/* $OpenBSD: config.c,v 1.75 2024/02/05 21:58:09 dv Exp $ */ /* * Copyright (c) 2015 Reyk Floeter * * Permission to use, copy, modify, and distribute this software for any * purpose with or without fee is hereby granted, provided that the above * copyright notice and this permission notice appear in all copies. * * THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES * WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF * MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR * ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES * WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN * ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF * OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE. */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include "proc.h" #include "vmd.h" /* Supported bridge types */ const char *vmd_descsw[] = { "bridge", "veb", NULL }; static int config_init_localprefix(struct vmd_config *); static int config_init_localprefix(struct vmd_config *cfg) { if (parse_prefix4(VMD_DHCP_PREFIX, &cfg->cfg_localprefix, NULL) == -1) return (-1); /* IPv6 is disabled by default */ cfg->cfg_flags &= ~VMD_CFG_INET6; /* Generate random IPv6 prefix only once */ if (cfg->cfg_flags & VMD_CFG_AUTOINET6) return (0); if (parse_prefix6(VMD_ULA_PREFIX, &cfg->cfg_localprefix, NULL) == -1) return (-1); /* Randomize the 56 bits "Global ID" and "Subnet ID" */ arc4random_buf(&cfg->cfg_localprefix.lp_in6.s6_addr[1], 7); cfg->cfg_flags |= VMD_CFG_AUTOINET6; return (0); } int config_init(struct vmd *env) { struct privsep *ps = &env->vmd_ps; unsigned int what; /* Global configuration */ ps->ps_what[PROC_PARENT] = CONFIG_ALL; ps->ps_what[PROC_VMM] = CONFIG_VMS; /* Local prefix */ if (config_init_localprefix(&env->vmd_cfg) == -1) return (-1); /* Other configuration */ what = ps->ps_what[privsep_process]; if (what & CONFIG_VMS) { if ((env->vmd_vms = calloc(1, sizeof(*env->vmd_vms))) == NULL) return (-1); if ((env->vmd_known = calloc(1, sizeof(*env->vmd_known))) == NULL) return (-1); TAILQ_INIT(env->vmd_vms); TAILQ_INIT(env->vmd_known); } if (what & CONFIG_SWITCHES) { if ((env->vmd_switches = calloc(1, sizeof(*env->vmd_switches))) == NULL) return (-1); TAILQ_INIT(env->vmd_switches); } return (0); } void config_purge(struct vmd *env, unsigned int reset) { struct privsep *ps = &env->vmd_ps; struct name2id *n2i; struct vmd_vm *vm; struct vmd_switch *vsw; unsigned int what; DPRINTF("%s: %s purging vms and switches", __func__, ps->ps_title[privsep_process]); /* Reset global configuration (prefix was verified before) */ config_init_localprefix(&env->vmd_cfg); /* Reset other configuration */ what = ps->ps_what[privsep_process] & reset; if (what & CONFIG_VMS && env->vmd_vms != NULL) { while ((vm = TAILQ_FIRST(env->vmd_vms)) != NULL) { vm_remove(vm, __func__); } while ((n2i = TAILQ_FIRST(env->vmd_known)) != NULL) { TAILQ_REMOVE(env->vmd_known, n2i, entry); free(n2i); } env->vmd_nvm = 0; } if (what & CONFIG_SWITCHES && env->vmd_switches != NULL) { while ((vsw = TAILQ_FIRST(env->vmd_switches)) != NULL) switch_remove(vsw); env->vmd_nswitches = 0; } } int config_setconfig(struct vmd *env) { struct privsep *ps = &env->vmd_ps; unsigned int id; DPRINTF("%s: setting config", __func__); for (id = 0; id < PROC_MAX; id++) { if (id == privsep_process) continue; proc_compose(ps, id, IMSG_VMDOP_CONFIG, &env->vmd_cfg, sizeof(env->vmd_cfg)); } return (0); } int config_getconfig(struct vmd *env, struct imsg *imsg) { struct privsep *ps = &env->vmd_ps; log_debug("%s: %s retrieving config", __func__, ps->ps_title[privsep_process]); IMSG_SIZE_CHECK(imsg, &env->vmd_cfg); memcpy(&env->vmd_cfg, imsg->data, sizeof(env->vmd_cfg)); return (0); } int config_setreset(struct vmd *env, unsigned int reset) { struct privsep *ps = &env->vmd_ps; unsigned int id; DPRINTF("%s: resetting state", __func__); for (id = 0; id < PROC_MAX; id++) { if ((reset & ps->ps_what[id]) == 0 || id == privsep_process) continue; proc_compose(ps, id, IMSG_CTL_RESET, &reset, sizeof(reset)); } return (0); } int config_getreset(struct vmd *env, struct imsg *imsg) { unsigned int mode; IMSG_SIZE_CHECK(imsg, &mode); memcpy(&mode, imsg->data, sizeof(mode)); log_debug("%s: %s resetting state", __func__, env->vmd_ps.ps_title[privsep_process]); config_purge(env, mode); return (0); } /* * config_setvm * * Configure a vm, opening any required file descriptors. * * Returns 0 on success, error code on failure. */ int config_setvm(struct privsep *ps, struct vmd_vm *vm, uint32_t peerid, uid_t uid) { int diskfds[VM_MAX_DISKS_PER_VM][VM_MAX_BASE_PER_DISK]; struct vmd_if *vif; struct vmop_create_params *vmc = &vm->vm_params; struct vm_create_params *vcp = &vmc->vmc_params; unsigned int i, j; int fd = -1, cdromfd = -1, kernfd = -1; int *tapfds = NULL; int n = 0, aflags, oflags, ret = -1; char ifname[IF_NAMESIZE], *s; char path[PATH_MAX], base[PATH_MAX]; unsigned int unit; struct timeval tv, rate, since_last; struct vmop_addr_req var; size_t bytes = 0; if (vm->vm_state & VM_STATE_RUNNING) { log_warnx("%s: vm is already running", __func__); return (EALREADY); } /* * Rate-limit the VM so that it cannot restart in a loop: * if the VM restarts after less than VM_START_RATE_SEC seconds, * we increment the limit counter. After VM_START_RATE_LIMIT * of suchs fast reboots the VM is stopped. */ getmonotime(&tv); if (vm->vm_start_tv.tv_sec) { timersub(&tv, &vm->vm_start_tv, &since_last); rate.tv_sec = VM_START_RATE_SEC; rate.tv_usec = 0; if (timercmp(&since_last, &rate, <)) vm->vm_start_limit++; else { /* Reset counter */ vm->vm_start_limit = 0; } log_debug("%s: vm %u restarted after %lld.%ld seconds," " limit %d/%d", __func__, vcp->vcp_id, since_last.tv_sec, since_last.tv_usec, vm->vm_start_limit, VM_START_RATE_LIMIT); if (vm->vm_start_limit >= VM_START_RATE_LIMIT) { log_warnx("%s: vm %u restarted too quickly", __func__, vcp->vcp_id); return (EPERM); } } vm->vm_start_tv = tv; for (i = 0; i < VM_MAX_DISKS_PER_VM; i++) for (j = 0; j < VM_MAX_BASE_PER_DISK; j++) diskfds[i][j] = -1; tapfds = reallocarray(NULL, vmc->vmc_nnics, sizeof(*tapfds)); if (tapfds == NULL) { ret = errno; log_warn("%s: can't allocate tap fds", __func__); return (ret); } for (i = 0; i < vmc->vmc_nnics; i++) tapfds[i] = -1; vm->vm_peerid = peerid; vm->vm_uid = uid; /* * From here onward, all failures need cleanup and use goto fail */ if (!(vm->vm_state & VM_STATE_RECEIVED) && vm->vm_kernel == -1) { if (vm->vm_kernel_path != NULL) { /* Open external kernel for child */ kernfd = open(vm->vm_kernel_path, O_RDONLY | O_CLOEXEC); if (kernfd == -1) { ret = errno; log_warn("%s: can't open kernel or BIOS " "boot image %s", __func__, vm->vm_kernel_path); goto fail; } } /* * Try to open the default BIOS image if no kernel/BIOS has been * specified. The BIOS is an external firmware file that is * typically distributed separately due to an incompatible * license. */ if (kernfd == -1) { if ((kernfd = open(VM_DEFAULT_BIOS, O_RDONLY | O_CLOEXEC)) == -1) { log_warn("can't open %s", VM_DEFAULT_BIOS); ret = VMD_BIOS_MISSING; goto fail; } } if (vm_checkaccess(kernfd, vmc->vmc_checkaccess & VMOP_CREATE_KERNEL, uid, R_OK) == -1) { log_warnx("vm \"%s\" no read access to kernel " "%s", vcp->vcp_name, vm->vm_kernel_path); ret = EPERM; goto fail; } vm->vm_kernel = kernfd; vmc->vmc_kernel = kernfd; } /* Open CDROM image for child */ if (strlen(vmc->vmc_cdrom)) { /* Stat cdrom to ensure it is a regular file */ if ((cdromfd = open(vmc->vmc_cdrom, O_RDONLY)) == -1) { log_warn("can't open cdrom %s", vmc->vmc_cdrom); ret = VMD_CDROM_MISSING; goto fail; } if (vm_checkaccess(cdromfd, vmc->vmc_checkaccess & VMOP_CREATE_CDROM, uid, R_OK) == -1) { log_warnx("vm \"%s\" no read access to cdrom %s", vcp->vcp_name, vmc->vmc_cdrom); ret = EPERM; goto fail; } } /* * Open disk images for child. Don't set O_CLOEXEC as these must be * explicitly closed by the vm process during virtio subprocess launch. */ for (i = 0 ; i < vmc->vmc_ndisks; i++) { if (strlcpy(path, vmc->vmc_disks[i], sizeof(path)) >= sizeof(path)) log_warnx("disk path %s too long", vmc->vmc_disks[i]); memset(vmc->vmc_diskbases, 0, sizeof(vmc->vmc_diskbases)); oflags = O_RDWR | O_EXLOCK | O_NONBLOCK; aflags = R_OK | W_OK; for (j = 0; j < VM_MAX_BASE_PER_DISK; j++) { /* Stat disk[i] to ensure it is a regular file */ if ((diskfds[i][j] = open(path, oflags)) == -1) { log_warn("can't open disk %s", vmc->vmc_disks[i]); ret = VMD_DISK_MISSING; goto fail; } if (vm_checkaccess(diskfds[i][j], vmc->vmc_checkaccess & VMOP_CREATE_DISK, uid, aflags) == -1) { log_warnx("vm \"%s\" unable to access " "disk %s", vcp->vcp_name, path); errno = EPERM; goto fail; } /* * Clear the write and exclusive flags for base images. * All writes should go to the top image, allowing them * to be shared. */ oflags = O_RDONLY | O_NONBLOCK; aflags = R_OK; n = virtio_get_base(diskfds[i][j], base, sizeof(base), vmc->vmc_disktypes[i], path); if (n == 0) break; if (n == -1) { log_warnx("vm \"%s\" unable to read " "base for disk %s", vcp->vcp_name, vmc->vmc_disks[i]); goto fail; } (void)strlcpy(path, base, sizeof(path)); } } /* Open network interfaces */ for (i = 0 ; i < vmc->vmc_nnics; i++) { vif = &vm->vm_ifs[i]; /* Check if the user has requested a specific tap(4) */ s = vmc->vmc_ifnames[i]; if (*s != '\0' && strcmp("tap", s) != 0) { if (priv_getiftype(s, ifname, &unit) == -1 || strcmp(ifname, "tap") != 0) { log_warnx("%s: invalid tap name %s", __func__, s); ret = EINVAL; goto fail; } } else s = NULL; /* * Either open the requested tap(4) device or get * the next available one. Don't set O_CLOEXEC as these * should be closed by the vm process during virtio device * launch. */ if (s != NULL) { snprintf(path, PATH_MAX, "/dev/%s", s); tapfds[i] = open(path, O_RDWR | O_NONBLOCK); } else { tapfds[i] = opentap(ifname); s = ifname; } if (tapfds[i] == -1) { ret = errno; log_warnx("%s: can't open /dev/%s", __func__, s); goto fail; } if ((vif->vif_name = strdup(s)) == NULL) { log_warn("%s: can't save tap %s", __func__, s); goto fail; } /* Check if the the interface is attached to a switch */ s = vmc->vmc_ifswitch[i]; if (*s != '\0') { if ((vif->vif_switch = strdup(s)) == NULL) { log_warn("%s: can't save switch %s", __func__, s); goto fail; } } /* Check if the the interface is assigned to a group */ s = vmc->vmc_ifgroup[i]; if (*s != '\0') { if ((vif->vif_group = strdup(s)) == NULL) { log_warn("%s: can't save group %s", __func__, s); goto fail; } } /* non-default rdomain (requires VMIFF_RDOMAIN below) */ vif->vif_rdomain = vmc->vmc_ifrdomain[i]; /* Set the interface status */ vif->vif_flags = vmc->vmc_ifflags[i] & (VMIFF_UP|VMIFF_OPTMASK); } /* * Open TTY. Duplicate the fd before sending so the privileged parent * process can perform permissions cleanup of the pty on vm termination. */ if (vm->vm_ttyname[0] == '\0') { if (vm_opentty(vm) == -1) { log_warn("%s: can't open tty %s", __func__, vm->vm_ttyname[0] == '\0' ? "" : vm->vm_ttyname); goto fail; } } if ((fd = dup(vm->vm_tty)) == -1) { log_warn("%s: can't re-open tty %s", __func__, vm->vm_ttyname); goto fail; } /* Send VM information */ /* XXX check proc_compose_imsg return values */ if (vm->vm_state & VM_STATE_RECEIVED) proc_compose_imsg(ps, PROC_VMM, -1, IMSG_VMDOP_RECEIVE_VM_REQUEST, vm->vm_vmid, fd, vmc, sizeof(struct vmop_create_params)); else proc_compose_imsg(ps, PROC_VMM, -1, IMSG_VMDOP_START_VM_REQUEST, vm->vm_vmid, vm->vm_kernel, vmc, sizeof(*vmc)); if (strlen(vmc->vmc_cdrom)) proc_compose_imsg(ps, PROC_VMM, -1, IMSG_VMDOP_START_VM_CDROM, vm->vm_vmid, cdromfd, NULL, 0); for (i = 0; i < vmc->vmc_ndisks; i++) { for (j = 0; j < VM_MAX_BASE_PER_DISK; j++) { if (diskfds[i][j] == -1) break; proc_compose_imsg(ps, PROC_VMM, -1, IMSG_VMDOP_START_VM_DISK, vm->vm_vmid, diskfds[i][j], &i, sizeof(i)); } } for (i = 0; i < vmc->vmc_nnics; i++) { proc_compose_imsg(ps, PROC_VMM, -1, IMSG_VMDOP_START_VM_IF, vm->vm_vmid, tapfds[i], &i, sizeof(i)); memset(&var, 0, sizeof(var)); var.var_vmid = vm->vm_vmid; var.var_nic_idx = i; proc_compose_imsg(ps, PROC_PRIV, -1, IMSG_VMDOP_PRIV_GET_ADDR, vm->vm_vmid, dup(tapfds[i]), &var, sizeof(var)); } if (!(vm->vm_state & VM_STATE_RECEIVED)) proc_compose_imsg(ps, PROC_VMM, -1, IMSG_VMDOP_START_VM_END, vm->vm_vmid, fd, NULL, 0); free(tapfds); /* Collapse any memranges after the vm was sent to PROC_VMM */ if (vcp->vcp_nmemranges > 0) { for (i = 0; i < vcp->vcp_nmemranges; i++) bytes += vcp->vcp_memranges[i].vmr_size; memset(&vcp->vcp_memranges, 0, sizeof(vcp->vcp_memranges)); vcp->vcp_nmemranges = 0; vcp->vcp_memranges[0].vmr_size = bytes; } vm->vm_state |= VM_STATE_RUNNING; return (0); fail: log_warnx("failed to start vm %s", vcp->vcp_name); if (vm->vm_kernel != -1) close(kernfd); if (cdromfd != -1) close(cdromfd); for (i = 0; i < vmc->vmc_ndisks; i++) for (j = 0; j < VM_MAX_BASE_PER_DISK; j++) if (diskfds[i][j] != -1) close(diskfds[i][j]); if (tapfds != NULL) { for (i = 0; i < vmc->vmc_nnics; i++) close(tapfds[i]); free(tapfds); } if (vm->vm_from_config) { vm_stop(vm, 0, __func__); } else { vm_remove(vm, __func__); } return (ret); } int config_getvm(struct privsep *ps, struct imsg *imsg) { struct vmop_create_params vmc; struct vmd_vm *vm = NULL; int fd; IMSG_SIZE_CHECK(imsg, &vmc); memcpy(&vmc, imsg->data, sizeof(vmc)); fd = imsg_get_fd(imsg); vmc.vmc_kernel = fd; errno = 0; if (vm_register(ps, &vmc, &vm, imsg->hdr.peerid, 0) == -1) goto fail; vm->vm_state |= VM_STATE_RUNNING; vm->vm_peerid = (uint32_t)-1; vm->vm_kernel = fd; return (0); fail: if (fd != -1) close(fd); vm_remove(vm, __func__); if (errno == 0) errno = EINVAL; return (-1); } int config_getdisk(struct privsep *ps, struct imsg *imsg) { struct vmd_vm *vm; unsigned int n, idx; int fd; errno = 0; if ((vm = vm_getbyvmid(imsg->hdr.peerid)) == NULL) { errno = ENOENT; return (-1); } IMSG_SIZE_CHECK(imsg, &n); memcpy(&n, imsg->data, sizeof(n)); fd = imsg_get_fd(imsg); if (n >= vm->vm_params.vmc_ndisks || fd == -1) { log_warnx("invalid disk id"); errno = EINVAL; return (-1); } idx = vm->vm_params.vmc_diskbases[n]++; if (idx >= VM_MAX_BASE_PER_DISK) { log_warnx("too many bases for disk"); errno = EINVAL; return (-1); } vm->vm_disks[n][idx] = fd; return (0); } int config_getif(struct privsep *ps, struct imsg *imsg) { struct vmd_vm *vm; unsigned int n; int fd; errno = 0; if ((vm = vm_getbyvmid(imsg->hdr.peerid)) == NULL) { errno = ENOENT; return (-1); } IMSG_SIZE_CHECK(imsg, &n); memcpy(&n, imsg->data, sizeof(n)); fd = imsg_get_fd(imsg); if (n >= vm->vm_params.vmc_nnics || vm->vm_ifs[n].vif_fd != -1 || fd == -1) { log_warnx("invalid interface id"); goto fail; } vm->vm_ifs[n].vif_fd = fd; return (0); fail: if (fd != -1) close(fd); errno = EINVAL; return (-1); } int config_getcdrom(struct privsep *ps, struct imsg *imsg) { struct vmd_vm *vm; int fd; errno = 0; if ((vm = vm_getbyvmid(imsg->hdr.peerid)) == NULL) { errno = ENOENT; return (-1); } fd = imsg_get_fd(imsg); if (fd == -1) { log_warnx("invalid cdrom id"); goto fail; } vm->vm_cdrom = fd; return (0); fail: errno = EINVAL; return (-1); }