xc_dom_64 = { .bootlate = bootlate_pv, }; +static struct xc_dom_arch xc_hvm_32 = { + .guest_type = "hvm-3.0-x86_32", + .native_protocol = XEN_IO_PROTO_ABI_X86_32, + .page_shift = PAGE_SHIFT_X86, + .sizeof_pfn = 4, + .alloc_magic_pages = alloc_magic_pages_hvm, + .count_pgtables = NULL, + .setup_pgtables = NULL, + .start_info = NULL, + .shared_info = NULL, + .vcpu = vcpu_hvm, + .meminit = meminit_hvm, + .bootearly = bootearly, + .bootlate = bootlate_hvm, +}; + static void __init register_arch_hooks(void) { xc_dom_register_arch_hooks(&xc_dom_32_pae); xc_dom_register_arch_hooks(&xc_dom_64); + xc_dom_register_arch_hooks(&xc_hvm_32); } /* -- 1.9.5 (Apple Git-50.3) _______________________________________________ Xen-devel mailing list Xen-devel@xxxxxxxxxxxxx http://lists.xen.org/xen-devel
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