#define _GNU_SOURCE #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include "cmsg.h" #define pexit(fmt, ...) \ do { \ fprintf(stderr, "[conmon:e]: " fmt " %m\n", ##__VA_ARGS__); \ syslog(LOG_ERR, "conmon : " fmt ": %m\n", ##__VA_ARGS__); \ exit(EXIT_FAILURE); \ } while (0) #define nexit(fmt, ...) \ do { \ fprintf(stderr, "[conmon:e]: " fmt "\n", ##__VA_ARGS__); \ syslog(LOG_ERR, "conmon : " fmt " \n", ##__VA_ARGS__); \ exit(EXIT_FAILURE); \ } while (0) #define nwarn(fmt, ...) \ do { \ fprintf(stderr, "[conmon:w]: " fmt "\n", ##__VA_ARGS__); \ syslog(LOG_INFO, "conmon : " fmt " \n", ##__VA_ARGS__); \ } while (0) #define ninfo(fmt, ...) \ do { \ fprintf(stderr, "[conmon:i]: " fmt "\n", ##__VA_ARGS__); \ syslog(LOG_INFO, "conmon : " fmt " \n", ##__VA_ARGS__); \ } while (0) #define _cleanup_(x) __attribute__((cleanup(x))) static inline void freep(void *p) { free(*(void **)p); } static inline void closep(int *fd) { if (*fd >= 0) close(*fd); *fd = -1; } static inline void fclosep(FILE **fp) { if (*fp) fclose(*fp); *fp = NULL; } static inline void gstring_free_cleanup(GString **string) { if (*string) g_string_free(*string, TRUE); } static inline void strv_cleanup(char ***strv) { if (strv) g_strfreev (*strv); } #define _cleanup_free_ _cleanup_(freep) #define _cleanup_close_ _cleanup_(closep) #define _cleanup_fclose_ _cleanup_(fclosep) #define _cleanup_gstring_ _cleanup_(gstring_free_cleanup) #define _cleanup_strv_ _cleanup_(strv_cleanup) #define BUF_SIZE 8192 #define CMD_SIZE 1024 #define MAX_EVENTS 10 static bool terminal = false; static char *cid = NULL; static char *cuuid = NULL; static char *runtime_path = NULL; static char *bundle_path = NULL; static char *pid_file = NULL; static bool systemd_cgroup = false; static char *exec_process_spec = NULL; static bool exec = false; static char *log_path = NULL; static GOptionEntry entries[] = { { "terminal", 't', 0, G_OPTION_ARG_NONE, &terminal, "Terminal", NULL }, { "cid", 'c', 0, G_OPTION_ARG_STRING, &cid, "Container ID", NULL }, { "cuuid", 'u', 0, G_OPTION_ARG_STRING, &cuuid, "Container UUID", NULL }, { "runtime", 'r', 0, G_OPTION_ARG_STRING, &runtime_path, "Runtime path", NULL }, { "bundle", 'b', 0, G_OPTION_ARG_STRING, &bundle_path, "Bundle path", NULL }, { "pidfile", 'p', 0, G_OPTION_ARG_STRING, &pid_file, "PID file", NULL }, { "systemd-cgroup", 's', 0, G_OPTION_ARG_NONE, &systemd_cgroup, "Enable systemd cgroup manager", NULL }, { "exec", 'e', 0, G_OPTION_ARG_NONE, &exec, "Exec a command in a running container", NULL }, { "exec-process-spec", 0, 0, G_OPTION_ARG_STRING, &exec_process_spec, "Path to the process spec for exec", NULL }, { "log-path", 'l', 0, G_OPTION_ARG_STRING, &log_path, "Log file path", NULL }, { NULL } }; /* strlen("1997-03-25T13:20:42.999999999+01:00 stdout ") + 1 */ #define TSBUFLEN 44 #define CGROUP_ROOT "/sys/fs/cgroup" static ssize_t write_all(int fd, const void *buf, size_t count) { size_t remaining = count; const char *p = buf; ssize_t res; while (remaining > 0) { do { res = write(fd, p, remaining); } while (res == -1 && errno == EINTR); if (res <= 0) return -1; remaining -= res; p += res; } return count; } #define WRITEV_BUFFER_N_IOV 128 typedef struct { int iovcnt; struct iovec iov[WRITEV_BUFFER_N_IOV]; } writev_buffer_t; static ssize_t writev_buffer_flush (int fd, writev_buffer_t *buf) { size_t count = 0; ssize_t res; struct iovec *iov; int iovcnt; iovcnt = buf->iovcnt; iov = buf->iov; while (iovcnt > 0) { do { res = writev(fd, iov, iovcnt); } while (res == -1 && errno == EINTR); if (res <= 0) return -1; count += res; while (res > 0) { size_t from_this = MIN((size_t)res, iov->iov_len); iov->iov_len -= from_this; res -= from_this; if (iov->iov_len == 0) { iov++; iovcnt--; } } } buf->iovcnt = 0; return count; } ssize_t writev_buffer_append_segment(int fd, writev_buffer_t *buf, const void *data, ssize_t len) { if (data == NULL) return 1; if (len < 0) len = strlen ((char *)data); if (buf->iovcnt == WRITEV_BUFFER_N_IOV && writev_buffer_flush (fd, buf) < 0) return -1; if (len > 0) { buf->iov[buf->iovcnt].iov_base = (void *)data; buf->iov[buf->iovcnt].iov_len = (size_t)len; buf->iovcnt++; } return 1; } int set_k8s_timestamp(char *buf, ssize_t buflen, const char *pipename) { struct tm *tm; struct timespec ts; char off_sign = '+'; int off, len, err = -1; if (clock_gettime(CLOCK_REALTIME, &ts) < 0) { /* If CLOCK_REALTIME is not supported, we set nano seconds to 0 */ if (errno == EINVAL) { ts.tv_nsec = 0; } else { return err; } } if ((tm = localtime(&ts.tv_sec)) == NULL) return err; off = (int) tm->tm_gmtoff; if (tm->tm_gmtoff < 0) { off_sign = '-'; off = -off; } len = snprintf(buf, buflen, "%d-%02d-%02dT%02d:%02d:%02d.%09ld%c%02d:%02d %s ", tm->tm_year + 1900, tm->tm_mon + 1, tm->tm_mday, tm->tm_hour, tm->tm_min, tm->tm_sec, ts.tv_nsec, off_sign, off / 3600, off % 3600, pipename); if (len < buflen) err = 0; return err; } /* stdpipe_t represents one of the std pipes (or NONE). */ typedef enum { NO_PIPE, STDIN_PIPE, /* unused */ STDOUT_PIPE, STDERR_PIPE, } stdpipe_t; const char *stdpipe_name(stdpipe_t pipe) { switch (pipe) { case STDIN_PIPE: return "stdin"; case STDOUT_PIPE: return "stdout"; case STDERR_PIPE: return "stderr"; default: return "NONE"; } } /* * The CRI requires us to write logs with a (timestamp, stream, line) format * for every newline-separated line. write_k8s_log writes said format for every * line in buf, and will partially write the final line of the log if buf is * not terminated by a newline. */ int write_k8s_log(int fd, stdpipe_t pipe, const char *buf, ssize_t buflen) { char tsbuf[TSBUFLEN]; static stdpipe_t trailing_line = NO_PIPE; writev_buffer_t bufv = {0}; /* * Use the same timestamp for every line of the log in this buffer. * There is no practical difference in the output since write(2) is * fast. */ if (set_k8s_timestamp(tsbuf, sizeof tsbuf, stdpipe_name(pipe))) /* TODO: We should handle failures much more cleanly than this. */ return -1; while (buflen > 0) { const char *line_end = NULL; ptrdiff_t line_len = 0; /* Find the end of the line, or alternatively the end of the buffer. */ line_end = memchr(buf, '\n', buflen); if (line_end == NULL) line_end = &buf[buflen-1]; line_len = line_end - buf + 1; /* * Write the (timestamp, stream) tuple if there isn't any trailing * output from the previous line (or if there is trailing output but * the current buffer being printed is from a different pipe). */ if (trailing_line != pipe) { /* * If there was a trailing line from a different pipe, prepend a * newline to split it properly. This technically breaks the flow * of the previous line (adding a newline in the log where there * wasn't one output) but without modifying the file in a * non-append-only way there's not much we can do. */ if ((trailing_line != NO_PIPE && writev_buffer_append_segment(fd, &bufv, "\n", -1) < 0) || writev_buffer_append_segment(fd, &bufv, tsbuf, -1) < 0) { nwarn("failed to write (timestamp, stream) to log"); goto next; } } /* Output the actual contents. */ if (writev_buffer_append_segment(fd, &bufv, buf, line_len) < 0) { nwarn("failed to write buffer to log"); goto next; } /* If we did not output a full line, then we are a trailing_line. */ trailing_line = (*line_end == '\n') ? NO_PIPE : pipe; next: /* Update the head of the buffer remaining to output. */ buf += line_len; buflen -= line_len; } if (writev_buffer_flush (fd, &bufv) < 0) { nwarn("failed to flush buffer to log"); } return 0; } /* * Returns the path for specified controller name for a pid. * Returns NULL on error. */ static char *process_cgroup_subsystem_path(int pid, const char *subsystem) { _cleanup_free_ char *cgroups_file_path = NULL; int rc; rc = asprintf(&cgroups_file_path, "/proc/%d/cgroup", pid); if (rc < 0) { nwarn("Failed to allocate memory for cgroups file path"); return NULL; } _cleanup_fclose_ FILE *fp = NULL; fp = fopen(cgroups_file_path, "re"); if (fp == NULL) { nwarn("Failed to open cgroups file: %s", cgroups_file_path); return NULL; } _cleanup_free_ char *line = NULL; ssize_t read; size_t len = 0; char *ptr, *path; char *subsystem_path = NULL; int i; while ((read = getline(&line, &len, fp)) != -1) { _cleanup_strv_ char **subsystems = NULL; ptr = strchr(line, ':'); if (ptr == NULL) { nwarn("Error parsing cgroup, ':' not found: %s", line); return NULL; } ptr++; path = strchr(ptr, ':'); if (path == NULL) { nwarn("Error parsing cgroup, second ':' not found: %s", line); return NULL; } *path = 0; path++; subsystems = g_strsplit (ptr, ",", -1); for (i = 0; subsystems[i] != NULL; i++) { if (strcmp (subsystems[i], subsystem) == 0) { char *subpath = strchr(subsystems[i], '='); if (subpath == NULL) { subpath = ptr; } else { *subpath = 0; } rc = asprintf(&subsystem_path, "%s/%s%s", CGROUP_ROOT, subpath, path); if (rc < 0) { nwarn("Failed to allocate memory for subsystemd path"); return NULL; } subsystem_path[strlen(subsystem_path) - 1] = '\0'; return subsystem_path; } } } return NULL; } static char *escape_json_string(const char *str) { GString *escaped; const char *p; p = str; escaped = g_string_sized_new(strlen(str)); while (*p != 0) { char c = *p++; if (c == '\\' || c == '"') { g_string_append_c(escaped, '\\'); g_string_append_c(escaped, c); } else if (c == '\n') { g_string_append_printf (escaped, "\\n"); } else if (c == '\t') { g_string_append_printf (escaped, "\\t"); } else if ((c > 0 && c < 0x1f) || c == 0x7f) { g_string_append_printf (escaped, "\\u00%02x", (guint)c); } else { g_string_append_c (escaped, c); } } return g_string_free (escaped, FALSE); } /* Global state */ static int runtime_status = -1; static int masterfd_stdout = -1; static int masterfd_stderr = -1; static int num_stdio_fds = 0; /* Used for attach */ static int conn_sock = -1; static int logfd = -1; static int oom_efd = -1; static int afd = -1; static int cfd = -1; /* Used for OOM notification API */ static int ofd = -1; static GMainLoop *main_loop = NULL; static gboolean stdio_cb(int fd, GIOCondition condition, gpointer user_data) { char buf[BUF_SIZE]; stdpipe_t pipe = GPOINTER_TO_INT(user_data); ssize_t num_read = 0; if ((condition & G_IO_IN) != 0) { num_read = read(fd, buf, BUF_SIZE); if (num_read < 0) { nwarn("stdio_input read failed %s", strerror(errno)); return G_SOURCE_CONTINUE; } if (num_read > 0) { if (write_k8s_log(logfd, pipe, buf, num_read) < 0) { nwarn("write_k8s_log failed"); return G_SOURCE_CONTINUE; } if (conn_sock > 0 && write_all(conn_sock, buf, num_read) < 0) { nwarn("Failed to write to socket"); } return G_SOURCE_CONTINUE; } } /* End of input */ if (pipe == STDOUT_PIPE) masterfd_stdout = -1; if (pipe == STDERR_PIPE) masterfd_stderr = -1; num_stdio_fds--; if (num_stdio_fds == 0) { ninfo ("No more stdio, killing main loop"); g_main_loop_quit (main_loop); } close (fd); return G_SOURCE_REMOVE; } static gboolean oom_cb(int fd, GIOCondition condition, G_GNUC_UNUSED gpointer user_data) { uint64_t oom_event; ssize_t num_read = 0; if ((condition & G_IO_IN) != 0) { num_read = read(fd, &oom_event, sizeof(uint64_t)); if (num_read < 0) { nwarn("Failed to read oom event from eventfd"); return G_SOURCE_CONTINUE; } if (num_read > 0) { if (num_read != sizeof(uint64_t)) nwarn("Failed to read full oom event from eventfd"); ninfo("OOM received"); if (open("oom", O_CREAT, 0666) < 0) { nwarn("Failed to write oom file"); } return G_SOURCE_CONTINUE; } } /* End of input */ close (fd); oom_efd = -1; return G_SOURCE_REMOVE; } static gboolean conn_sock_cb(int fd, GIOCondition condition, G_GNUC_UNUSED gpointer user_data) { char buf[BUF_SIZE]; ssize_t num_read = 0; if ((condition & G_IO_IN) != 0) { num_read = read(fd, buf, BUF_SIZE); if (num_read < 0) return G_SOURCE_CONTINUE; if (num_read > 0) { ninfo("got data on connection: %zd", num_read); if (terminal && write_all(masterfd_stdout, buf, num_read) < 0) { nwarn("Failed to write to master pty"); } return G_SOURCE_CONTINUE; } } /* End of input */ close (fd); conn_sock = -1; return G_SOURCE_REMOVE; } static gboolean attach_cb(int fd, GIOCondition condition, G_GNUC_UNUSED gpointer user_data) { conn_sock = accept(fd, NULL, NULL); if (conn_sock == -1) { if (errno != EWOULDBLOCK) nwarn("Failed to accept client connection on attach socket"); } else { g_unix_fd_add (conn_sock, G_IO_IN, conn_sock_cb, GINT_TO_POINTER(STDOUT_PIPE)); ninfo("Accepted connection %d", conn_sock); } return G_SOURCE_CONTINUE; } static gboolean ctrl_cb(int fd, GIOCondition condition, G_GNUC_UNUSED gpointer user_data) { #define CTLBUFSZ 200 static char ctlbuf[CTLBUFSZ]; static int readsz = CTLBUFSZ - 1; static char *readptr = ctlbuf; ssize_t num_read = 0; int ctl_msg_type = -1; int height = -1; int width = -1; struct winsize ws; int ret; num_read = read(fd, readptr, readsz); if (num_read <= 0) { nwarn("Failed to read from control fd"); return G_SOURCE_CONTINUE; } readptr[num_read] = '\0'; ninfo("Got ctl message: %s\n", ctlbuf); char *beg = ctlbuf; char *newline = strchrnul(beg, '\n'); /* Process each message which ends with a line */ while (*newline != '\0') { ret = sscanf(ctlbuf, "%d %d %d\n", &ctl_msg_type, &height, &width); if (ret != 3) { nwarn("Failed to sscanf message"); return G_SOURCE_CONTINUE; } ninfo("Message type: %d, Height: %d, Width: %d", ctl_msg_type, height, width); ret = ioctl(masterfd_stdout, TIOCGWINSZ, &ws); ninfo("Existing size: %d %d", ws.ws_row, ws.ws_col); ws.ws_row = height; ws.ws_col = width; ret = ioctl(masterfd_stdout, TIOCSWINSZ, &ws); if (ret == -1) { nwarn("Failed to set process pty terminal size"); } beg = newline + 1; newline = strchrnul(beg, '\n'); } if (num_read == (CTLBUFSZ - 1) && beg == ctlbuf) { /* * We did not find a newline in the entire buffer. * This shouldn't happen as our buffer is larger than * the message that we expect to receive. */ nwarn("Could not find newline in entire buffer\n"); } else if (*beg == '\0') { /* We exhausted all messages that were complete */ readptr = ctlbuf; readsz = CTLBUFSZ - 1; } else { /* * We copy remaining data to beginning of buffer * and advance readptr after that. */ int cp_rem = 0; do { ctlbuf[cp_rem++] = *beg++; } while (*beg != '\0'); readptr = ctlbuf + cp_rem; readsz = CTLBUFSZ - 1 - cp_rem; } return G_SOURCE_CONTINUE; } static gboolean terminal_accept_cb(int fd, G_GNUC_UNUSED GIOCondition condition, G_GNUC_UNUSED gpointer user_data) { const char *csname = user_data; struct file_t console; int connfd = -1; ninfo("about to accept from csfd: %d", fd); connfd = accept4(fd, NULL, NULL, SOCK_CLOEXEC); if (connfd < 0) pexit("Failed to accept console-socket connection"); /* Not accepting anything else. */ close(fd); unlink(csname); /* We exit if this fails. */ ninfo("about to recvfd from connfd: %d", connfd); console = recvfd(connfd); ninfo("console = {.name = '%s'; .fd = %d}", console.name, console.fd); free(console.name); /* We only have a single fd for both pipes, so we just treat it as * stdout. stderr is ignored. */ masterfd_stdout = console.fd; masterfd_stderr = -1; /* Clean up everything */ close(connfd); return G_SOURCE_CONTINUE; } static void runtime_exit_cb (GPid pid, int status, G_GNUC_UNUSED gpointer user_data) { runtime_status = status; g_main_loop_quit (main_loop); } int main(int argc, char *argv[]) { int ret; char cwd[PATH_MAX]; char default_pid_file[PATH_MAX]; char attach_sock_path[PATH_MAX]; char ctl_fifo_path[PATH_MAX]; GError *err = NULL; _cleanup_free_ char *contents; int cpid = -1; int status; pid_t pid, create_pid; _cleanup_close_ int epfd = -1; _cleanup_close_ int csfd = -1; /* Used for !terminal cases. */ int slavefd_stdout = -1; int slavefd_stderr = -1; char csname[PATH_MAX] = "/tmp/conmon-term.XXXXXXXX"; char buf[BUF_SIZE]; int num_read; int sync_pipe_fd = -1; char *sync_pipe, *endptr; int len; GError *error = NULL; GOptionContext *context; GPtrArray *runtime_argv = NULL; _cleanup_free_ char *memory_cgroup_path = NULL; int wb; main_loop = g_main_loop_new (NULL, FALSE); /* Command line parameters */ context = g_option_context_new("- conmon utility"); g_option_context_add_main_entries(context, entries, "conmon"); if (!g_option_context_parse(context, &argc, &argv, &error)) { g_print("option parsing failed: %s\n", error->message); exit(1); } if (cid == NULL) nexit("Container ID not provided. Use --cid"); if (!exec && cuuid == NULL) nexit("Container UUID not provided. Use --cuuid"); if (runtime_path == NULL) nexit("Runtime path not provided. Use --runtime"); if (bundle_path == NULL && !exec) { if (getcwd(cwd, sizeof(cwd)) == NULL) { nexit("Failed to get working directory"); } bundle_path = cwd; } if (exec && exec_process_spec == NULL) { nexit("Exec process spec path not provided. Use --exec-process-spec"); } if (pid_file == NULL) { if (snprintf(default_pid_file, sizeof(default_pid_file), "%s/pidfile-%s", cwd, cid) < 0) { nexit("Failed to generate the pidfile path"); } pid_file = default_pid_file; } if (log_path == NULL) nexit("Log file path not provided. Use --log-path"); /* Environment variables */ sync_pipe = getenv("_OCI_SYNCPIPE"); if (sync_pipe) { errno = 0; sync_pipe_fd = strtol(sync_pipe, &endptr, 10); if (errno != 0 || *endptr != '\0') pexit("unable to parse _OCI_SYNCPIPE"); if (fcntl(sync_pipe_fd, F_SETFD, FD_CLOEXEC) == -1) pexit("unable to make _OCI_SYNCPIPE CLOEXEC"); } /* Open the log path file. */ logfd = open(log_path, O_WRONLY | O_APPEND | O_CREAT | O_CLOEXEC, 0600); if (logfd < 0) pexit("Failed to open log file"); /* * Set self as subreaper so we can wait for container process * and return its exit code. */ ret = prctl(PR_SET_CHILD_SUBREAPER, 1, 0, 0, 0); if (ret != 0) { pexit("Failed to set as subreaper"); } if (terminal) { struct sockaddr_un addr = {0}; /* * Generate a temporary name. Is this unsafe? Probably, but we can * replace it with a rename(2) setup if necessary. */ int unusedfd = g_mkstemp(csname); if (unusedfd < 0) pexit("Failed to generate random path for console-socket"); close(unusedfd); addr.sun_family = AF_UNIX; strncpy(addr.sun_path, csname, sizeof(addr.sun_path)-1); ninfo("addr{sun_family=AF_UNIX, sun_path=%s}", addr.sun_path); /* Bind to the console socket path. */ csfd = socket(AF_UNIX, SOCK_STREAM|SOCK_CLOEXEC, 0); if (csfd < 0) pexit("Failed to create console-socket"); if (fchmod(csfd, 0700)) pexit("Failed to change console-socket permissions"); /* XXX: This should be handled with a rename(2). */ if (unlink(csname) < 0) pexit("Failed to unlink temporary ranom path"); if (bind(csfd, (struct sockaddr *) &addr, sizeof(addr)) < 0) pexit("Failed to bind to console-socket"); if (listen(csfd, 128) < 0) pexit("Failed to listen on console-socket"); } else { int fds[2]; /* * Create a "fake" master fd so that we can use the same epoll code in * both cases. The slavefd_*s will be closed after we dup over * everything. * * We use pipes here because open(/dev/std{out,err}) will fail if we * used anything else (and it wouldn't be a good idea to create a new * pty pair in the host). */ if (pipe2(fds, O_CLOEXEC) < 0) pexit("Failed to create !terminal stdout pipe"); masterfd_stdout = fds[0]; slavefd_stdout = fds[1]; if (pipe2(fds, O_CLOEXEC) < 0) pexit("Failed to create !terminal stderr pipe"); masterfd_stderr = fds[0]; slavefd_stderr = fds[1]; } runtime_argv = g_ptr_array_new(); g_ptr_array_add(runtime_argv, runtime_path); /* Generate the cmdline. */ if (!exec && systemd_cgroup) g_ptr_array_add(runtime_argv, "--systemd-cgroup"); if (exec) { g_ptr_array_add (runtime_argv, "exec"); g_ptr_array_add (runtime_argv, "-d"); g_ptr_array_add (runtime_argv, "--pid-file"); g_ptr_array_add (runtime_argv, pid_file); } else { g_ptr_array_add (runtime_argv, "create"); g_ptr_array_add (runtime_argv, "--bundle"); g_ptr_array_add (runtime_argv, bundle_path); g_ptr_array_add (runtime_argv, "--pid-file"); g_ptr_array_add (runtime_argv, pid_file); } if (terminal) { g_ptr_array_add(runtime_argv, "--console-socket"); g_ptr_array_add(runtime_argv, csname); } /* Set the exec arguments. */ if (exec) { g_ptr_array_add(runtime_argv, "--process"); g_ptr_array_add(runtime_argv, exec_process_spec); } /* Container name comes last. */ g_ptr_array_add(runtime_argv, cid); g_ptr_array_add(runtime_argv, NULL); /* * We have to fork here because the current runC API dups the stdio of the * calling process over the container's fds. This is actually *very bad* * but is currently being discussed for change in * https://github.com/opencontainers/runtime-spec/pull/513. Hopefully this * won't be the case for very long. */ /* Create our container. */ create_pid = fork(); if (create_pid < 0) { pexit("Failed to fork the create command"); } else if (!create_pid) { /* We only need to touch the stdio if we have terminal=false. */ /* FIXME: This results in us not outputting runc error messages to crio's log. */ if (slavefd_stdout >= 0) { if (dup2(slavefd_stdout, STDOUT_FILENO) < 0) pexit("Failed to dup over stdout"); } if (slavefd_stderr >= 0) { if (dup2(slavefd_stderr, STDERR_FILENO) < 0) pexit("Failed to dup over stderr"); } execv(g_ptr_array_index(runtime_argv,0), (char **)runtime_argv->pdata); exit(127); } g_ptr_array_free (runtime_argv, TRUE); /* The runtime has that fd now. We don't need to touch it anymore. */ close(slavefd_stdout); close(slavefd_stderr); ninfo("about to waitpid: %d", create_pid); if (terminal) { guint terminal_watch = g_unix_fd_add (csfd, G_IO_IN, terminal_accept_cb, csname); g_child_watch_add (create_pid, runtime_exit_cb, NULL); g_main_loop_run (main_loop); g_source_remove (terminal_watch); } else { /* Wait for our create child to exit with the return code. */ if (waitpid(create_pid, &runtime_status, 0) < 0) { int old_errno = errno; kill(create_pid, SIGKILL); errno = old_errno; pexit("Failed to wait for `runtime %s`", exec ? "exec" : "create"); } } if (!WIFEXITED(runtime_status) || WEXITSTATUS(runtime_status) != 0) { if (sync_pipe_fd > 0 && !exec) { if (terminal) { /* * For this case, the stderr is captured in the parent when terminal is passed down. * We send -1 as pid to signal to parent that create container has failed. */ len = snprintf(buf, BUF_SIZE, "{\"pid\": %d}\n", -1); if (len < 0 || write_all(sync_pipe_fd, buf, len) != len) { pexit("unable to send container pid to parent"); } } else { /* * Read from container stderr for any error and send it to parent * We send -1 as pid to signal to parent that create container has failed. */ num_read = read(masterfd_stderr, buf, BUF_SIZE); if (num_read > 0) { _cleanup_free_ char *escaped_message = NULL; ssize_t len; buf[num_read] = '\0'; escaped_message = escape_json_string(buf); len = snprintf(buf, BUF_SIZE, "{\"pid\": %d, \"message\": \"%s\"}\n", -1, escaped_message); if (len < 0 || write_all(sync_pipe_fd, buf, len) != len) { ninfo("Unable to send container stderr message to parent"); } } } } nexit("Failed to create container: exit status %d", WEXITSTATUS(runtime_status)); } if (terminal && masterfd_stdout == -1) pexit("Runtime did not set up terminal"); /* Read the pid so we can wait for the process to exit */ g_file_get_contents(pid_file, &contents, NULL, &err); if (err) { nwarn("Failed to read pidfile: %s", err->message); g_error_free(err); exit(1); } cpid = atoi(contents); ninfo("container PID: %d", cpid); /* Setup endpoint for attach */ char attach_symlink_dir_path[PATH_MAX]; struct sockaddr_un attach_addr = {0}; if (!exec) { attach_addr.sun_family = AF_UNIX; /* * Create a symlink so we don't exceed unix domain socket * path length limit. */ snprintf(attach_symlink_dir_path, PATH_MAX, "/var/run/crio/%s", cuuid); if (unlink(attach_symlink_dir_path) == -1 && errno != ENOENT) { pexit("Failed to remove existing symlink for attach socket directory"); } if (symlink(bundle_path, attach_symlink_dir_path) == -1) pexit("Failed to create symlink for attach socket"); snprintf(attach_sock_path, PATH_MAX, "/var/run/crio/%s/attach", cuuid); ninfo("attach sock path: %s", attach_sock_path); strncpy(attach_addr.sun_path, attach_sock_path, sizeof(attach_addr.sun_path) - 1); ninfo("addr{sun_family=AF_UNIX, sun_path=%s}", attach_addr.sun_path); /* * We make the socket non-blocking to avoid a race where client aborts connection * before the server gets a chance to call accept. In that scenario, the server * accept blocks till a new client connection comes in. */ afd = socket(AF_UNIX, SOCK_STREAM|SOCK_NONBLOCK|SOCK_CLOEXEC, 0); if (afd == -1) pexit("Failed to create attach socket"); if (fchmod(afd, 0700)) pexit("Failed to change attach socket permissions"); if (bind(afd, (struct sockaddr *)&attach_addr, sizeof(struct sockaddr_un)) == -1) pexit("Failed to bind attach socket: %s", attach_sock_path); if (listen(afd, 10) == -1) pexit("Failed to listen on attach socket: %s", attach_sock_path); } /* Setup fifo for reading in terminal resize and other stdio control messages */ _cleanup_close_ int ctlfd = -1; _cleanup_close_ int dummyfd = -1; if (!exec) { snprintf(ctl_fifo_path, PATH_MAX, "%s/ctl", bundle_path); ninfo("ctl fifo path: %s", ctl_fifo_path); if (mkfifo(ctl_fifo_path, 0666) == -1) pexit("Failed to mkfifo at %s", ctl_fifo_path); ctlfd = open(ctl_fifo_path, O_RDONLY|O_NONBLOCK|O_CLOEXEC); if (ctlfd == -1) pexit("Failed to open control fifo"); /* * Open a dummy writer to prevent getting flood of POLLHUPs when * last writer closes. */ dummyfd = open(ctl_fifo_path, O_WRONLY|O_CLOEXEC); if (dummyfd == -1) pexit("Failed to open dummy writer for fifo"); ninfo("ctlfd: %d", ctlfd); } /* Send the container pid back to parent */ if (sync_pipe_fd > 0 && !exec) { len = snprintf(buf, BUF_SIZE, "{\"pid\": %d}\n", cpid); if (len < 0 || write_all(sync_pipe_fd, buf, len) != len) { pexit("unable to send container pid to parent"); } } /* Setup OOM notification for container process */ memory_cgroup_path = process_cgroup_subsystem_path(cpid, "memory"); if (!memory_cgroup_path) { nexit("Failed to get memory cgroup path"); } bool oom_handling_enabled = true; char memory_cgroup_file_path[PATH_MAX]; snprintf(memory_cgroup_file_path, PATH_MAX, "%s/cgroup.event_control", memory_cgroup_path); if ((cfd = open(memory_cgroup_file_path, O_WRONLY | O_CLOEXEC)) == -1) { nwarn("Failed to open %s", memory_cgroup_file_path); oom_handling_enabled = false; } if (oom_handling_enabled) { snprintf(memory_cgroup_file_path, PATH_MAX, "%s/memory.oom_control", memory_cgroup_path); if ((ofd = open(memory_cgroup_file_path, O_RDONLY | O_CLOEXEC)) == -1) pexit("Failed to open %s", memory_cgroup_file_path); if ((oom_efd = eventfd(0, EFD_CLOEXEC)) == -1) pexit("Failed to create eventfd"); wb = snprintf(buf, BUF_SIZE, "%d %d", oom_efd, ofd); if (write_all(cfd, buf, wb) < 0) pexit("Failed to write to cgroup.event_control"); } if (masterfd_stdout >= 0) { g_unix_fd_add (masterfd_stdout, G_IO_IN, stdio_cb, GINT_TO_POINTER(STDOUT_PIPE)); num_stdio_fds++; } if (masterfd_stderr >= 0) { g_unix_fd_add (masterfd_stderr, G_IO_IN, stdio_cb, GINT_TO_POINTER(STDERR_PIPE)); num_stdio_fds++; } /* Add the OOM event fd to epoll */ if (oom_handling_enabled) { g_unix_fd_add (oom_efd, G_IO_IN, oom_cb, NULL); } /* Add the attach socket to epoll */ if (afd > 0) { g_unix_fd_add (afd, G_IO_IN, attach_cb, NULL); } /* Add control fifo fd to epoll */ if (ctlfd > 0) { g_unix_fd_add (ctlfd, G_IO_IN, ctrl_cb, NULL); } g_main_loop_run (main_loop); /* Wait for the container process and record its exit code */ while ((pid = waitpid(-1, &status, 0)) > 0) { int exit_status = WEXITSTATUS(status); printf("PID %d exited with status %d\n", pid, exit_status); if (pid == cpid) { if (!exec) { _cleanup_free_ char *status_str = NULL; ret = asprintf(&status_str, "%d", exit_status); if (ret < 0) { pexit("Failed to allocate memory for status"); } g_file_set_contents("exit", status_str, strlen(status_str), &err); if (err) { fprintf(stderr, "Failed to write %s to exit file: %s\n", status_str, err->message); g_error_free(err); exit(1); } } else { /* Send the command exec exit code back to the parent */ if (sync_pipe_fd > 0) { len = snprintf(buf, BUF_SIZE, "{\"exit_code\": %d}\n", exit_status); if (len < 0 || write_all(sync_pipe_fd, buf, len) != len) { pexit("unable to send exit status"); exit(1); } } } break; } } if (exec && pid < 0 && errno == ECHILD && sync_pipe_fd > 0) { /* * waitpid failed and set errno to ECHILD: * The runtime exec call did not create any child * process and we can send the system() exit code * to the parent. */ len = snprintf(buf, BUF_SIZE, "{\"exit_code\": %d}\n", WEXITSTATUS(runtime_status)); if (len < 0 || write_all(sync_pipe_fd, buf, len) != len) { pexit("unable to send exit status"); exit(1); } } if (!exec) { if (unlink(attach_symlink_dir_path) == -1 && errno != ENOENT) { pexit("Failed to remove symlink for attach socket directory"); } } return EXIT_SUCCESS; }