[Date Prev][Date Next][Thread Prev][Thread Next][Date Index][Thread Index] [Xen-devel] [PATCH 2 of 3] libxl: Add support for passing in the machine's E820 for PCI passthrough
# HG changeset patch # User Konrad Rzeszutek Wilk <konrad.wilk@xxxxxxxxxx> # Date 1305040422 14400 # Node ID feb60afddf6c12c9d41efbee092743968953eee0 # Parent b6af9b428bb16c4c5364ace0617923ffa44ad887 libxl: Add support for passing in the machine's E820 for PCI passthrough The code that populates E820 is unconditionally triggered by the guest configuration having "pci=['<BDF>,..']", being a PV guest, and if b_info->u.pv.machine_e820 is set. The code do_domain_create calls the libxl__e820_alloc when it notices that the guest is PV, has at least one PCI devices, and has the machine_e820 flag set. libxl__e820_alloc calls the xc_get_machine_memory_map to retrieve the systems E820. Then the E820 is sanitized to weed out E820 entries below 16MB, and as well remove any E820_RAM or E820_UNUSED regions as the guest does not need to know about them. The guest only needs the E820_ACPI, E820_NVS, E820_RESERVED to get an idea of where the PCI I/O space is. Mostly.. The Linux kernel assumes that any gap in the E820 is considered PCI I/O space which means that if we pass in the guest 2GB, and the E820_ACPI, and its friend start at 3GB, the gap between 2GB and 3GB will be considered as PCI I/O space. To guard against that we also create an E820_UNUSABLE between the region of 'target_kb' (called ram_end in the code) up to the first E820_[ACPI,NVS,RESERVED] region. Lastly, the xc_domain_set_memory_map is called to install the new E820. When tested with another PV guest (NetBSD 5.1) the modified E820 gave it no trouble. The code has also been tested with older "classic" Xen Linux and with the newer "pvops" with success (SLES11, RHEL5, Ubuntu Lucid, Debian Squeeze, 2.6.37, 2.6.38, 2.6.39). Memory that is slack or for balloon (so 'maxmem' in guest configuration) is put behind the machine E820. Which in most cases is after the 4GB. The reason for doing the fetching of the E820 using the hypercall in the toolstack (instead of the guest doing it) is that when a guest would do a hypercall to 'XENMEM_machine_memory_map' it would retrieve an E820 with I/O range caps added in. Meaning that the region after 4GB up to end of possible memory would be marked as unusable and the kernel would not have any space to allocate a balloon region. Signed-off-by: Konrad Rzeszutek Wilk <konrad.wilk@xxxxxxxxxx> diff -r b6af9b428bb1 -r feb60afddf6c tools/libxl/libxl.idl --- a/tools/libxl/libxl.idl Wed May 04 10:16:08 2011 -0400 +++ b/tools/libxl/libxl.idl Tue May 10 11:13:42 2011 -0400 @@ -180,6 +180,7 @@ libxl_domain_build_info = Struct("domain ("cmdline", string), ("ramdisk", libxl_file_reference), ("features", string, True), + ("machine_e820", bool, False, "Use machine's E820 for PCI passthrough."), ])), ])), ], diff -r b6af9b428bb1 -r feb60afddf6c tools/libxl/libxl_create.c --- a/tools/libxl/libxl_create.c Wed May 04 10:16:08 2011 -0400 +++ b/tools/libxl/libxl_create.c Tue May 10 11:13:42 2011 -0400 @@ -519,6 +519,14 @@ static int do_domain_create(libxl__gc *g for (i = 0; i < d_config->num_pcidevs; i++) libxl__device_pci_add(gc, domid, &d_config->pcidevs[i], 1); + if (!d_config->c_info.hvm && d_config->b_info.u.pv.machine_e820) { + int rc; + rc = libxl__e820_alloc(ctx, domid, d_config); + if (rc) + LIBXL__LOG_ERRNO(ctx, LIBXL__LOG_ERROR, + "Failed while collecting E820 with: %d (errno:%d)\n", + rc, errno); + } if ( cb && (d_config->c_info.hvm || d_config->b_info.u.pv.bootloader )) { if ( (*cb)(ctx, domid, priv) ) goto error_out; diff -r b6af9b428bb1 -r feb60afddf6c tools/libxl/libxl_internal.h --- a/tools/libxl/libxl_internal.h Wed May 04 10:16:08 2011 -0400 +++ b/tools/libxl/libxl_internal.h Tue May 10 11:13:42 2011 -0400 @@ -362,4 +362,5 @@ _hidden int libxl__error_set(libxl__gc * _hidden int libxl__file_reference_map(libxl_file_reference *f); _hidden int libxl__file_reference_unmap(libxl_file_reference *f); +_hidden int libxl__e820_alloc(libxl_ctx *ctx, uint32_t domid, libxl_domain_config *d_config); #endif diff -r b6af9b428bb1 -r feb60afddf6c tools/libxl/libxl_pci.c --- a/tools/libxl/libxl_pci.c Wed May 04 10:16:08 2011 -0400 +++ b/tools/libxl/libxl_pci.c Tue May 10 11:13:42 2011 -0400 @@ -1047,3 +1047,165 @@ int libxl_device_pci_shutdown(libxl_ctx free(pcidevs); return 0; } + +static const char *e820_names(int type) { + + switch (type) { + case E820_RAM: return "RAM"; + case E820_RESERVED: return "Reserved"; + case E820_ACPI: return "ACPI"; + case E820_NVS: return "ACPI NVS"; + case E820_UNUSABLE: return "Unusable"; + default: break; + } + return "Unknown"; +} + +static int e820_sanitize(libxl_ctx *ctx, struct e820entry src[], + uint32_t *nr_entries, + unsigned long map_limitkb, + unsigned long balloon_kb) +{ + uint64_t delta_kb = 0, start = 0, start_kb = 0, last = 0, ram_end; + uint32_t i, idx = 0, nr; + struct e820entry e820[E820MAX]; + + if (!src || !map_limitkb || !balloon_kb || !nr_entries) + return ERROR_INVAL; + + nr = *nr_entries; + if (!nr) + return ERROR_INVAL; + + if (nr > E820MAX) + return ERROR_NOMEM; + + /* Weed out anything under 1MB */ + for (i = 0; i < nr; i++) { + if (src[i].addr > 0x100000) + continue; + + src[i].type = 0; + src[i].size = 0; + src[i].addr = -1ULL; + } + + /* Find the lowest and highest entry in E820, skipping over + * undesired entries. */ + start = -1ULL; + last = 0; + for (i = 0; i < nr; i++) { + if ((src[i].type == E820_RAM) || + (src[i].type == E820_UNUSABLE) || + (src[i].type == 0)) + continue; + + start = src[i].addr < start ? src[i].addr : start; + last = src[i].addr + src[i].size > last ? + src[i].addr + src[i].size > last : last; + } + if (start > 1024) + start_kb = start >> 10; + + /* Add the memory RAM region for the guest */ + e820[idx].addr = 0; + e820[idx].size = (uint64_t)map_limitkb << 10; + e820[idx].type = E820_RAM; + + /* .. and trim if neccessary */ + if (start_kb && map_limitkb > start_kb) { + delta_kb = map_limitkb - start_kb; + if (delta_kb) + e820[idx].size -= (uint64_t)(delta_kb << 10); + } + /* Note: We don't touch balloon_kb here. Will add it at the end. */ + ram_end = e820[idx].addr + e820[idx].size; + idx ++; + + LIBXL__LOG(ctx, LIBXL__LOG_DEBUG, "Memory: %ldkB End of RAM: 0x%lx (PFN) " \ + "Delta: %ldkB, PCI start: %ldkB (0x%lx PFN), Balloon %ldkB\n", + map_limitkb, ram_end >> 12, delta_kb, start_kb ,start >> 12, + balloon_kb); + + /* Check if there is a region between ram_end and start. */ + if (start > ram_end) { + /* .. and if not present, add it in. This is to guard against + the Linux guest assuming that the gap between the end of + RAM region and the start of the E820_[ACPI,NVS,RESERVED] + is PCI I/O space. Which it certainly is _not_. */ + e820[idx].type = E820_UNUSABLE; + e820[idx].addr = ram_end; + e820[idx].size = start - ram_end; + idx++; + } + /* Almost done: copy them over, ignoring the undesireable ones */ + for (i = 0; i < nr; i++) { + if ((src[i].type == E820_RAM) || + (src[i].type == E820_UNUSABLE) || + (src[i].type == 0)) + continue; + e820[idx].type = src[i].type; + e820[idx].addr = src[i].addr; + e820[idx].size = src[i].size; + idx++; + } + + /* At this point we have the mapped RAM + E820 entries from src. */ + if (balloon_kb) { + /* and if we truncated the RAM region, then add it to the end. */ + e820[idx].type = E820_RAM; + e820[idx].addr = (uint64_t)(1ULL << 32) > last ? (uint64_t)(1ULL << 32) : last; + /* also add the balloon memory to the end. */ + e820[idx].size = (uint64_t)(delta_kb << 10) + (uint64_t)(balloon_kb << 10); + idx++; + + } + nr = idx; + + for (i = 0; i < nr; i++) { + LIBXL__LOG(ctx, LIBXL__LOG_DEBUG, ":\t[%lx -> %lx] %s", + e820[i].addr >> 12, (e820[i].addr + e820[i].size) >> 12, + e820_names(e820[i].type)); + } + + /* Done: copy the sanitized version. */ + *nr_entries = nr; + memcpy(src, e820, nr * sizeof(struct e820entry)); + return 0; +} + + +int libxl__e820_alloc(libxl_ctx *ctx, uint32_t domid, libxl_domain_config *d_config) +{ + int rc; + uint32_t nr; + struct e820entry map[E820MAX]; + libxl_domain_build_info *b_info; + + if (d_config == NULL || d_config->c_info.hvm) + return ERROR_INVAL; + + b_info = &d_config->b_info; + if (!b_info->u.pv.machine_e820) + return ERROR_INVAL; + + rc = xc_get_machine_memory_map(ctx->xch, map, E820MAX); + if (rc < 0) { + errno = rc; + return ERROR_FAIL; + } + nr = rc; + rc = e820_sanitize(ctx, map, &nr, b_info->target_memkb, + (b_info->max_memkb - b_info->target_memkb) + + b_info->u.pv.slack_memkb); + if (rc) + return ERROR_FAIL; + + rc = xc_domain_set_memory_map(ctx->xch, domid, map, nr); + + if (rc < 0) { + errno = rc; + return ERROR_FAIL; + } + return 0; +} diff -r b6af9b428bb1 -r feb60afddf6c tools/libxl/xl_cmdimpl.c --- a/tools/libxl/xl_cmdimpl.c Wed May 04 10:16:08 2011 -0400 +++ b/tools/libxl/xl_cmdimpl.c Tue May 10 11:13:42 2011 -0400 @@ -373,6 +373,7 @@ static void printf_info(int domid, printf("\t\t\t(kernel %s)\n", b_info->u.pv.kernel.path); printf("\t\t\t(cmdline %s)\n", b_info->u.pv.cmdline); printf("\t\t\t(ramdisk %s)\n", b_info->u.pv.ramdisk.path); + printf("\t\t\t(machine_e820 %d)\n", b_info->u.pv.machine_e820); printf("\t\t)\n"); } printf("\t)\n"); @@ -994,6 +995,8 @@ skip_vfb: if (!libxl_device_pci_parse_bdf(ctx, pcidev, buf)) d_config->num_pcidevs++; } + if (d_config->num_pcidevs && !c_info->hvm) + b_info->u.pv.machine_e820 = true; } switch (xlu_cfg_get_list(config, "cpuid", &cpuids, 0, 1)) { _______________________________________________ Xen-devel mailing list Xen-devel@xxxxxxxxxxxxxxxxxxx http://lists.xensource.com/xen-devel
|
Lists.xenproject.org is hosted with RackSpace, monitoring our |