/* * The Qubes OS Project, http://www.qubes-os.org * * Copyright (C) 2010 Rafal Wojtczuk * * 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. * * 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. * * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. * */ #include #include #include #include #include #include #include #include #include #include #include #include "qrexec.h" #include "libqrexec-utils.h" enum client_state { CLIENT_INVALID = 0, // table slot not used CLIENT_HELLO, // waiting for client hello CLIENT_CMDLINE, // waiting for cmdline from client CLIENT_RUNNING // waiting for client termination (to release vchan port) }; enum vchan_port_state { VCHAN_PORT_UNUSED = -1 }; struct _client { int state; // enum client_state }; struct _policy_pending { pid_t pid; struct service_params params; int reserved_vchan_port; }; #define VCHAN_BASE_DATA_PORT (VCHAN_BASE_PORT+1) /* The "clients" array is indexed by client's fd. Thus its size must be equal MAX_FDS; defining MAX_CLIENTS for clarity. */ #define MAX_CLIENTS MAX_FDS struct _client clients[MAX_CLIENTS]; // data on all qrexec_client connections struct _policy_pending policy_pending[MAX_CLIENTS]; int policy_pending_max = -1; /* indexed with vchan port number relative to VCHAN_BASE_DATA_PORT; stores * either VCHAN_PORT_* or remote domain id for used port */ int used_vchan_ports[MAX_CLIENTS]; int max_client_fd = -1; // current max fd of all clients; so that we need not to scan all the "clients" table int qrexec_daemon_unix_socket_fd; // /var/run/qubes/qrexec.xid descriptor const char *default_user = "user"; const char default_user_keyword[] = "DEFAULT:"; #define default_user_keyword_len_without_colon (sizeof(default_user_keyword)-2) int opt_quiet = 0; #ifdef __GNUC__ # define UNUSED(x) UNUSED_ ## x __attribute__((__unused__)) #else # define UNUSED(x) UNUSED_ ## x #endif volatile int children_count; libvchan_t *vchan; void sigusr1_handler(int UNUSED(x)) { if (!opt_quiet) fprintf(stderr, "connected\n"); exit(0); } void sigchld_parent_handler(int UNUSED(x)) { children_count--; /* starting value is 0 so we see dead real qrexec-daemon as -1 */ if (children_count < 0) { if (!opt_quiet) fprintf(stderr, "failed\n"); else fprintf(stderr, "Connection to the VM failed\n"); exit(1); } } static void sigchld_handler(int UNUSED(x)); char *remote_domain_name; // guess what int remote_domain_id; void unlink_qrexec_socket() { char socket_address[40]; char link_to_socket_name[strlen(remote_domain_name) + sizeof(socket_address)]; snprintf(socket_address, sizeof(socket_address), QREXEC_DAEMON_SOCKET_DIR "/qrexec.%d", remote_domain_id); snprintf(link_to_socket_name, sizeof link_to_socket_name, QREXEC_DAEMON_SOCKET_DIR "/qrexec.%s", remote_domain_name); unlink(socket_address); unlink(link_to_socket_name); } void handle_vchan_error(const char *op) { fprintf(stderr, "Error while vchan %s, exiting\n", op); exit(1); } int create_qrexec_socket(int domid, const char *domname) { char socket_address[40]; char link_to_socket_name[strlen(domname) + sizeof(socket_address)]; snprintf(socket_address, sizeof(socket_address), QREXEC_DAEMON_SOCKET_DIR "/qrexec.%d", domid); snprintf(link_to_socket_name, sizeof link_to_socket_name, QREXEC_DAEMON_SOCKET_DIR "/qrexec.%s", domname); unlink(link_to_socket_name); if (symlink(socket_address, link_to_socket_name)) { fprintf(stderr, "symlink(%s,%s) failed: %s\n", socket_address, link_to_socket_name, strerror (errno)); } atexit(unlink_qrexec_socket); return get_server_socket(socket_address); } #define MAX_STARTUP_TIME_DEFAULT 60 static void incompatible_protocol_error_message( const char *domain_name, int remote_version) { char text[1024]; int ret; struct stat buf; ret=stat("/usr/bin/kdialog", &buf); #define KDIALOG_CMD "kdialog --title 'Qrexec daemon' --warningyesno " #define ZENITY_CMD "zenity --title 'Qrexec daemon' --question --text " snprintf(text, sizeof(text), "%s" "'Domain %s uses incompatible qrexec protocol (%d instead of %d). " "You need to update either dom0 or VM packages.\n" "To access this VM console do not close this error message and call:\n" "sudo xl console vmname'", ret==0 ? KDIALOG_CMD : ZENITY_CMD, domain_name, remote_version, QREXEC_PROTOCOL_VERSION); #undef KDIALOG_CMD #undef ZENITY_CMD system(text); } int handle_agent_hello(libvchan_t *ctrl, const char *domain_name) { struct msg_header hdr; struct peer_info info; if (libvchan_recv(ctrl, &hdr, sizeof(hdr)) != sizeof(hdr)) { fprintf(stderr, "Failed to read agent HELLO hdr\n"); return -1; } if (hdr.type != MSG_HELLO || hdr.len != sizeof(info)) { fprintf(stderr, "Invalid HELLO packet received: type %d, len %d\n", hdr.type, hdr.len); return -1; } if (libvchan_recv(ctrl, &info, sizeof(info)) != sizeof(info)) { fprintf(stderr, "Failed to read agent HELLO body\n"); return -1; } if (info.version != QREXEC_PROTOCOL_VERSION) { fprintf(stderr, "Incompatible agent protocol version (remote %d, local %d)\n", info.version, QREXEC_PROTOCOL_VERSION); incompatible_protocol_error_message(domain_name, info.version); return -1; } /* send own HELLO */ /* those messages are the same as received from agent, but set it again for * readability */ hdr.type = MSG_HELLO; hdr.len = sizeof(info); info.version = QREXEC_PROTOCOL_VERSION; if (libvchan_send(ctrl, &hdr, sizeof(hdr)) != sizeof(hdr)) { fprintf(stderr, "Failed to send HELLO hdr to agent\n"); return -1; } if (libvchan_send(ctrl, &info, sizeof(info)) != sizeof(info)) { fprintf(stderr, "Failed to send HELLO hdr to agent\n"); return -1; } return 0; } /* do the preparatory tasks, needed before entering the main event loop */ void init(int xid) { char qrexec_error_log_name[256]; int logfd; int i; pid_t pid; int startup_timeout = MAX_STARTUP_TIME_DEFAULT; const char *startup_timeout_str = NULL; if (xid <= 0) { fprintf(stderr, "domain id=0?\n"); exit(1); } startup_timeout_str = getenv("QREXEC_STARTUP_TIMEOUT"); if (startup_timeout_str) { startup_timeout = atoi(startup_timeout_str); if (startup_timeout <= 0) // invalid or negative number startup_timeout = MAX_STARTUP_TIME_DEFAULT; } signal(SIGUSR1, sigusr1_handler); signal(SIGCHLD, sigchld_parent_handler); switch (pid=fork()) { case -1: perror("fork"); exit(1); case 0: break; default: if (getenv("QREXEC_STARTUP_NOWAIT")) exit(0); if (!opt_quiet) fprintf(stderr, "Waiting for VM's qrexec agent."); for (i=0;i= MAX_CLIENTS) { fprintf(stderr, "too many clients ?\n"); exit(1); } if (send_client_hello(fd) < 0) { close(fd); clients[fd].state = CLIENT_INVALID; return; } clients[fd].state = CLIENT_HELLO; if (fd > max_client_fd) max_client_fd = fd; } static void terminate_client(int fd) { clients[fd].state = CLIENT_INVALID; close(fd); } static int handle_cmdline_body_from_client(int fd, struct msg_header *hdr) { struct exec_params params; int len = hdr->len-sizeof(params); char buf[len]; int use_default_user = 0; if (!read_all(fd, ¶ms, sizeof(params))) { terminate_client(fd); return 0; } if (!read_all(fd, buf, len)) { terminate_client(fd); return 0; } if (!params.connect_port) { struct exec_params client_params; /* allocate port and send it to the client */ params.connect_port = allocate_vchan_port(params.connect_domain); if (params.connect_port <= 0) { fprintf(stderr, "Failed to allocate new vchan port, too many clients?\n"); terminate_client(fd); return 0; } client_params.connect_port = params.connect_port; client_params.connect_domain = remote_domain_id; hdr->len = sizeof(client_params); if (!write_all(fd, hdr, sizeof(*hdr))) { terminate_client(fd); release_vchan_port(params.connect_port, params.connect_domain); return 0; } if (!write_all(fd, &client_params, sizeof(client_params))) { terminate_client(fd); release_vchan_port(params.connect_port, params.connect_domain); return 0; } /* restore original len value */ hdr->len = len+sizeof(params); } else { assert(params.connect_port >= VCHAN_BASE_DATA_PORT); assert(params.connect_port < VCHAN_BASE_DATA_PORT+MAX_CLIENTS); } if (!strncmp(buf, default_user_keyword, default_user_keyword_len_without_colon+1)) { use_default_user = 1; hdr->len -= default_user_keyword_len_without_colon; hdr->len += strlen(default_user); } if (libvchan_send(vchan, hdr, sizeof(*hdr)) < 0) handle_vchan_error("send"); if (libvchan_send(vchan, ¶ms, sizeof(params)) < 0) handle_vchan_error("send params"); if (use_default_user) { if (libvchan_send(vchan, default_user, strlen(default_user)) < 0) handle_vchan_error("send default_user"); if (libvchan_send(vchan, buf+default_user_keyword_len_without_colon, len-default_user_keyword_len_without_colon) < 0) handle_vchan_error("send buf"); } else if (libvchan_send(vchan, buf, len) < 0) handle_vchan_error("send buf"); return 1; } static void handle_cmdline_message_from_client(int fd) { struct msg_header hdr; if (!read_all(fd, &hdr, sizeof hdr)) { terminate_client(fd); return; } switch (hdr.type) { case MSG_EXEC_CMDLINE: case MSG_JUST_EXEC: case MSG_SERVICE_CONNECT: break; default: terminate_client(fd); return; } if (!handle_cmdline_body_from_client(fd, &hdr)) // client disconnected while sending cmdline, above call already // cleaned up client info return; clients[fd].state = CLIENT_RUNNING; } static void handle_client_hello(int fd) { struct msg_header hdr; struct peer_info info; if (!read_all(fd, &hdr, sizeof hdr)) { terminate_client(fd); return; } if (hdr.type != MSG_HELLO || hdr.len != sizeof(info)) { fprintf(stderr, "Invalid HELLO packet received from client %d: " "type %d, len %d\n", fd, hdr.type, hdr.len); terminate_client(fd); return; } if (!read_all(fd, &info, sizeof info)) { terminate_client(fd); return; } if (info.version != QREXEC_PROTOCOL_VERSION) { fprintf(stderr, "Incompatible client protocol version (remote %d, local %d)\n", info.version, QREXEC_PROTOCOL_VERSION); terminate_client(fd); return; } clients[fd].state = CLIENT_CMDLINE; } /* handle data received from one of qrexec_client processes */ static void handle_message_from_client(int fd) { char buf[MAX_DATA_CHUNK]; switch (clients[fd].state) { case CLIENT_HELLO: handle_client_hello(fd); return; case CLIENT_CMDLINE: handle_cmdline_message_from_client(fd); return; case CLIENT_RUNNING: // expected EOF if (read(fd, buf, sizeof(buf)) != 0) { fprintf(stderr, "Unexpected data received from client %d\n", fd); } terminate_client(fd); return; default: fprintf(stderr, "Invalid client state %d\n", clients[fd].state); exit(1); } } /* * The signal handler executes asynchronously; therefore all it should do is * to set a flag "signal has arrived", and let the main even loop react to this * flag in appropriate moment. */ int child_exited; static void sigchld_handler(int UNUSED(x)) { child_exited = 1; signal(SIGCHLD, sigchld_handler); } static void send_service_refused(libvchan_t *vchan, struct service_params *params) { struct msg_header hdr; hdr.type = MSG_SERVICE_REFUSED; hdr.len = sizeof(*params); if (libvchan_send(vchan, &hdr, sizeof(hdr)) != sizeof(hdr)) { fprintf(stderr, "Failed to send MSG_SERVICE_REFUSED hdr to agent\n"); exit(1); } if (libvchan_send(vchan, params, sizeof(*params)) != sizeof(*params)) { fprintf(stderr, "Failed to send MSG_SERVICE_REFUSED to agent\n"); exit(1); } } /* clean zombies, check for denied service calls */ static void reap_children() { int status; int i; pid_t pid; while ((pid=waitpid(-1, &status, WNOHANG)) > 0) { /* FIXME: perhaps keep max(policy_pending) somewhere to optimize this * search */ for (i = 0; i <= policy_pending_max; i++) { if (policy_pending[i].pid == pid) { status = WEXITSTATUS(status); if (status != 0) { send_service_refused(vchan, &policy_pending[i].params); } /* in case of allowed calls, we will do the rest in * MSG_SERVICE_CONNECT from client handler */ policy_pending[i].pid = 0; while (policy_pending_max > 0 && policy_pending[policy_pending_max].pid > 0) policy_pending_max--; break; } } } child_exited = 0; } static int find_policy_pending_slot() { int i; for (i = 0; i < MAX_CLIENTS; i++) { if (policy_pending[i].pid == 0) { if (i > policy_pending_max) policy_pending_max = i; return i; } } return -1; } static void sanitize_name(char * untrusted_s_signed) { unsigned char * untrusted_s; for (untrusted_s=(unsigned char*)untrusted_s_signed; *untrusted_s; untrusted_s++) { if (*untrusted_s >= 'a' && *untrusted_s <= 'z') continue; if (*untrusted_s >= 'A' && *untrusted_s <= 'Z') continue; if (*untrusted_s >= '0' && *untrusted_s <= '9') continue; if (*untrusted_s == '$' || *untrusted_s == '_' || *untrusted_s == '-' || *untrusted_s == '.' || *untrusted_s == ' ') continue; *untrusted_s = '_'; } } #define ENSURE_NULL_TERMINATED(x) x[sizeof(x)-1] = 0 /* * Called when agent sends a message asking to execute a predefined command. */ static void handle_execute_service(void) { int i; int policy_pending_slot; pid_t pid; struct trigger_service_params untrusted_params, params; char remote_domain_id_str[10]; if (libvchan_recv(vchan, &untrusted_params, sizeof(untrusted_params)) < 0) handle_vchan_error("recv params"); /* sanitize start */ ENSURE_NULL_TERMINATED(untrusted_params.service_name); ENSURE_NULL_TERMINATED(untrusted_params.target_domain); ENSURE_NULL_TERMINATED(untrusted_params.request_id.ident); sanitize_name(untrusted_params.service_name); sanitize_name(untrusted_params.target_domain); sanitize_name(untrusted_params.request_id.ident); params = untrusted_params; /* sanitize end */ policy_pending_slot = find_policy_pending_slot(); if (policy_pending_slot < 0) { fprintf(stderr, "Service request denied, too many pending requests\n"); send_service_refused(vchan, &untrusted_params.request_id); return; } switch (pid=fork()) { case -1: perror("fork"); exit(1); case 0: break; default: policy_pending[policy_pending_slot].pid = pid; policy_pending[policy_pending_slot].params = untrusted_params.request_id; return; } for (i = 3; i < MAX_FDS; i++) close(i); signal(SIGCHLD, SIG_DFL); signal(SIGPIPE, SIG_DFL); snprintf(remote_domain_id_str, sizeof(remote_domain_id_str), "%d", remote_domain_id); execl("/usr/lib/qubes/qrexec-policy", "qrexec-policy", remote_domain_id_str, remote_domain_name, params.target_domain, params.service_name, params.request_id.ident, NULL); perror("execl"); _exit(1); } static void handle_connection_terminated() { struct exec_params untrusted_params, params; if (libvchan_recv(vchan, &untrusted_params, sizeof(untrusted_params)) < 0) handle_vchan_error("recv params"); /* sanitize start */ if (untrusted_params.connect_port < VCHAN_BASE_DATA_PORT || untrusted_params.connect_port >= VCHAN_BASE_DATA_PORT+MAX_CLIENTS) { fprintf(stderr, "Invalid port in MSG_CONNECTION_TERMINATED (%d)\n", untrusted_params.connect_port); exit(1); } /* untrusted_params.connect_domain even if invalid will not harm - in worst * case the port will not be released */ params = untrusted_params; /* sanitize end */ release_vchan_port(params.connect_port, params.connect_domain); } static void sanitize_message_from_agent(struct msg_header *untrusted_header) { switch (untrusted_header->type) { case MSG_TRIGGER_SERVICE: if (untrusted_header->len != sizeof(struct trigger_service_params)) { fprintf(stderr, "agent sent invalid MSG_TRIGGER_SERVICE packet\n"); exit(1); } break; case MSG_CONNECTION_TERMINATED: if (untrusted_header->len != sizeof(struct exec_params)) { fprintf(stderr, "agent sent invalid MSG_CONNECTION_TERMINATED packet\n"); exit(1); } break; default: fprintf(stderr, "unknown mesage type 0x%x from agent\n", untrusted_header->type); exit(1); } } static void handle_message_from_agent(void) { struct msg_header hdr, untrusted_hdr; if (libvchan_recv(vchan, &untrusted_hdr, sizeof(untrusted_hdr)) < 0) handle_vchan_error("recv hdr"); /* sanitize start */ sanitize_message_from_agent(&untrusted_hdr); hdr = untrusted_hdr; /* sanitize end */ // fprintf(stderr, "got %x %x %x\n", hdr.type, hdr.client_id, // hdr.len); switch (hdr.type) { case MSG_TRIGGER_SERVICE: handle_execute_service(); return; case MSG_CONNECTION_TERMINATED: handle_connection_terminated(); return; } } /* * Scan the "clients" table, add ones we want to read from (because the other * end has not send MSG_XOFF on them) to read_fdset, add ones we want to write * to (because its pipe is full) to write_fdset. Return the highest used file * descriptor number, needed for the first select() parameter. */ static int fill_fdsets_for_select(fd_set * read_fdset, fd_set * write_fdset) { int i; int max = -1; FD_ZERO(read_fdset); FD_ZERO(write_fdset); for (i = 0; i <= max_client_fd; i++) { if (clients[i].state != CLIENT_INVALID) { FD_SET(i, read_fdset); max = i; } } FD_SET(qrexec_daemon_unix_socket_fd, read_fdset); if (qrexec_daemon_unix_socket_fd > max) max = qrexec_daemon_unix_socket_fd; return max; } int main(int argc, char **argv) { fd_set read_fdset, write_fdset; int i, opt; int max; sigset_t chld_set; while ((opt=getopt(argc, argv, "q")) != -1) { switch (opt) { case 'q': opt_quiet = 1; break; default: /* '?' */ fprintf(stderr, "usage: %s [-q] domainid domain-name [default user]\n", argv[0]); exit(1); } } if (argc - optind < 2 || argc - optind > 3) { fprintf(stderr, "usage: %s [-q] domainid domain-name [default user]\n", argv[0]); exit(1); } remote_domain_id = atoi(argv[optind]); remote_domain_name = argv[optind+1]; if (argc - optind >= 3) default_user = argv[optind+2]; init(remote_domain_id); sigemptyset(&chld_set); sigaddset(&chld_set, SIGCHLD); signal(SIGCHLD, sigchld_handler); /* * The main event loop. Waits for one of the following events: * - message from client * - message from agent * - new client * - child exited */ for (;;) { max = fill_fdsets_for_select(&read_fdset, &write_fdset); if (libvchan_buffer_space(vchan) <= (int)sizeof(struct msg_header)) FD_ZERO(&read_fdset); // vchan full - don't read from clients sigprocmask(SIG_BLOCK, &chld_set, NULL); if (child_exited) reap_children(); wait_for_vchan_or_argfd(vchan, max, &read_fdset, &write_fdset); sigprocmask(SIG_UNBLOCK, &chld_set, NULL); if (FD_ISSET(qrexec_daemon_unix_socket_fd, &read_fdset)) handle_new_client(); while (libvchan_data_ready(vchan)) handle_message_from_agent(); for (i = 0; i <= max_client_fd; i++) if (clients[i].state != CLIENT_INVALID && FD_ISSET(i, &read_fdset)) handle_message_from_client(i); } } // vim:ts=4:sw=4:et: