/* * Copyright (C) 2008 Tobias Brunner * Copyright (C) 2007 Martin Willi * Hochschule fuer Technik Rapperswil * * This program is free software; you can redistribute it and/or modify it * under the terms of the GNU General Public License as published by the * Free Software Foundation; either version 2 of the License, or (at your * option) any later version. See . * * This program is distributed in the hope that it will be useful, but * WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY * or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License * for more details. */ #define _GNU_SOURCE #include #include #include #include #include #include #include #include #include #include #include #include #include #include "dumm.h" #include "guest.h" #include "mconsole.h" #include "cowfs.h" #define PERME (S_IRWXU | S_IRWXG) #define PERM (S_IRUSR | S_IWUSR | S_IRGRP | S_IWGRP) #define MASTER_DIR "master" #define DIFF_DIR "diff" #define UNION_DIR "union" #define ARGS_FILE "args" #define PID_FILE "pid" #define KERNEL_FILE "linux" #define LOG_FILE "boot.log" #define NOTIFY_FILE "notify" #define PTYS 0 typedef struct private_guest_t private_guest_t; struct private_guest_t { /** implemented public interface */ guest_t public; /** name of the guest */ char *name; /** directory of guest */ int dir; /** directory name of guest */ char *dirname; /** additional args to pass to guest */ char *args; /** pid of guest child process */ int pid; /** state of guest */ guest_state_t state; /** FUSE cowfs instance */ cowfs_t *cowfs; /** mconsole to control running UML */ mconsole_t *mconsole; /** list of interfaces attached to the guest */ linked_list_t *ifaces; }; ENUM(guest_state_names, GUEST_STOPPED, GUEST_STOPPING, "STOPPED", "STARTING", "RUNNING", "PAUSED", "STOPPING", ); /** * Implementation of guest_t.get_name. */ static char* get_name(private_guest_t *this) { return this->name; } /** * Implementation of guest_t.create_iface. */ static iface_t* create_iface(private_guest_t *this, char *name) { enumerator_t *enumerator; iface_t *iface; if (this->state != GUEST_RUNNING) { DBG1("guest '%s' not running, unable to add interface", this->name); return NULL; } enumerator = this->ifaces->create_enumerator(this->ifaces); while (enumerator->enumerate(enumerator, (void**)&iface)) { if (streq(name, iface->get_guestif(iface))) { DBG1("guest '%s' already has an interface '%s'", this->name, name); enumerator->destroy(enumerator); return NULL; } } enumerator->destroy(enumerator); iface = iface_create(name, &this->public, this->mconsole); if (iface) { this->ifaces->insert_last(this->ifaces, iface); } return iface; } /** * Implementation of guest_t.destroy_iface. */ static void destroy_iface(private_guest_t *this, iface_t *iface) { enumerator_t *enumerator; iface_t *current; enumerator = this->ifaces->create_enumerator(this->ifaces); while (enumerator->enumerate(enumerator, (void**)¤t)) { if (current == iface) { this->ifaces->remove_at(this->ifaces, enumerator); current->destroy(current); break; } } enumerator->destroy(enumerator); } /** * Implementation of guest_t.create_iface_enumerator. */ static enumerator_t* create_iface_enumerator(private_guest_t *this) { return this->ifaces->create_enumerator(this->ifaces); } /** * Implementation of guest_t.get_state. */ static guest_state_t get_state(private_guest_t *this) { return this->state; } /** * Implementation of guest_t.get_pid. */ static pid_t get_pid(private_guest_t *this) { return this->pid; } /** * write format string to a buffer, and advance buffer position */ static char* write_arg(char **pos, size_t *left, char *format, ...) { size_t len; char *res = NULL; va_list args; va_start(args, format); len = vsnprintf(*pos, *left, format, args); va_end(args); if (len < *left) { res = *pos; len++; *pos += len + 1; *left -= len + 1; } return res; } /** * Implementation of guest_t.stop. */ static void stop(private_guest_t *this, idle_function_t idle) { if (this->state != GUEST_STOPPED) { this->state = GUEST_STOPPING; this->ifaces->destroy_offset(this->ifaces, offsetof(iface_t, destroy)); this->ifaces = linked_list_create(); kill(this->pid, SIGINT); while (this->state != GUEST_STOPPED) { if (idle) { idle(); } else { usleep(50000); } } unlinkat(this->dir, PID_FILE, 0); this->pid = 0; } } /** * save pid in file */ void savepid(private_guest_t *this) { FILE *file; file = fdopen(openat(this->dir, PID_FILE, O_RDWR | O_CREAT | O_TRUNC, PERM), "w"); if (file) { fprintf(file, "%d", this->pid); fclose(file); } } /** * Implementation of guest_t.start. */ static bool start(private_guest_t *this, invoke_function_t invoke, void* data, idle_function_t idle) { char buf[2048]; char *notify; char *pos = buf; char *args[32]; int i = 0; size_t left = sizeof(buf); memset(args, 0, sizeof(args)); if (this->state != GUEST_STOPPED) { DBG1("unable to start guest in state %N", guest_state_names, this->state); return FALSE; } this->state = GUEST_STARTING; notify = write_arg(&pos, &left, "%s/%s", this->dirname, NOTIFY_FILE); args[i++] = write_arg(&pos, &left, "nice"); args[i++] = write_arg(&pos, &left, "%s/%s", this->dirname, KERNEL_FILE); args[i++] = write_arg(&pos, &left, "root=/dev/root"); args[i++] = write_arg(&pos, &left, "rootfstype=hostfs"); args[i++] = write_arg(&pos, &left, "rootflags=%s/%s", this->dirname, UNION_DIR); args[i++] = write_arg(&pos, &left, "uml_dir=%s", this->dirname); args[i++] = write_arg(&pos, &left, "umid=%s", this->name); args[i++] = write_arg(&pos, &left, "mconsole=notify:%s", notify); args[i++] = write_arg(&pos, &left, "con=null"); if (this->args) { args[i++] = this->args; } this->pid = invoke(data, &this->public, args, i); if (!this->pid) { this->state = GUEST_STOPPED; return FALSE; } savepid(this); /* open mconsole */ this->mconsole = mconsole_create(notify, idle); if (this->mconsole == NULL) { DBG1("opening mconsole at '%s' failed, stopping guest", buf); stop(this, NULL); return FALSE; } this->state = GUEST_RUNNING; return TRUE; } /** * Implementation of guest_t.load_template. */ static bool load_template(private_guest_t *this, char *path) { char dir[PATH_MAX]; size_t len; iface_t *iface; if (path == NULL) { return this->cowfs->set_overlay(this->cowfs, NULL); } len = snprintf(dir, sizeof(dir), "%s/%s", path, this->name); if (len < 0 || len >= sizeof(dir)) { return FALSE; } if (access(dir, F_OK) != 0) { if (!mkdir_p(dir, PERME)) { DBG1("creating overlay for guest '%s' failed: %m", this->name); return FALSE; } } if (!this->cowfs->set_overlay(this->cowfs, dir)) { return FALSE; } while (this->ifaces->remove_last(this->ifaces, (void**)&iface) == SUCCESS) { iface->destroy(iface); } return TRUE; } /** * Variadic version of the exec function */ static int vexec(private_guest_t *this, void(*cb)(void*,char*,size_t), void *data, char *cmd, va_list args) { char buf[1024]; size_t len; if (this->mconsole) { len = vsnprintf(buf, sizeof(buf), cmd, args); if (len > 0 && len < sizeof(buf)) { return this->mconsole->exec(this->mconsole, cb, data, buf); } } return -1; } /** * Implementation of guest_t.exec */ static int exec(private_guest_t *this, void(*cb)(void*,char*,size_t), void *data, char *cmd, ...) { int res; va_list args; va_start(args, cmd); res = vexec(this, cb, data, cmd, args); va_end(args); return res; } typedef struct { chunk_t buf; void (*cb)(void*,char*); void *data; } exec_str_t; /** * callback that combines chunks to a string. if a callback is given, the string * is split at newlines and the callback is called for each line. */ static void exec_str_cb(exec_str_t *data, char *buf, size_t len) { if (!data->buf.ptr) { data->buf = chunk_alloc(len + 1); memcpy(data->buf.ptr, buf, len); data->buf.ptr[len] = '\0'; } else { size_t newlen = strlen(data->buf.ptr) + len + 1; if (newlen > data->buf.len) { data->buf.ptr = realloc(data->buf.ptr, newlen); data->buf.len = newlen; } strncat(data->buf.ptr, buf, len); } if (data->cb) { char *nl; while ((nl = strchr(data->buf.ptr, '\n')) != NULL) { *nl++ = '\0'; data->cb(data->data, data->buf.ptr); memmove(data->buf.ptr, nl, strlen(nl) + 1); } } } /** * Implementation of guest_t.exec_str */ static int exec_str(private_guest_t *this, void(*cb)(void*,char*), bool lines, void *data, char *cmd, ...) { int res; va_list args; va_start(args, cmd); if (cb) { exec_str_t exec = { chunk_empty, NULL, NULL }; if (lines) { exec.cb = cb; exec.data = data; } res = vexec(this, (void(*)(void*,char*,size_t))exec_str_cb, &exec, cmd, args); if (exec.buf.ptr) { if (!lines || strlen(exec.buf.ptr) > 0) { /* return the complete string or the remaining stuff in the * buffer (i.e. when there was no newline at the end) */ cb(data, exec.buf.ptr); } chunk_free(&exec.buf); } } else { res = vexec(this, NULL, NULL, cmd, args); } va_end(args); return res; } /** * Implementation of guest_t.sigchild. */ static void sigchild(private_guest_t *this) { DESTROY_IF(this->mconsole); this->mconsole = NULL; this->state = GUEST_STOPPED; } /** * umount the union filesystem */ static bool umount_unionfs(private_guest_t *this) { if (this->cowfs) { this->cowfs->destroy(this->cowfs); this->cowfs = NULL; return TRUE; } return FALSE; } /** * mount the union filesystem */ static bool mount_unionfs(private_guest_t *this) { char master[PATH_MAX]; char diff[PATH_MAX]; char mount[PATH_MAX]; if (this->cowfs == NULL) { snprintf(master, sizeof(master), "%s/%s", this->dirname, MASTER_DIR); snprintf(diff, sizeof(diff), "%s/%s", this->dirname, DIFF_DIR); snprintf(mount, sizeof(mount), "%s/%s", this->dirname, UNION_DIR); this->cowfs = cowfs_create(master, diff, mount); if (this->cowfs) { return TRUE; } } return FALSE; } /** * load args configuration from file */ char *loadargs(private_guest_t *this) { FILE *file; char buf[512], *args = NULL; file = fdopen(openat(this->dir, ARGS_FILE, O_RDONLY, PERM), "r"); if (file) { if (fgets(buf, sizeof(buf), file)) { args = strdup(buf); } fclose(file); } return args; } /** * save args configuration to file */ bool saveargs(private_guest_t *this, char *args) { FILE *file; bool retval = FALSE; file = fdopen(openat(this->dir, ARGS_FILE, O_RDWR | O_CREAT | O_TRUNC, PERM), "w"); if (file) { if (fprintf(file, "%s", args) > 0) { retval = TRUE; } fclose(file); } return retval; } /** * Implementation of guest_t.destroy. */ static void destroy(private_guest_t *this) { stop(this, NULL); umount_unionfs(this); if (this->dir > 0) { close(this->dir); } this->ifaces->destroy(this->ifaces); free(this->dirname); free(this->args); free(this->name); free(this); } /** * generic guest constructor */ static private_guest_t *guest_create_generic(char *parent, char *name, bool create) { char cwd[PATH_MAX]; private_guest_t *this = malloc_thing(private_guest_t); this->public.get_name = (void*)get_name; this->public.get_pid = (pid_t(*)(guest_t*))get_pid; this->public.get_state = (guest_state_t(*)(guest_t*))get_state; this->public.create_iface = (iface_t*(*)(guest_t*,char*))create_iface; this->public.destroy_iface = (void(*)(guest_t*,iface_t*))destroy_iface; this->public.create_iface_enumerator = (enumerator_t*(*)(guest_t*))create_iface_enumerator; this->public.start = (void*)start; this->public.stop = (void*)stop; this->public.load_template = (bool(*)(guest_t*, char *path))load_template; this->public.exec = (int(*)(guest_t*, void(*cb)(void*,char*,size_t),void*,char*,...))exec; this->public.exec_str = (int(*)(guest_t*, void(*cb)(void*,char*),bool,void*,char*,...))exec_str; this->public.sigchild = (void(*)(guest_t*))sigchild; this->public.destroy = (void*)destroy; if (*parent == '/' || getcwd(cwd, sizeof(cwd)) == NULL) { asprintf(&this->dirname, "%s/%s", parent, name); } else { asprintf(&this->dirname, "%s/%s/%s", cwd, parent, name); } if (create) { mkdir(this->dirname, PERME); } this->dir = open(this->dirname, O_DIRECTORY, PERME); if (this->dir < 0) { DBG1("opening guest directory '%s' failed: %m", this->dirname); free(this->dirname); free(this); return NULL; } this->pid = 0; this->state = GUEST_STOPPED; this->mconsole = NULL; this->ifaces = linked_list_create(); this->args = NULL; this->name = strdup(name); this->cowfs = NULL; return this; } /** * create a symlink to old called new in our working dir */ static bool make_symlink(private_guest_t *this, char *old, char *new) { char cwd[PATH_MAX]; char buf[PATH_MAX]; if (*old == '/' || getcwd(cwd, sizeof(cwd)) == NULL) { snprintf(buf, sizeof(buf), "%s", old); } else { snprintf(buf, sizeof(buf), "%s/%s", cwd, old); } return symlinkat(buf, this->dir, new) == 0; } /** * create the guest instance, including required dirs and mounts */ guest_t *guest_create(char *parent, char *name, char *kernel, char *master, char *args) { private_guest_t *this = guest_create_generic(parent, name, TRUE); if (this == NULL) { return NULL; } if (!make_symlink(this, master, MASTER_DIR) || !make_symlink(this, kernel, KERNEL_FILE)) { DBG1("creating master/kernel symlink failed: %m"); destroy(this); return NULL; } if (mkdirat(this->dir, UNION_DIR, PERME) != 0 || mkdirat(this->dir, DIFF_DIR, PERME) != 0) { DBG1("unable to create directories for '%s': %m", name); destroy(this); return NULL; } this->args = args; if (args && !saveargs(this, args)) { destroy(this); return NULL; } if (!mount_unionfs(this)) { destroy(this); return NULL; } return &this->public; } /** * load an already created guest */ guest_t *guest_load(char *parent, char *name) { private_guest_t *this = guest_create_generic(parent, name, FALSE); if (this == NULL) { return NULL; } this->args = loadargs(this); if (!mount_unionfs(this)) { destroy(this); return NULL; } return &this->public; }