#include #include #include #include #include #include #include #include #include #include "crtools.h" #include "files.h" #include "image.h" #include "list.h" #include "util.h" #include "util-net.h" #include "lock.h" enum fdinfo_states { FD_STATE_PREP, /* Create unix sockets */ FD_STATE_CREATE, /* Create and send fd */ FD_STATE_RECV, /* Receive fd */ FD_STATE_MAX }; struct fmap_fd { struct fmap_fd *next; unsigned long start; int pid; int fd; }; struct fdinfo_desc { char id[FD_ID_SIZE]; u64 addr; int pid; u32 real_pid; /* futex */ u32 users; /* futex */ struct list_head list; }; struct fdinfo_list_entry { struct list_head list; int fd; int pid; u32 real_pid; }; static struct fdinfo_desc *fdinfo_descs; static int nr_fdinfo_descs; static struct fdinfo_list_entry *fdinfo_list; static int nr_fdinfo_list; static struct fmap_fd *fmap_fds; static struct fdinfo_desc *find_fd(char *id) { struct fdinfo_desc *fi; int i; for (i = 0; i < nr_fdinfo_descs; i++) { fi = fdinfo_descs + i; if (!strncmp(fi->id, id, FD_ID_SIZE)) return fi; } return NULL; } static int get_file_path(char *path, struct fdinfo_entry *fe, int fd) { if (read(fd, path, fe->len) != fe->len) { pr_err("Error reading path"); return -1; } path[fe->len] = '\0'; return 0; } int prepare_fdinfo_global() { fdinfo_descs = mmap(NULL, 4096, PROT_READ | PROT_WRITE, MAP_SHARED | MAP_ANON, 0, 0); if (fdinfo_descs == MAP_FAILED) { pr_perror("Can't map fdinfo_descs"); return -1; } fdinfo_list = mmap(NULL, 4096, PROT_READ | PROT_WRITE, MAP_SHARED | MAP_ANON, 0, 0); if (fdinfo_list == MAP_FAILED) { pr_perror("Can't map fdinfo_list"); return -1; } return 0; } static int collect_fd(int pid, struct fdinfo_entry *e) { int i; struct fdinfo_list_entry *le = &fdinfo_list[nr_fdinfo_list]; struct fdinfo_desc *desc; pr_info("Collect fdinfo pid=%d fd=%ld id=%s\n", pid, e->addr, e->id); nr_fdinfo_list++; if ((nr_fdinfo_descs) * sizeof(struct fdinfo_list_entry) >= 4096) { pr_panic("OOM storing fdinfo_list_entries\n"); return -1; } le->pid = pid; le->fd = e->addr; le->real_pid = 0; for (i = 0; i < nr_fdinfo_descs; i++) { desc = &fdinfo_descs[i]; if (strncmp(desc->id, (char *) e->id, FD_ID_SIZE)) continue; fdinfo_descs[i].users++; list_add(&le->list, &desc->list); if (fdinfo_descs[i].pid < pid) return 0; desc->pid = pid; desc->addr = e->addr; return 0; } if ((nr_fdinfo_descs + 1) * sizeof(struct fdinfo_desc) >= 4096) { pr_panic("OOM storing fdinfo descriptions\n"); return -1; } desc = &fdinfo_descs[nr_fdinfo_descs]; memset(desc, 0, sizeof(fdinfo_descs[nr_fdinfo_descs])); memcpy(desc->id, e->id, FD_ID_SIZE); desc->addr= e->addr; desc->pid = pid; desc->users = 1; INIT_LIST_HEAD(&desc->list); list_add(&le->list, &desc->list); nr_fdinfo_descs++; return 0; } int prepare_fd_pid(int pid) { int fdinfo_fd; u32 type = 0; fdinfo_fd = open_image_ro(CR_FD_FDINFO, pid); if (fdinfo_fd < 0) { if (errno == ENOENT) return 0; else return -1; } while (1) { int ret; struct fdinfo_entry e; ret = read(fdinfo_fd, &e, sizeof(e)); if (ret == 0) break; if (ret != sizeof(e)) { pr_perror("%d: Read fdinfo failed %d (expected %li)", pid, ret, sizeof(e)); return -1; } if (e.len) lseek(fdinfo_fd, e.len, SEEK_CUR); if (fd_is_special(&e)) continue; if (collect_fd(pid, &e)) return -1; } close(fdinfo_fd); return 0; } static int open_fe_fd(struct fdinfo_entry *fe, int fd) { char path[PATH_MAX]; int tmp; if (get_file_path(path, fe, fd)) return -1; tmp = open(path, fe->flags); if (tmp < 0) { pr_perror("Can't open file %s", path); return -1; } lseek(tmp, fe->pos, SEEK_SET); return tmp; } static int restore_cwd(struct fdinfo_entry *fe, int fd) { char path[PATH_MAX]; int ret; if (get_file_path(path, fe, fd)) return -1; pr_info("Restore CWD %s\n", path); ret = chdir(path); if (ret < 0) { pr_perror("Can't change dir %s", path); return -1; } return 0; } struct fdinfo_list_entry *find_fdinfo_list_entry(int pid, int fd, struct fdinfo_desc *fi) { struct fdinfo_list_entry *fle; int found = 0; list_for_each_entry(fle, &fi->list, list) { if (fle->fd == fd && fle->pid == pid) { found = 1; break; } } BUG_ON(found == 0); return fle; } static int open_transport_fd(int pid, struct fdinfo_entry *fe, struct fdinfo_desc *fi) { struct fdinfo_list_entry *fle; struct sockaddr_un saddr; int sock; int ret, sun_len; if (fi->pid == pid) return 0; saddr.sun_family = AF_UNIX; snprintf(saddr.sun_path, UNIX_PATH_MAX, "X/crtools-fd-%d-%ld", getpid(), fe->addr); sun_len = SUN_LEN(&saddr); *saddr.sun_path = '\0'; pr_info("\t%d: Create transport fd for %lx type %d namelen %d users %d\n", pid, (unsigned long)fe->addr, fe->type, fe->len, fi->users); fle = find_fdinfo_list_entry(pid, fe->addr, fi); sock = socket(PF_UNIX, SOCK_DGRAM, 0); if (sock < 0) { pr_perror("Can't create socket"); return -1; } ret = bind(sock, &saddr, sun_len); if (ret < 0) { pr_perror("Can't bind unix socket %s", saddr.sun_path + 1); return -1; } ret = reopen_fd_as((int)fe->addr, sock); if (ret < 0) return -1; pr_info("Wake up fdinfo pid=%d fd=%d\n", fle->pid, fle->fd); cr_wait_set(&fle->real_pid, getpid()); return 0; } static int open_fd(int pid, struct fdinfo_entry *fe, struct fdinfo_desc *fi, int fdinfo_fd) { int tmp; int serv, sock; struct sockaddr_un saddr; struct fdinfo_list_entry *fle; if ((fi->pid != pid) || (fe->addr != fi->addr)) return 0; tmp = open_fe_fd(fe, fdinfo_fd); if (tmp < 0) return -1; if (reopen_fd_as((int)fe->addr, tmp)) return -1; if (fi->users == 1) goto out; sock = socket(PF_UNIX, SOCK_DGRAM, 0); if (sock < 0) { pr_perror("Can't create socket"); return -1; } cr_wait_set(&fi->real_pid, getpid()); pr_info("\t%d: Create fd for %lx type %d namelen %d users %d\n", pid, (unsigned long)fe->addr, fe->type, fe->len, fi->users); list_for_each_entry(fle, &fi->list, list) { int len; fi->users--; if (pid == fle->pid) continue; pr_info("Wait fdinfo pid=%d fd=%d\n", fle->pid, fle->fd); cr_wait_while(&fle->real_pid, 0); pr_info("Send fd %d to %s\n", (int)fe->addr, saddr.sun_path + 1); saddr.sun_family = AF_UNIX; snprintf(saddr.sun_path, UNIX_PATH_MAX, "X/crtools-fd-%d-%d", fle->real_pid, fle->fd); len = SUN_LEN(&saddr); *saddr.sun_path = '\0'; if (send_fd(sock, &saddr, len, fe->addr) < 0) { pr_perror("Can't send file descriptor"); return -1; } } BUG_ON(fi->users); close(sock); out: return 0; } static int receive_fd(int pid, struct fdinfo_entry *fe, struct fdinfo_desc *fi) { int tmp; if (fi->pid == pid) { if (fi->addr != fe->addr) { tmp = dup2(fi->addr, fe->addr); if (tmp < 0) { pr_perror("Can't duplicate fd %ld %ld", fi->addr, fe->addr); return -1; } } return 0; } pr_info("\t%d: Receive fd for %lx type %d namelen %d users %d\n", pid, (unsigned long)fe->addr, fe->type, fe->len, fi->users); tmp = recv_fd(fe->addr); if (tmp < 0) { pr_err("Can't get fd %d\n", tmp); return -1; } close(fe->addr); return reopen_fd_as((int)fe->addr, tmp); } static int open_fmap(int pid, struct fdinfo_entry *fe, int fd) { struct fmap_fd *new; int tmp; tmp = open_fe_fd(fe, fd); if (tmp < 0) return -1; pr_info("%d:\t\tWill map %lx to %d\n", pid, (unsigned long)fe->addr, tmp); new = xmalloc(sizeof(*new)); if (!new) { close_safe(&tmp); return -1; } new->start = fe->addr; new->fd = tmp; new->next = fmap_fds; new->pid = pid; fmap_fds = new; return 0; } static int open_fdinfo(int pid, struct fdinfo_entry *fe, int *fdinfo_fd, int state) { u32 mag; int ret = 0; struct fdinfo_desc *fi = find_fd((char *)fe->id); if (move_img_fd(fdinfo_fd, (int)fe->addr)) return -1; pr_info("\t%d: Got fd for %lx type %d namelen %d users %d\n", pid, (unsigned long)fe->addr, fe->type, fe->len, fi->users); BUG_ON(fe->type != FDINFO_FD); switch (state) { case FD_STATE_PREP: ret = open_transport_fd(pid, fe, fi); break; case FD_STATE_CREATE: ret = open_fd(pid, fe, fi, *fdinfo_fd); break; case FD_STATE_RECV: ret = receive_fd(pid, fe, fi); break; } return ret; } static int open_special_fdinfo(int pid, struct fdinfo_entry *fe, int fdinfo_fd, int state) { if (state != FD_STATE_RECV) { lseek(fdinfo_fd, fe->len, SEEK_CUR); return 0; } if (fe->type == FDINFO_MAP) return open_fmap(pid, fe, fdinfo_fd); if (fe->addr == FDINFO_CWD) return restore_cwd(fe, fdinfo_fd); BUG_ON(1); return -1; } int prepare_fds(int pid) { u32 type = 0, err = -1, ret; int fdinfo_fd; int state; off_t offset, magic_offset; struct fdinfo_entry fe; int nr = 0; pr_info("%d: Opening fdinfo-s\n", pid); fdinfo_fd = open_image_ro(CR_FD_FDINFO, pid); if (fdinfo_fd < 0) { pr_perror("%d: Can't open pipes img", pid); return -1; } magic_offset = lseek(fdinfo_fd, 0, SEEK_CUR); for (state = 0; state < FD_STATE_MAX; state++) { lseek(fdinfo_fd, magic_offset, SEEK_SET); while (1) { ret = read(fdinfo_fd, &fe, sizeof(fe)); if (ret == 0) break; if (ret != sizeof(fe)) { pr_perror("%d: Bad fdinfo entry", pid); goto err; } if (fd_is_special(&fe)) { if (open_special_fdinfo(pid, &fe, fdinfo_fd, state)) goto err; continue; } offset = lseek(fdinfo_fd, 0, SEEK_CUR); if (open_fdinfo(pid, &fe, &fdinfo_fd, state)) goto err; lseek(fdinfo_fd, offset + fe.len, SEEK_SET); } } err = 0; err: close(fdinfo_fd); return err; } static struct fmap_fd *pop_fmap_fd(int pid, unsigned long start) { struct fmap_fd **p, *r; pr_info("%d: Looking for %lx : ", pid, start); for (p = &fmap_fds; *p != NULL; p = &(*p)->next) { if ((*p)->start != start || (*p)->pid != pid) continue; r = *p; *p = r->next; pr_info("found\n"); return r; } pr_info("not found\n"); return NULL; } int try_fixup_file_map(int pid, struct vma_entry *vma_entry, int fd) { struct fmap_fd *fmap_fd = pop_fmap_fd(pid, vma_entry->start); if (fmap_fd) { pr_info("%d: Fixing %lx vma to %d fd\n", pid, vma_entry->start, fmap_fd->fd); lseek(fd, -sizeof(*vma_entry), SEEK_CUR); vma_entry->fd = fmap_fd->fd; if (write_img(fd, vma_entry)) goto err; free(fmap_fd); } return 0; err: pr_perror("%d: Can't fixup vma", pid); return -1; }