#include "kvm/builtin-run.h" #include "kvm/builtin-setup.h" #include "kvm/virtio-balloon.h" #include "kvm/virtio-console.h" #include "kvm/parse-options.h" #include "kvm/8250-serial.h" #include "kvm/framebuffer.h" #include "kvm/disk-image.h" #include "kvm/threadpool.h" #include "kvm/virtio-scsi.h" #include "kvm/virtio-blk.h" #include "kvm/virtio-net.h" #include "kvm/virtio-rng.h" #include "kvm/ioeventfd.h" #include "kvm/virtio-9p.h" #include "kvm/barrier.h" #include "kvm/kvm-cpu.h" #include "kvm/ioport.h" #include "kvm/symbol.h" #include "kvm/i8042.h" #include "kvm/mutex.h" #include "kvm/term.h" #include "kvm/util.h" #include "kvm/strbuf.h" #include "kvm/vesa.h" #include "kvm/irq.h" #include "kvm/kvm.h" #include "kvm/pci.h" #include "kvm/rtc.h" #include "kvm/sdl.h" #include "kvm/vnc.h" #include "kvm/guest_compat.h" #include "kvm/kvm-ipc.h" #include "kvm/builtin-debug.h" #include #include #include #include #include #include #include #include #include #include #include #include #include #define KB_SHIFT (10) #define MB_SHIFT (20) #define GB_SHIFT (30) #define TB_SHIFT (40) #define PB_SHIFT (50) __thread struct kvm_cpu *current_kvm_cpu; static int kvm_run_wrapper; int loglevel = LOGLEVEL_INFO; static const char * const run_usage[] = { "lkvm run [] []", NULL }; enum { KVM_RUN_DEFAULT, KVM_RUN_SANDBOX, }; static int img_name_parser(const struct option *opt, const char *arg, int unset) { char path[PATH_MAX]; struct stat st; snprintf(path, PATH_MAX, "%s%s", kvm__get_dir(), arg); if ((stat(arg, &st) == 0 && S_ISDIR(st.st_mode)) || (stat(path, &st) == 0 && S_ISDIR(st.st_mode))) return virtio_9p_img_name_parser(opt, arg, unset); return disk_img_name_parser(opt, arg, unset); } void kvm_run_set_wrapper_sandbox(void) { kvm_run_wrapper = KVM_RUN_SANDBOX; } static int parse_mem_unit(char **next) { switch (**next) { case 'B': case 'b': (*next)++; return 0; case 'K': case 'k': (*next)++; return KB_SHIFT; case 'M': case 'm': (*next)++; return MB_SHIFT; case 'G': case 'g': (*next)++; return GB_SHIFT; case 'T': case 't': (*next)++; return TB_SHIFT; case 'P': case 'p': (*next)++; return PB_SHIFT; } return MB_SHIFT; } static u64 parse_mem_option(const char *nptr, char **next) { u64 shift; u64 val; errno = 0; val = strtoull(nptr, next, 10); if (errno == ERANGE) die("Memory too large: %s", nptr); if (*next == nptr) die("Invalid memory specifier: %s", nptr); shift = parse_mem_unit(next); if ((val << shift) < val) die("Memory too large: %s", nptr); return val << shift; } static int mem_parser(const struct option *opt, const char *arg, int unset) { struct kvm *kvm = opt->ptr; char *next, *nptr; kvm->cfg.ram_size = parse_mem_option(arg, &next); if (kvm->cfg.ram_size == 0) die("Invalid RAM size: %s", arg); if (kvm__arch_has_cfg_ram_address() && *next == '@') { next++; if (*next == '\0') die("Missing memory address: %s", arg); nptr = next; kvm->cfg.ram_addr = parse_mem_option(nptr, &next); } if (*next != '\0') die("Invalid memory specifier: %s", arg); return 0; } static int loglevel_parser(const struct option *opt, const char *arg, int unset) { if (strcmp(opt->long_name, "debug") == 0) { loglevel = LOGLEVEL_DEBUG; return 0; } if (strcmp(arg, "debug") == 0) loglevel = LOGLEVEL_DEBUG; else if (strcmp(arg, "info") == 0) loglevel = LOGLEVEL_INFO; else if (strcmp(arg, "warning") == 0) loglevel = LOGLEVEL_WARNING; else if (strcmp(arg, "error") == 0) loglevel = LOGLEVEL_ERROR; else die("Unknown loglevel: %s", arg); return 0; } #ifndef OPT_ARCH_RUN #define OPT_ARCH_RUN(...) #endif #ifdef ARCH_HAS_CFG_RAM_ADDRESS #define MEM_OPT_HELP_SHORT "size[BKMGTP][@addr[BKMGTP]]" #define MEM_OPT_HELP_LONG \ "Virtual machine memory size and optional base address, both" \ " measured by default in megabytes (M)" #else #define MEM_OPT_HELP_SHORT "size[BKMGTP]" #define MEM_OPT_HELP_LONG \ "Virtual machine memory size, by default measured in" \ " in megabytes (M)" #endif #if defined(CONFIG_ARM) || defined(CONFIG_ARM64) || defined(CONFIG_RISCV) #define VIRTIO_TRANS_OPT_HELP_SHORT "[pci|pci-legacy|mmio|mmio-legacy]" #else #define VIRTIO_TRANS_OPT_HELP_SHORT "[pci|pci-legacy]" #endif #define BUILD_OPTIONS(name, cfg, kvm) \ struct option name[] = { \ OPT_GROUP("Basic options:"), \ OPT_STRING('\0', "name", &(cfg)->guest_name, "guest name", \ "A name for the guest"), \ OPT_INTEGER('c', "cpus", &(cfg)->nrcpus, "Number of CPUs"), \ OPT_CALLBACK('m', "mem", NULL, MEM_OPT_HELP_SHORT, \ MEM_OPT_HELP_LONG, mem_parser, kvm), \ OPT_CALLBACK('d', "disk", kvm, "image or rootfs_dir", "Disk " \ " image or rootfs directory", img_name_parser, \ kvm), \ OPT_BOOLEAN('\0', "balloon", &(cfg)->balloon, "Enable virtio" \ " balloon"), \ OPT_BOOLEAN('\0', "vnc", &(cfg)->vnc, "Enable VNC framebuffer"),\ OPT_BOOLEAN('\0', "gtk", &(cfg)->gtk, "Enable GTK framebuffer"),\ OPT_BOOLEAN('\0', "sdl", &(cfg)->sdl, "Enable SDL framebuffer"),\ OPT_BOOLEAN('\0', "rng", &(cfg)->virtio_rng, "Enable virtio" \ " Random Number Generator"), \ OPT_BOOLEAN('\0', "nodefaults", &(cfg)->nodefaults, "Disable" \ " implicit configuration that cannot be" \ " disabled otherwise"), \ OPT_CALLBACK('\0', "9p", NULL, "dir_to_share,tag_name", \ "Enable virtio 9p to share files between host and" \ " guest", virtio_9p_rootdir_parser, kvm), \ OPT_STRING('\0', "console", &(cfg)->console, "serial, virtio or"\ " hv", "Console to use"), \ OPT_U64('\0', "vsock", &(cfg)->vsock_cid, \ "Guest virtio socket CID"), \ OPT_STRING('\0', "dev", &(cfg)->dev, "device_file", \ "KVM device file"), \ OPT_CALLBACK('\0', "tty", NULL, "tty id", \ "Remap guest TTY into a pty on the host", \ tty_parser, NULL), \ OPT_STRING('\0', "sandbox", &(cfg)->sandbox, "script", \ "Run this script when booting into custom" \ " rootfs"), \ OPT_STRING('\0', "hugetlbfs", &(cfg)->hugetlbfs_path, "path", \ "Hugetlbfs path"), \ OPT_CALLBACK_NOOPT('\0', "virtio-legacy", \ &(cfg)->virtio_transport, "", \ "Use legacy virtio transport (Deprecated:" \ " Use --virtio-transport option instead)", \ virtio_transport_parser, NULL), \ OPT_CALLBACK('\0', "virtio-transport", &(cfg)->virtio_transport,\ VIRTIO_TRANS_OPT_HELP_SHORT, \ "Type of virtio transport", \ virtio_transport_parser, NULL), \ OPT_CALLBACK('\0', "loglevel", NULL, "[error|warning|info|debug]",\ "Set the verbosity level", loglevel_parser, NULL),\ \ OPT_GROUP("Kernel options:"), \ OPT_STRING('k', "kernel", &(cfg)->kernel_filename, "kernel", \ "Kernel to boot in virtual machine"), \ OPT_STRING('i', "initrd", &(cfg)->initrd_filename, "initrd", \ "Initial RAM disk image"), \ OPT_STRING('p', "params", &(cfg)->kernel_cmdline, "params", \ "Kernel command line arguments"), \ OPT_STRING('f', "firmware", &(cfg)->firmware_filename, "firmware",\ "Firmware image to boot in virtual machine"), \ OPT_STRING('F', "flash", &(cfg)->flash_filename, "flash",\ "Flash image to present to virtual machine"), \ \ OPT_GROUP("Networking options:"), \ OPT_CALLBACK_DEFAULT('n', "network", NULL, "network params", \ "Create a new guest NIC. Pass mode=none to disable"\ " all network devices", \ netdev_parser, NULL, kvm), \ OPT_BOOLEAN('\0', "no-dhcp", &(cfg)->no_dhcp, "Disable kernel" \ " DHCP in rootfs mode"), \ \ OPT_GROUP("VFIO options:"), \ OPT_CALLBACK('\0', "vfio-pci", NULL, "[domain:]bus:dev.fn", \ "Assign a PCI device to the virtual machine", \ vfio_device_parser, kvm), \ \ OPT_GROUP("Debug options:"), \ OPT_CALLBACK_NOOPT('\0', "debug", kvm, NULL, \ "Enable debug messages (deprecated, use " \ "--loglevel=debug instead)", \ loglevel_parser, NULL), \ OPT_BOOLEAN('\0', "debug-single-step", &(cfg)->single_step, \ "Enable single stepping"), \ OPT_BOOLEAN('\0', "debug-ioport", &(cfg)->ioport_debug, \ "Enable ioport debugging"), \ OPT_BOOLEAN('\0', "debug-mmio", &(cfg)->mmio_debug, \ "Enable MMIO debugging"), \ OPT_INTEGER('\0', "debug-iodelay", &(cfg)->debug_iodelay, \ "Delay IO by millisecond"), \ \ OPT_ARCH(RUN, cfg) \ OPT_END() \ }; static void *kvm_cpu_thread(void *arg) { char name[16]; current_kvm_cpu = arg; sprintf(name, "kvm-vcpu-%lu", current_kvm_cpu->cpu_id); kvm__set_thread_name(name); if (kvm_cpu__start(current_kvm_cpu)) goto panic_kvm; return (void *) (intptr_t) 0; panic_kvm: pr_err("KVM exit reason: %u (\"%s\")", current_kvm_cpu->kvm_run->exit_reason, kvm_exit_reasons[current_kvm_cpu->kvm_run->exit_reason]); if (current_kvm_cpu->kvm_run->exit_reason == KVM_EXIT_UNKNOWN) { pr_err("KVM exit code: %llu", (unsigned long long)current_kvm_cpu->kvm_run->hw.hardware_exit_reason); } kvm_cpu__set_debug_fd(STDOUT_FILENO); kvm_cpu__show_registers(current_kvm_cpu); kvm_cpu__show_code(current_kvm_cpu); kvm_cpu__show_page_tables(current_kvm_cpu); return (void *) (intptr_t) 1; } static char kernel[PATH_MAX]; static const char *host_kernels[] = { "/boot/vmlinuz", "/boot/bzImage", NULL }; static const char *default_kernels[] = { "./bzImage", "arch/" BUILD_ARCH "/boot/bzImage", "../../arch/" BUILD_ARCH "/boot/bzImage", NULL }; static const char *default_vmlinux[] = { "vmlinux", "../../../vmlinux", "../../vmlinux", NULL }; static void kernel_usage_with_options(void) { const char **k; struct utsname uts; pr_err("Could not find default kernel image in:"); k = &default_kernels[0]; while (*k) { pr_err("\t%s", *k); k++; } if (uname(&uts) < 0) return; k = &host_kernels[0]; while (*k) { if (snprintf(kernel, PATH_MAX, "%s-%s", *k, uts.release) < 0) return; pr_err("\t%s", kernel); k++; } pr_info("Please see '%s run --help' for more options.", KVM_BINARY_NAME); } static long host_page_size(void) { long page_size = sysconf(_SC_PAGE_SIZE); if (page_size < 0) { pr_warning("sysconf(_SC_PAGE_SIZE) failed"); return 0; } return page_size; } static long host_ram_nrpages(void) { long nr_pages = sysconf(_SC_PHYS_PAGES); if (nr_pages < 0) { pr_warning("sysconf(_SC_PHYS_PAGES) failed"); return 0; } return nr_pages; } static u64 host_ram_size(void) { long page_size = host_page_size(); long nr_pages = host_ram_nrpages(); return (u64)nr_pages * page_size; } /* * If user didn't specify how much memory it wants to allocate for the guest, * avoid filling the whole host RAM. */ #define RAM_SIZE_RATIO 0.8 static u64 get_ram_size(int nr_cpus) { long nr_pages_available = host_ram_nrpages() * RAM_SIZE_RATIO; u64 ram_size = (u64)SZ_64M * (nr_cpus + 3); u64 available = MIN_RAM_SIZE; if (nr_pages_available) available = nr_pages_available * host_page_size(); if (ram_size > available) ram_size = available; return ram_size; } static const char *find_kernel(void) { const char **k; struct stat st; struct utsname uts; k = &default_kernels[0]; while (*k) { if (stat(*k, &st) < 0 || !S_ISREG(st.st_mode)) { k++; continue; } strlcpy(kernel, *k, PATH_MAX); return kernel; } if (uname(&uts) < 0) return NULL; k = &host_kernels[0]; while (*k) { if (snprintf(kernel, PATH_MAX, "%s-%s", *k, uts.release) < 0) return NULL; if (stat(kernel, &st) < 0 || !S_ISREG(st.st_mode)) { k++; continue; } return kernel; } return NULL; } static const char *find_vmlinux(void) { const char **vmlinux; vmlinux = &default_vmlinux[0]; while (*vmlinux) { struct stat st; if (stat(*vmlinux, &st) < 0 || !S_ISREG(st.st_mode)) { vmlinux++; continue; } return *vmlinux; } return NULL; } void kvm_run_help(void) { struct kvm *kvm = NULL; BUILD_OPTIONS(options, &kvm->cfg, kvm); usage_with_options(run_usage, options); } static int kvm_run_set_sandbox(struct kvm *kvm) { const char *guestfs_name = kvm->cfg.custom_rootfs_name; char path[PATH_MAX], script[PATH_MAX], *tmp; snprintf(path, PATH_MAX, "%s%s/virt/sandbox.sh", kvm__get_dir(), guestfs_name); remove(path); if (kvm->cfg.sandbox == NULL) return 0; tmp = realpath(kvm->cfg.sandbox, NULL); if (tmp == NULL) return -ENOMEM; snprintf(script, PATH_MAX, "/host/%s", tmp); free(tmp); return symlink(script, path); } static void kvm_write_sandbox_cmd_exactly(int fd, const char *arg) { const char *single_quote; if (!*arg) { /* zero length string */ if (write(fd, "''", 2) <= 0) die("Failed writing sandbox script"); return; } while (*arg) { single_quote = strchrnul(arg, '\''); /* write non-single-quote string as #('string') */ if (arg != single_quote) { if (write(fd, "'", 1) <= 0 || write(fd, arg, single_quote - arg) <= 0 || write(fd, "'", 1) <= 0) die("Failed writing sandbox script"); } /* write single quote as #("'") */ if (*single_quote) { if (write(fd, "\"'\"", 3) <= 0) die("Failed writing sandbox script"); } else break; arg = single_quote + 1; } } static void resolve_program(const char *src, char *dst, size_t len) { struct stat st; int err; err = stat(src, &st); if (!err && S_ISREG(st.st_mode)) { char resolved_path[PATH_MAX]; if (!realpath(src, resolved_path)) die("Unable to resolve program %s: %s\n", src, strerror(errno)); if (snprintf(dst, len, "/host%s", resolved_path) >= (int)len) die("Pathname too long: %s -> %s\n", src, resolved_path); } else strlcpy(dst, src, len); } static void kvm_run_write_sandbox_cmd(struct kvm *kvm, const char **argv, int argc) { const char script_hdr[] = "#! /bin/bash\n\n"; char program[PATH_MAX]; int fd; remove(kvm->cfg.sandbox); fd = open(kvm->cfg.sandbox, O_RDWR | O_CREAT, 0777); if (fd < 0) die("Failed creating sandbox script"); if (write(fd, script_hdr, sizeof(script_hdr) - 1) <= 0) die("Failed writing sandbox script"); resolve_program(argv[0], program, PATH_MAX); kvm_write_sandbox_cmd_exactly(fd, program); argv++; argc--; while (argc) { if (write(fd, " ", 1) <= 0) die("Failed writing sandbox script"); kvm_write_sandbox_cmd_exactly(fd, argv[0]); argv++; argc--; } if (write(fd, "\n", 1) <= 0) die("Failed writing sandbox script"); close(fd); } static void kvm_run_set_real_cmdline(struct kvm *kvm) { static char real_cmdline[2048]; bool video; video = kvm->cfg.vnc || kvm->cfg.sdl || kvm->cfg.gtk; memset(real_cmdline, 0, sizeof(real_cmdline)); kvm__arch_set_cmdline(real_cmdline, video); if (video) { strcat(real_cmdline, " console=tty0"); } else { switch (kvm->cfg.active_console) { case CONSOLE_HV: /* Fallthrough */ case CONSOLE_VIRTIO: strcat(real_cmdline, " console=hvc0"); break; case CONSOLE_8250: strcat(real_cmdline, " console=ttyS0"); break; } } if (kvm->cfg.using_rootfs) { strcat(real_cmdline, " rw rootflags=trans=virtio,version=9p2000.L,cache=loose rootfstype=9p"); if (kvm->cfg.custom_rootfs) { #ifdef CONFIG_GUEST_PRE_INIT strcat(real_cmdline, " init=/virt/pre_init"); #else strcat(real_cmdline, " init=/virt/init"); #endif if (!kvm->cfg.no_dhcp) strcat(real_cmdline, " ip=dhcp"); } } else if (!kvm->cfg.kernel_cmdline || !strstr(kvm->cfg.kernel_cmdline, "root=")) { strlcat(real_cmdline, " root=/dev/vda rw ", sizeof(real_cmdline)); } if (kvm->cfg.kernel_cmdline) { strcat(real_cmdline, " "); strlcat(real_cmdline, kvm->cfg.kernel_cmdline, sizeof(real_cmdline)); } kvm->cfg.real_cmdline = real_cmdline; } static void kvm_run_validate_cfg(struct kvm *kvm) { u64 available_ram; if (kvm->cfg.kernel_filename && kvm->cfg.firmware_filename) die("Only one of --kernel or --firmware can be specified"); if ((kvm->cfg.vnc && (kvm->cfg.sdl || kvm->cfg.gtk)) || (kvm->cfg.sdl && kvm->cfg.gtk)) die("Only one of --vnc, --sdl or --gtk can be specified"); if (kvm->cfg.firmware_filename && kvm->cfg.initrd_filename) pr_warning("Ignoring initrd file when loading a firmware image"); if (kvm->cfg.ram_size) { available_ram = host_ram_size(); if (available_ram && kvm->cfg.ram_size > available_ram) { pr_warning("Guest memory size %lluMB exceeds host physical RAM size %lluMB", (unsigned long long)kvm->cfg.ram_size >> MB_SHIFT, (unsigned long long)available_ram >> MB_SHIFT); } } kvm__arch_validate_cfg(kvm); } static struct kvm *kvm_cmd_run_init(int argc, const char **argv) { static char default_name[20]; unsigned int nr_online_cpus; struct kvm *kvm = kvm__new(); if (IS_ERR(kvm)) return kvm; nr_online_cpus = sysconf(_SC_NPROCESSORS_ONLN); kvm->cfg.custom_rootfs_name = "default"; /* * An architecture can allow the user to set the RAM base address to * zero. Initialize the address before parsing the command line * arguments, otherwise it will be impossible to distinguish between the * user setting the base address to zero or letting it unset and using * the default value. */ kvm->cfg.ram_addr = kvm__arch_default_ram_address(); while (argc != 0) { BUILD_OPTIONS(options, &kvm->cfg, kvm); argc = parse_options(argc, argv, options, run_usage, PARSE_OPT_STOP_AT_NON_OPTION | PARSE_OPT_KEEP_DASHDASH); if (argc != 0) { /* Cusrom options, should have been handled elsewhere */ if (strcmp(argv[0], "--") == 0) { if (kvm_run_wrapper == KVM_RUN_SANDBOX) { kvm->cfg.sandbox = DEFAULT_SANDBOX_FILENAME; kvm_run_write_sandbox_cmd(kvm, argv+1, argc-1); break; } } if ((kvm_run_wrapper == KVM_RUN_DEFAULT && kvm->cfg.kernel_filename) || (kvm_run_wrapper == KVM_RUN_SANDBOX && kvm->cfg.sandbox)) { pr_err("Cannot handle parameter: %s", argv[0]); usage_with_options(run_usage, options); free(kvm); return ERR_PTR(-EINVAL); } if (kvm_run_wrapper == KVM_RUN_SANDBOX) { /* * first unhandled parameter is treated as * sandbox command */ kvm->cfg.sandbox = DEFAULT_SANDBOX_FILENAME; kvm_run_write_sandbox_cmd(kvm, argv, argc); } else { /* * first unhandled parameter is treated as a kernel * image */ kvm->cfg.kernel_filename = argv[0]; } argv++; argc--; } } kvm_run_validate_cfg(kvm); if (!kvm->cfg.kernel_filename && !kvm->cfg.firmware_filename) { kvm->cfg.kernel_filename = find_kernel(); if (!kvm->cfg.kernel_filename) { kernel_usage_with_options(); return ERR_PTR(-EINVAL); } } if (kvm->cfg.kernel_filename) { kvm->cfg.vmlinux_filename = find_vmlinux(); kvm->vmlinux = kvm->cfg.vmlinux_filename; } if (kvm->cfg.nrcpus == 0) kvm->cfg.nrcpus = nr_online_cpus; if (!kvm->cfg.ram_size) kvm->cfg.ram_size = get_ram_size(kvm->cfg.nrcpus); if (!kvm->cfg.dev) kvm->cfg.dev = DEFAULT_KVM_DEV; if (!kvm->cfg.console) kvm->cfg.console = DEFAULT_CONSOLE; if (!strncmp(kvm->cfg.console, "virtio", 6)) kvm->cfg.active_console = CONSOLE_VIRTIO; else if (!strncmp(kvm->cfg.console, "serial", 6)) kvm->cfg.active_console = CONSOLE_8250; else if (!strncmp(kvm->cfg.console, "hv", 2)) kvm->cfg.active_console = CONSOLE_HV; else pr_warning("No console!"); if (!kvm->cfg.host_ip) kvm->cfg.host_ip = DEFAULT_HOST_ADDR; if (!kvm->cfg.guest_ip) kvm->cfg.guest_ip = DEFAULT_GUEST_ADDR; if (!kvm->cfg.guest_mac) kvm->cfg.guest_mac = DEFAULT_GUEST_MAC; if (!kvm->cfg.host_mac) kvm->cfg.host_mac = DEFAULT_HOST_MAC; if (!kvm->cfg.script) kvm->cfg.script = DEFAULT_SCRIPT; if (!kvm->cfg.network) kvm->cfg.network = DEFAULT_NETWORK; if (!kvm->cfg.guest_name) { if (kvm->cfg.custom_rootfs) { kvm->cfg.guest_name = kvm->cfg.custom_rootfs_name; } else { sprintf(default_name, "guest-%u", getpid()); kvm->cfg.guest_name = default_name; } } if (!kvm->cfg.nodefaults && !kvm->cfg.using_rootfs && !kvm->cfg.disk_image[0].filename && !kvm->cfg.initrd_filename) { char tmp[PATH_MAX]; kvm_setup_create_new(kvm->cfg.custom_rootfs_name); kvm_setup_resolv(kvm->cfg.custom_rootfs_name); snprintf(tmp, PATH_MAX, "%s%s", kvm__get_dir(), "default"); if (virtio_9p__register(kvm, tmp, "/dev/root") < 0) die("Unable to initialize virtio 9p"); if (virtio_9p__register(kvm, "/", "hostfs") < 0) die("Unable to initialize virtio 9p"); kvm->cfg.using_rootfs = kvm->cfg.custom_rootfs = 1; } if (kvm->cfg.custom_rootfs) { kvm_run_set_sandbox(kvm); if (kvm_setup_guest_init(kvm->cfg.custom_rootfs_name)) die("Failed to setup init for guest."); } if (kvm->cfg.nodefaults) kvm->cfg.real_cmdline = kvm->cfg.kernel_cmdline; else kvm_run_set_real_cmdline(kvm); if (kvm->cfg.kernel_filename) { pr_info("# %s run -k %s -m %Lu -c %d --name %s", KVM_BINARY_NAME, kvm->cfg.kernel_filename, (unsigned long long)kvm->cfg.ram_size >> MB_SHIFT, kvm->cfg.nrcpus, kvm->cfg.guest_name); } else if (kvm->cfg.firmware_filename) { pr_info("# %s run --firmware %s -m %Lu -c %d --name %s", KVM_BINARY_NAME, kvm->cfg.firmware_filename, (unsigned long long)kvm->cfg.ram_size >> MB_SHIFT, kvm->cfg.nrcpus, kvm->cfg.guest_name); } if (init_list__init(kvm) < 0) die ("Initialisation failed"); return kvm; } static int kvm_cmd_run_work(struct kvm *kvm) { int i; for (i = 0; i < kvm->nrcpus; i++) { if (pthread_create(&kvm->cpus[i]->thread, NULL, kvm_cpu_thread, kvm->cpus[i]) != 0) die("unable to create KVM VCPU thread"); } /* Only VCPU #0 is going to exit by itself when shutting down */ if (pthread_join(kvm->cpus[0]->thread, NULL) != 0) die("unable to join with vcpu 0"); return kvm_cpu__exit(kvm); } static void kvm_cmd_run_exit(struct kvm *kvm, int guest_ret) { compat__print_all_messages(); init_list__exit(kvm); if (guest_ret == 0) pr_info("KVM session ended normally."); } int kvm_cmd_run(int argc, const char **argv, const char *prefix) { int ret = -EFAULT; struct kvm *kvm; kvm = kvm_cmd_run_init(argc, argv); if (IS_ERR(kvm)) return PTR_ERR(kvm); ret = kvm_cmd_run_work(kvm); kvm_cmd_run_exit(kvm, ret); return ret; }