/* * Copyright 2021 Google LLC * SPDX-License-Identifier: MIT */ #include "render_worker.h" /* One and only one of ENABLE_RENDER_SERVER_WORKER_* must be set. * * With ENABLE_RENDER_SERVER_WORKER_PROCESS, each worker is a subprocess * forked from the server process. * * With ENABLE_RENDER_SERVER_WORKER_THREAD, each worker is a thread of the * server process. * * With ENABLE_RENDER_SERVER_WORKER_MINIJAIL, each worker is a subprocess * forked from the server process, jailed with minijail. */ #if (ENABLE_RENDER_SERVER_WORKER_PROCESS + ENABLE_RENDER_SERVER_WORKER_THREAD + \ ENABLE_RENDER_SERVER_WORKER_MINIJAIL) != 1 #error "no worker defined" #endif #include #include #include #include #include #include struct render_worker { #ifdef ENABLE_RENDER_SERVER_WORKER_THREAD thrd_t thread; #else pid_t pid; #endif bool reaped; char thread_data[]; }; #ifdef ENABLE_RENDER_SERVER_WORKER_MINIJAIL #include #include #include #include #include #include static bool load_bpf_program(struct sock_fprog *prog, const char *path) { int fd = -1; void *data = NULL; fd = open(path, O_RDONLY); if (fd < 0) goto fail; const off_t size = lseek(fd, 0, SEEK_END); if (size <= 0 || size % sizeof(struct sock_filter)) goto fail; lseek(fd, 0, SEEK_SET); data = malloc(size); if (!data) goto fail; off_t cur = 0; while (cur < size) { const ssize_t r = read(fd, (char *)data + cur, size - cur); if (r <= 0) goto fail; cur += r; } close(fd); prog->len = size / sizeof(struct sock_filter); prog->filter = data; return true; fail: if (data) free(data); if (fd >= 0) close(fd); return false; } static struct render_worker_jail * create_minijail(enum render_worker_jail_seccomp_filter seccomp_filter, const char *seccomp_path) { struct minijail *j = minijail_new(); /* TODO namespaces and many more */ minijail_no_new_privs(j); if (seccomp_filter != RENDER_WORKER_JAIL_SECCOMP_NONE) { if (seccomp_filter == RENDER_WORKER_JAIL_SECCOMP_BPF) { struct sock_fprog prog; if (!load_bpf_program(&prog, seccomp_path)) { minijail_destroy(j); return NULL; } minijail_set_seccomp_filters(j, &prog); free(prog.filter); } else { if (seccomp_filter == RENDER_WORKER_JAIL_SECCOMP_POLICY_LOG) minijail_log_seccomp_filter_failures(j); minijail_parse_seccomp_filters(j, seccomp_path); } minijail_use_seccomp_filter(j); } return (struct render_worker_jail *)j; } static pid_t fork_minijail(const struct render_worker_jail *jail) { struct minijail *j = minijail_new(); if (!j) return -1; /* is this faster? */ if (minijail_copy_jail((const struct minijail *)jail, j)) { minijail_destroy(j); return -1; } pid_t pid = minijail_fork(j); minijail_destroy(j); return pid; } #endif /* ENABLE_RENDER_SERVER_WORKER_MINIJAIL */ struct render_worker_jail * render_worker_jail_create(enum render_worker_jail_seccomp_filter seccomp_filter, const char *seccomp_path) { #if defined(ENABLE_RENDER_SERVER_WORKER_MINIJAIL) return create_minijail(seccomp_filter, seccomp_path); #else /* TODO RENDER_WORKER_JAIL_SECCOMP_BPF */ if (seccomp_filter != RENDER_WORKER_JAIL_SECCOMP_NONE) return NULL; (void)seccomp_path; return (void *)1; #endif } void render_worker_jail_destroy(struct render_worker_jail *jail) { #if defined(ENABLE_RENDER_SERVER_WORKER_MINIJAIL) minijail_destroy((struct minijail *)jail); #else (void)jail; #endif } struct render_worker * render_worker_create(struct render_worker_jail *jail, int (*thread_func)(void *thread_data), void *thread_data, size_t thread_data_size) { struct render_worker *worker = calloc(1, sizeof(*worker) + thread_data_size); if (!worker) return NULL; memcpy(worker->thread_data, thread_data, thread_data_size); bool ok; #if defined(ENABLE_RENDER_SERVER_WORKER_PROCESS) worker->pid = fork(); ok = worker->pid >= 0; (void)jail; (void)thread_func; #elif defined(ENABLE_RENDER_SERVER_WORKER_THREAD) ok = thrd_create(&worker->thread, thread_func, worker->thread_data) == thrd_success; (void)jail; #elif defined(ENABLE_RENDER_SERVER_WORKER_MINIJAIL) worker->pid = fork_minijail(jail); ok = worker->pid >= 0; (void)thread_func; #endif if (!ok) { free(worker); return NULL; } return worker; } bool render_worker_is_record(const struct render_worker *worker) { /* return false if called from the worker itself */ #ifdef ENABLE_RENDER_SERVER_WORKER_THREAD return !thrd_equal(worker->thread, thrd_current()); #else return worker->pid > 0; #endif } void render_worker_kill(struct render_worker *worker) { assert(render_worker_is_record(worker)); #ifdef ENABLE_RENDER_SERVER_WORKER_THREAD /* we trust the thread to clean up and exit in finite time */ #else kill(worker->pid, SIGKILL); #endif } bool render_worker_reap(struct render_worker *worker, bool wait) { assert(render_worker_is_record(worker)); if (worker->reaped) return true; bool ok; #ifdef ENABLE_RENDER_SERVER_WORKER_THREAD (void)wait; ok = thrd_join(worker->thread, NULL) == thrd_success; #else const int options = WEXITED | (wait ? 0 : WNOHANG); siginfo_t siginfo = { 0 }; const int ret = waitid(P_PID, worker->pid, &siginfo, options); ok = !ret && siginfo.si_pid == worker->pid; #endif worker->reaped = ok; return ok; } void render_worker_destroy(struct render_worker *worker) { free(worker); }