int sandbox(void* sandbox_arg) { // Get rid of unused parameter warning (void)sandbox_arg; pid_t child_pid = getpid(); if (arg_debug) printf("Initializing child process\n"); // close each end of the unused pipes close(parent_to_child_fds[1]); close(child_to_parent_fds[0]); // wait for parent to do base setup wait_for_other(parent_to_child_fds[0]); if (arg_debug && child_pid == 1) printf("PID namespace installed\n"); //**************************** // set hostname //**************************** if (cfg.hostname) { if (sethostname(cfg.hostname, strlen(cfg.hostname)) < 0) errExit("sethostname"); } //**************************** // mount namespace //**************************** // mount events are not forwarded between the host the sandbox if (mount(NULL, "/", NULL, MS_SLAVE | MS_REC, NULL) < 0) { chk_chroot(); } //**************************** // log sandbox data //**************************** if (cfg.name) fs_logger2("sandbox name:", cfg.name); fs_logger2int("sandbox pid:", (int) sandbox_pid); if (cfg.chrootdir) fs_logger("sandbox filesystem: chroot"); else if (arg_overlay) fs_logger("sandbox filesystem: overlay"); else fs_logger("sandbox filesystem: local"); fs_logger("install mount namespace"); //**************************** // netfilter etc. //**************************** if (arg_netfilter && any_bridge_configured()) { // assuming by default the client filter netfilter(arg_netfilter_file); } if (arg_netfilter6 && any_bridge_configured()) { // assuming by default the client filter netfilter6(arg_netfilter6_file); } // load IBUS env variables if (arg_nonetwork || any_bridge_configured() || any_interface_configured()) { // do nothing - there are problems with ibus version 1.5.11 } else env_ibus_load(); // grab a copy of cp command fs_build_cp_command(); // trace pre-install if (arg_trace || arg_tracelog) fs_trace_preload(); //**************************** // configure filesystem //**************************** #ifdef HAVE_SECCOMP int enforce_seccomp = 0; #endif #ifdef HAVE_CHROOT if (cfg.chrootdir) { fs_chroot(cfg.chrootdir); // redo cp command fs_build_cp_command(); // force caps and seccomp if not started as root if (getuid() != 0) { // force default seccomp inside the chroot, no keep or drop list // the list build on top of the default drop list is kept intact arg_seccomp = 1; #ifdef HAVE_SECCOMP enforce_seccomp = 1; #endif if (cfg.seccomp_list_drop) { free(cfg.seccomp_list_drop); cfg.seccomp_list_drop = NULL; } if (cfg.seccomp_list_keep) { free(cfg.seccomp_list_keep); cfg.seccomp_list_keep = NULL; } // disable all capabilities if (arg_caps_default_filter || arg_caps_list) fprintf(stderr, "Warning: all capabilities disabled for a regular user during chroot\n"); arg_caps_drop_all = 1; // drop all supplementary groups; /etc/group file inside chroot // is controlled by a regular usr arg_nogroups = 1; if (!arg_quiet) printf("Dropping all Linux capabilities and enforcing default seccomp filter\n"); } else arg_seccomp = 1; //**************************** // trace pre-install, this time inside chroot //**************************** if (arg_trace || arg_tracelog) fs_trace_preload(); } else #endif if (arg_overlay) fs_overlayfs(); else fs_basic_fs(); //**************************** // set hostname in /etc/hostname //**************************** if (cfg.hostname) { fs_hostname(cfg.hostname); } //**************************** // private mode //**************************** if (arg_private) { if (cfg.home_private) // --private= fs_private_homedir(); else // --private fs_private(); } if (arg_private_dev) fs_private_dev(); if (arg_private_etc) { fs_private_etc_list(); // create /etc/ld.so.preload file again if (arg_trace || arg_tracelog) fs_trace_preload(); } if (arg_private_bin) fs_private_bin_list(); if (arg_private_tmp) fs_private_tmp(); //**************************** // apply the profile file //**************************** if (cfg.profile) { // apply all whitelist commands ... fs_whitelist(); // ... followed by blacklist commands fs_blacklist(); } //**************************** // install trace //**************************** if (arg_trace || arg_tracelog) fs_trace(); //**************************** // update /proc, /dev, /boot directorymy //**************************** fs_proc_sys_dev_boot(); //**************************** // --nosound and fix for pulseaudio 7.0 //**************************** if (arg_nosound) pulseaudio_disable(); else pulseaudio_init(); //**************************** // networking //**************************** if (arg_nonetwork) { net_if_up("lo"); if (arg_debug) printf("Network namespace enabled, only loopback interface available\n"); } else if (any_bridge_configured() || any_interface_configured()) { // configure lo and eth0...eth3 net_if_up("lo"); if (mac_not_zero(cfg.bridge0.macsandbox)) net_config_mac(cfg.bridge0.devsandbox, cfg.bridge0.macsandbox); sandbox_if_up(&cfg.bridge0); if (mac_not_zero(cfg.bridge1.macsandbox)) net_config_mac(cfg.bridge1.devsandbox, cfg.bridge1.macsandbox); sandbox_if_up(&cfg.bridge1); if (mac_not_zero(cfg.bridge2.macsandbox)) net_config_mac(cfg.bridge2.devsandbox, cfg.bridge2.macsandbox); sandbox_if_up(&cfg.bridge2); if (mac_not_zero(cfg.bridge3.macsandbox)) net_config_mac(cfg.bridge3.devsandbox, cfg.bridge3.macsandbox); sandbox_if_up(&cfg.bridge3); // add a default route if (cfg.defaultgw) { // set the default route if (net_add_route(0, 0, cfg.defaultgw)) fprintf(stderr, "Warning: cannot configure default route\n"); } // enable interfaces if (cfg.interface0.configured && cfg.interface0.ip) { if (arg_debug) printf("Configuring %d.%d.%d.%d address on interface %s\n", PRINT_IP(cfg.interface0.ip), cfg.interface0.dev); net_if_ip(cfg.interface0.dev, cfg.interface0.ip, cfg.interface0.mask, cfg.interface0.mtu); net_if_up(cfg.interface0.dev); } if (cfg.interface1.configured && cfg.interface1.ip) { if (arg_debug) printf("Configuring %d.%d.%d.%d address on interface %s\n", PRINT_IP(cfg.interface1.ip), cfg.interface1.dev); net_if_ip(cfg.interface1.dev, cfg.interface1.ip, cfg.interface1.mask, cfg.interface1.mtu); net_if_up(cfg.interface1.dev); } if (cfg.interface2.configured && cfg.interface2.ip) { if (arg_debug) printf("Configuring %d.%d.%d.%d address on interface %s\n", PRINT_IP(cfg.interface2.ip), cfg.interface2.dev); net_if_ip(cfg.interface2.dev, cfg.interface2.ip, cfg.interface2.mask, cfg.interface2.mtu); net_if_up(cfg.interface2.dev); } if (cfg.interface3.configured && cfg.interface3.ip) { if (arg_debug) printf("Configuring %d.%d.%d.%d address on interface %s\n", PRINT_IP(cfg.interface3.ip), cfg.interface3.dev); net_if_ip(cfg.interface3.dev, cfg.interface3.ip, cfg.interface3.mask, cfg.interface3.mtu); net_if_up(cfg.interface3.dev); } if (arg_debug) printf("Network namespace enabled\n"); } // if any dns server is configured, it is time to set it now fs_resolvconf(); fs_logger_print(); fs_logger_change_owner(); // print network configuration if (!arg_quiet) { if (any_bridge_configured() || any_interface_configured() || cfg.defaultgw || cfg.dns1) { printf("\n"); if (any_bridge_configured() || any_interface_configured()) net_ifprint(); if (cfg.defaultgw != 0) printf("Default gateway %d.%d.%d.%d\n", PRINT_IP(cfg.defaultgw)); if (cfg.dns1 != 0) printf("DNS server %d.%d.%d.%d\n", PRINT_IP(cfg.dns1)); if (cfg.dns2 != 0) printf("DNS server %d.%d.%d.%d\n", PRINT_IP(cfg.dns2)); if (cfg.dns3 != 0) printf("DNS server %d.%d.%d.%d\n", PRINT_IP(cfg.dns3)); printf("\n"); } } fs_delete_cp_command(); //**************************** // set application environment //**************************** prctl(PR_SET_PDEATHSIG, SIGKILL, 0, 0, 0); // kill the child in case the parent died int cwd = 0; if (cfg.cwd) { if (chdir(cfg.cwd) == 0) cwd = 1; } if (!cwd) { if (chdir("/") < 0) errExit("chdir"); if (cfg.homedir) { struct stat s; if (stat(cfg.homedir, &s) == 0) { /* coverity[toctou] */ if (chdir(cfg.homedir) < 0) errExit("chdir"); } } } // set environment env_defaults(); // set user-supplied environment variables env_apply(); // set nice if (arg_nice) { errno = 0; int rv = nice(cfg.nice); (void) rv; if (errno) { fprintf(stderr, "Warning: cannot set nice value\n"); errno = 0; } } // clean /tmp/.X11-unix sockets fs_x11(); //**************************** // set security filters //**************************** // set capabilities if (!arg_noroot) set_caps(); // set rlimits set_rlimits(); // set seccomp #ifdef HAVE_SECCOMP // install protocol filter if (cfg.protocol) { protocol_filter(); // install filter protocol_filter_save(); // save filter in PROTOCOL_CFG } // if a keep list is available, disregard the drop list if (arg_seccomp == 1) { if (cfg.seccomp_list_keep) seccomp_filter_keep(); else if (cfg.seccomp_list_errno) seccomp_filter_errno(); else seccomp_filter_drop(enforce_seccomp); } #endif // set cpu affinity if (cfg.cpus) { save_cpu(); // save cpu affinity mask to CPU_CFG file set_cpu_affinity(); } // save cgroup in CGROUP_CFG file if (cfg.cgroup) save_cgroup(); //**************************************** // drop privileges or create a new user namespace //**************************************** save_nogroups(); if (arg_noroot) { int rv = unshare(CLONE_NEWUSER); if (rv == -1) { fprintf(stderr, "Error: cannot mount a new user namespace\n"); perror("unshare"); drop_privs(arg_nogroups); } } else drop_privs(arg_nogroups); // notify parent that new user namespace has been created so a proper // UID/GID map can be setup notify_other(child_to_parent_fds[1]); close(child_to_parent_fds[1]); // wait for parent to finish setting up a proper UID/GID map wait_for_other(parent_to_child_fds[0]); close(parent_to_child_fds[0]); // somehow, the new user namespace resets capabilities; // we need to do them again if (arg_noroot) { set_caps(); if (arg_debug) printf("noroot user namespace installed\n"); } //**************************************** // fork the application and monitor it //**************************************** pid_t app_pid = fork(); if (app_pid == -1) errExit("fork"); if (app_pid == 0) { prctl(PR_SET_PDEATHSIG, SIGKILL, 0, 0, 0); // kill the child in case the parent died start_application(); // start app } monitor_application(app_pid); // monitor application return 0; }
int sandbox(void* sandbox_arg) { // Get rid of unused parameter warning (void)sandbox_arg; pid_t child_pid = getpid(); if (arg_debug) printf("Initializing child process\n"); // close each end of the unused pipes close(parent_to_child_fds[1]); close(child_to_parent_fds[0]); // wait for parent to do base setup wait_for_other(parent_to_child_fds[0]); if (arg_debug && child_pid == 1) printf("PID namespace installed\n"); //**************************** // set hostname //**************************** if (cfg.hostname) { if (sethostname(cfg.hostname, strlen(cfg.hostname)) < 0) errExit("sethostname"); } //**************************** // mount namespace //**************************** // mount events are not forwarded between the host the sandbox if (mount(NULL, "/", NULL, MS_SLAVE | MS_REC, NULL) < 0) { chk_chroot(); } //**************************** // netfilter //**************************** if (arg_netfilter && any_bridge_configured()) { // assuming by default the client filter netfilter(arg_netfilter_file); } //**************************** // trace pre-install //**************************** if (arg_trace) fs_trace_preload(); //**************************** // configure filesystem //**************************** #ifdef HAVE_CHROOT if (cfg.chrootdir) { fs_chroot(cfg.chrootdir); // force caps and seccomp if not started as root if (getuid() != 0) { // force default seccomp inside the chroot, no keep or drop list // the list build on top of the default drop list is kept intact arg_seccomp = 1; if (arg_seccomp_list_drop) { free(arg_seccomp_list_drop); arg_seccomp_list_drop = NULL; } if (arg_seccomp_list_keep) { free(arg_seccomp_list_keep); arg_seccomp_list_keep = NULL; } // disable all capabilities if (arg_caps_default_filter || arg_caps_list) fprintf(stderr, "Warning: all capabilities disabled for a regular user during chroot\n"); arg_caps_drop_all = 1; // drop all supplementary groups; /etc/group file inside chroot // is controlled by a regular usr arg_nogroups = 1; printf("Dropping all Linux capabilities and enforcing default seccomp filter\n"); } //**************************** // trace pre-install, this time inside chroot //**************************** if (arg_trace) fs_trace_preload(); } else #endif if (arg_overlay) fs_overlayfs(); else fs_basic_fs(); //**************************** // set hostname in /etc/hostname //**************************** if (cfg.hostname) { fs_hostname(cfg.hostname); } //**************************** // apply the profile file //**************************** if (cfg.profile) fs_blacklist(cfg.homedir); //**************************** // private mode //**************************** if (arg_private) { if (cfg.home_private) // --private= fs_private_homedir(); else if (cfg.home_private_keep) // --private-home= fs_private_home_list(); else // --private fs_private(); } if (arg_private_dev) fs_private_dev(); if (arg_private_etc) fs_private_etc_list(); //**************************** // install trace //**************************** if (arg_trace) fs_trace(); //**************************** // update /proc, /dev, /boot directorymy //**************************** fs_proc_sys_dev_boot(); //**************************** // networking //**************************** if (arg_nonetwork) { net_if_up("lo"); if (arg_debug) printf("Network namespace enabled, only loopback interface available\n"); } else if (any_bridge_configured()) { // configure lo and eth0...eth3 net_if_up("lo"); if (mac_not_zero(cfg.bridge0.macsandbox)) net_config_mac(cfg.bridge0.devsandbox, cfg.bridge0.macsandbox); sandbox_if_up(&cfg.bridge0); if (mac_not_zero(cfg.bridge1.macsandbox)) net_config_mac(cfg.bridge1.devsandbox, cfg.bridge1.macsandbox); sandbox_if_up(&cfg.bridge1); if (mac_not_zero(cfg.bridge2.macsandbox)) net_config_mac(cfg.bridge2.devsandbox, cfg.bridge2.macsandbox); sandbox_if_up(&cfg.bridge2); if (mac_not_zero(cfg.bridge3.macsandbox)) net_config_mac(cfg.bridge3.devsandbox, cfg.bridge3.macsandbox); sandbox_if_up(&cfg.bridge3); // add a default route if (cfg.defaultgw) { // set the default route if (net_add_route(0, 0, cfg.defaultgw)) fprintf(stderr, "Warning: cannot configure default route\n"); } if (arg_debug) printf("Network namespace enabled\n"); } // if any dns server is configured, it is time to set it now fs_resolvconf(); // print network configuration if (any_bridge_configured() || cfg.defaultgw || cfg.dns1) { printf("\n"); if (any_bridge_configured()) net_ifprint(); if (cfg.defaultgw != 0) printf("Default gateway %d.%d.%d.%d\n", PRINT_IP(cfg.defaultgw)); if (cfg.dns1 != 0) printf("DNS server %d.%d.%d.%d\n", PRINT_IP(cfg.dns1)); if (cfg.dns2 != 0) printf("DNS server %d.%d.%d.%d\n", PRINT_IP(cfg.dns2)); if (cfg.dns3 != 0) printf("DNS server %d.%d.%d.%d\n", PRINT_IP(cfg.dns3)); printf("\n"); } //**************************** // start executable //**************************** prctl(PR_SET_PDEATHSIG, SIGKILL, 0, 0, 0); // kill the child in case the parent died int cwd = 0; if (cfg.cwd) { if (chdir(cfg.cwd) == 0) cwd = 1; } if (!cwd) { if (chdir("/") < 0) errExit("chdir"); if (cfg.homedir) { struct stat s; if (stat(cfg.homedir, &s) == 0) { /* coverity[toctou] */ if (chdir(cfg.homedir) < 0) errExit("chdir"); } } } // set environment // fix qt 4.8 if (setenv("QT_X11_NO_MITSHM", "1", 1) < 0) errExit("setenv"); if (setenv("container", "firejail", 1) < 0) // LXC sets container=lxc, errExit("setenv"); if (arg_zsh && setenv("SHELL", "/usr/bin/zsh", 1) < 0) errExit("setenv"); if (arg_csh && setenv("SHELL", "/bin/csh", 1) < 0) errExit("setenv"); if (cfg.shell && setenv("SHELL", cfg.shell, 1) < 0) errExit("setenv"); // set prompt color to green //export PS1='\[\e[1;32m\][\u@\h \W]\$\[\e[0m\] ' if (setenv("PROMPT_COMMAND", "export PS1=\"\\[\\e[1;32m\\][\\u@\\h \\W]\\$\\[\\e[0m\\] \"", 1) < 0) errExit("setenv"); // set user-supplied environment variables env_apply(); // set capabilities if (!arg_noroot) set_caps(); // set rlimits set_rlimits(); // set seccomp #ifdef HAVE_SECCOMP // if a keep list is available, disregard the drop list if (arg_seccomp == 1) { if (arg_seccomp_list_keep) seccomp_filter_keep(); // this will also save the fmyilter to MNT_DIR/seccomp file else seccomp_filter_drop(); // this will also save the filter to MNT_DIR/seccomp file } #endif // set cpu affinity if (cfg.cpus) { save_cpu(); // save cpu affinity mask to MNT_DIR/cpu file set_cpu_affinity(); } // save cgroup in MNT_DIR/cgroup file if (cfg.cgroup) save_cgroup(); //**************************************** // drop privileges or create a new user namespace //**************************************** save_nogroups(); if (arg_noroot) { int rv = unshare(CLONE_NEWUSER); if (rv == -1) { fprintf(stderr, "Error: cannot mount a new user namespace\n"); perror("unshare"); drop_privs(arg_nogroups); } } else drop_privs(arg_nogroups); // notify parent that new user namespace has been created so a proper // UID/GID map can be setup notify_other(child_to_parent_fds[1]); close(child_to_parent_fds[1]); // wait for parent to finish setting up a proper UID/GID map wait_for_other(parent_to_child_fds[0]); close(parent_to_child_fds[0]); // somehow, the new user namespace resets capabilities; // we need to do them again if (arg_noroot) { set_caps(); if (arg_debug) printf("User namespace (noroot) installed\n"); } //**************************************** // start the program without using a shell //**************************************** if (arg_shell_none) { if (arg_debug) { int i; for (i = cfg.original_program_index; i < cfg.original_argc; i++) { if (cfg.original_argv[i] == NULL) break; printf("execvp argument %d: %s\n", i - cfg.original_program_index, cfg.original_argv[i]); } } if (!arg_command) printf("Child process initialized\n"); execvp(cfg.original_argv[cfg.original_program_index], &cfg.original_argv[cfg.original_program_index]); } //**************************************** // start the program using a shell //**************************************** else { // choose the shell requested by the user, or use bash as default char *sh; if (cfg.shell) sh = cfg.shell; else if (arg_zsh) sh = "/usr/bin/zsh"; else if (arg_csh) sh = "/bin/csh"; else sh = "/bin/bash"; char *arg[5]; int index = 0; arg[index++] = sh; arg[index++] = "-c"; assert(cfg.command_line); if (arg_debug) printf("Starting %s\n", cfg.command_line); if (arg_doubledash) arg[index++] = "--"; arg[index++] = cfg.command_line; arg[index] = NULL; assert(index < 5); if (arg_debug) { char *msg; if (asprintf(&msg, "sandbox %d, execvp into %s", sandbox_pid, cfg.command_line) == -1) errExit("asprintf"); logmsg(msg); free(msg); } if (arg_debug) { int i; for (i = 0; i < 5; i++) { if (arg[i] == NULL) break; printf("execvp argument %d: %s\n", i, arg[i]); } } if (!arg_command) printf("Child process initialized\n"); execvp(sh, arg); } perror("execvp"); return 0; }