qubes-core-admin-linux/qrexec/qrexec-daemon.c

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/*
* The Qubes OS Project, http://www.qubes-os.org
*
* Copyright (C) 2010 Rafal Wojtczuk <rafal@invisiblethingslab.com>
*
* 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 <sys/select.h>
#include <stdio.h>
#include <stdlib.h>
#include <unistd.h>
#include <signal.h>
#include <errno.h>
#include <fcntl.h>
#include <sys/stat.h>
#include <sys/wait.h>
#include <string.h>
#include "qrexec.h"
#include "libqrexec-utils.h"
enum client_flags {
CLIENT_INVALID = 0, // table slot not used
CLIENT_CMDLINE = 1, // waiting for cmdline from client
CLIENT_DATA = 2, // waiting for data from client
CLIENT_DONT_READ = 4, // don't read from the client, the other side pipe is full, or EOF (additionally marked with CLIENT_EOF)
CLIENT_OUTQ_FULL = 8, // don't write to client, its stdin pipe is full
CLIENT_EOF = 16, // got EOF
CLIENT_EXITED = 32 // only send remaining data from client and remove from list
};
struct _client {
int state; // combination of above enum client_flags
struct buffer buffer; // buffered data to client, if any
};
/*
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
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)
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#ifdef __GNUC__
# define UNUSED(x) UNUSED_ ## x __attribute__((__unused__))
#else
# define UNUSED(x) UNUSED_ ## x
#endif
/*
we need to track the number of children, so that excessive QREXEC_EXECUTE_*
commands do not fork-bomb dom0
*/
volatile int children_count;
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void sigusr1_handler(int UNUSED(x))
{
fprintf(stderr, "connected\n");
exit(0);
}
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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) {
fprintf(stderr, "failed\n");
exit(1);
}
}
void sigchld_handler(int x);
const char *remote_domain_name; // guess what
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int remote_domain_xid; // guess what
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_xid);
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);
}
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);
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if (symlink(socket_address, link_to_socket_name)) {
fprintf(stderr, "symlink(%s,%s) failed: %s\n", socket_address,
link_to_socket_name, strerror (errno));
}
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atexit(unlink_qrexec_socket);
return get_server_socket(socket_address);
}
#define MAX_STARTUP_TIME_DEFAULT 60
/* 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);
fprintf(stderr, "Waiting for VM's qrexec agent.");
for (i=0;i<startup_timeout;i++) {
sleep(1);
fprintf(stderr, ".");
if (i==startup_timeout-1) {
break;
}
}
fprintf(stderr, "Cannot connect to qrexec agent for %d seconds, still trying in the background\n", startup_timeout);
exit(1);
}
close(0);
snprintf(qrexec_error_log_name, sizeof(qrexec_error_log_name),
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"/var/log/qubes/qrexec.%s.log", remote_domain_name);
umask(0007); // make the log readable by the "qubes" group
logfd =
open(qrexec_error_log_name, O_WRONLY | O_CREAT | O_TRUNC,
0640);
if (logfd < 0) {
perror("open");
exit(1);
}
dup2(logfd, 1);
dup2(logfd, 2);
chdir("/var/run/qubes");
if (setsid() < 0) {
perror("setsid()");
exit(1);
}
peer_client_init(xid, REXEC_PORT);
if (setgid(getgid()) < 0) {
perror("setgid()");
exit(1);
}
if (setuid(getuid()) < 0) {
perror("setuid()");
exit(1);
}
/* When running as root, make the socket accessible; perms on /var/run/qubes still apply */
umask(0);
qrexec_daemon_unix_socket_fd =
create_qrexec_socket(xid, remote_domain_name);
umask(0077);
signal(SIGPIPE, SIG_IGN);
signal(SIGCHLD, sigchld_handler);
signal(SIGUSR1, SIG_DFL);
kill(getppid(), SIGUSR1); // let the parent know we are ready
}
void handle_new_client(void)
{
int fd = do_accept(qrexec_daemon_unix_socket_fd);
if (fd >= MAX_CLIENTS) {
fprintf(stderr, "too many clients ?\n");
exit(1);
}
clients[fd].state = CLIENT_CMDLINE;
buffer_init(&clients[fd].buffer);
if (fd > max_client_fd)
max_client_fd = fd;
}
void terminate_client_and_flush_data(int fd)
{
int i;
struct server_header s_hdr;
if (!(clients[fd].state & CLIENT_EXITED) && fork_and_flush_stdin(fd, &clients[fd].buffer))
children_count++;
close(fd);
clients[fd].state = CLIENT_INVALID;
buffer_free(&clients[fd].buffer);
if (max_client_fd == fd) {
for (i = fd; i >= 0 && clients[i].state == CLIENT_INVALID;
i--);
max_client_fd = i;
}
s_hdr.type = MSG_SERVER_TO_AGENT_CLIENT_END;
s_hdr.client_id = fd;
s_hdr.len = 0;
write_all_vchan_ext(&s_hdr, sizeof(s_hdr));
}
int get_cmdline_body_from_client_and_pass_to_agent(int fd, struct server_header
*s_hdr)
{
int len = s_hdr->len;
char buf[len];
int use_default_user = 0;
if (!read_all(fd, buf, len)) {
terminate_client_and_flush_data(fd);
return 0;
}
if (!strncmp(buf, default_user_keyword, default_user_keyword_len_without_colon+1)) {
use_default_user = 1;
s_hdr->len -= default_user_keyword_len_without_colon; // -1 because of colon
s_hdr->len += strlen(default_user);
}
write_all_vchan_ext(s_hdr, sizeof(*s_hdr));
if (use_default_user) {
write_all_vchan_ext(default_user, strlen(default_user));
write_all_vchan_ext(buf+default_user_keyword_len_without_colon, len-default_user_keyword_len_without_colon);
} else
write_all_vchan_ext(buf, len);
return 1;
}
void handle_cmdline_message_from_client(int fd)
{
struct client_header hdr;
struct server_header s_hdr;
if (!read_all(fd, &hdr, sizeof hdr)) {
terminate_client_and_flush_data(fd);
return;
}
switch (hdr.type) {
case MSG_CLIENT_TO_SERVER_EXEC_CMDLINE:
s_hdr.type = MSG_SERVER_TO_AGENT_EXEC_CMDLINE;
break;
case MSG_CLIENT_TO_SERVER_JUST_EXEC:
s_hdr.type = MSG_SERVER_TO_AGENT_JUST_EXEC;
break;
case MSG_CLIENT_TO_SERVER_CONNECT_EXISTING:
s_hdr.type = MSG_SERVER_TO_AGENT_CONNECT_EXISTING;
break;
default:
terminate_client_and_flush_data(fd);
return;
}
s_hdr.client_id = fd;
s_hdr.len = hdr.len;
if (!get_cmdline_body_from_client_and_pass_to_agent(fd, &s_hdr))
// client disconnected while sending cmdline, above call already
// cleaned up client info
return;
clients[fd].state = CLIENT_DATA;
set_nonblock(fd); // so that we can detect full queue without blocking
if (hdr.type == MSG_CLIENT_TO_SERVER_JUST_EXEC)
terminate_client_and_flush_data(fd);
}
/* handle data received from one of qrexec_client processes */
void handle_message_from_client(int fd)
{
struct server_header s_hdr;
char buf[MAX_DATA_CHUNK];
unsigned int len;
int ret;
if (clients[fd].state == CLIENT_CMDLINE) {
handle_cmdline_message_from_client(fd);
return;
}
// We have already passed cmdline from client.
// Now the client passes us raw data from its stdin.
len = buffer_space_vchan_ext();
if (len <= sizeof s_hdr)
return;
/* Read at most the amount of data that we have room for in vchan */
ret = read(fd, buf, len - sizeof(s_hdr));
if (ret < 0) {
perror("read client");
terminate_client_and_flush_data(fd);
return;
}
s_hdr.client_id = fd;
s_hdr.len = ret;
s_hdr.type = MSG_SERVER_TO_AGENT_INPUT;
write_all_vchan_ext(&s_hdr, sizeof(s_hdr));
write_all_vchan_ext(buf, ret);
if (ret == 0) // EOF - so don't select() on this client
clients[fd].state |= CLIENT_DONT_READ | CLIENT_EOF;
if (clients[fd].state & CLIENT_EXITED)
//client already exited and all data sent - cleanup now
terminate_client_and_flush_data(fd);
}
/*
Called when there is buffered data for this client, and select() reports
that client's pipe is writable; so we should be able to flush some
buffered data.
*/
void write_buffered_data_to_client(int client_id)
{
switch (flush_client_data
(client_id, client_id, &clients[client_id].buffer)) {
case WRITE_STDIN_OK: // no more buffered data
clients[client_id].state &= ~CLIENT_OUTQ_FULL;
break;
case WRITE_STDIN_ERROR:
// do not write to this fd anymore
clients[client_id].state |= CLIENT_EXITED;
if (clients[client_id].state & CLIENT_EOF)
terminate_client_and_flush_data(client_id);
else
// client will be removed when read returns 0 (EOF)
// clear CLIENT_OUTQ_FULL flag to no select on this fd anymore
clients[client_id].state &= ~CLIENT_OUTQ_FULL;
break;
case WRITE_STDIN_BUFFERED: // no room for all data, don't clear CLIENT_OUTQ_FULL flag
break;
default:
fprintf(stderr, "unknown flush_client_data?\n");
exit(1);
}
}
/*
The header (hdr argument) is already built. Just read the raw data from
the packet, and pass it along with the header to the client.
*/
void get_packet_data_from_agent_and_pass_to_client(int client_id, struct client_header
*hdr)
{
int len = hdr->len;
char buf[sizeof(*hdr) + len];
/* make both the header and data be consecutive in the buffer */
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memcpy(buf, hdr, sizeof(*hdr));
read_all_vchan_ext(buf + sizeof(*hdr), len);
if (clients[client_id].state & CLIENT_EXITED)
// ignore data for no longer running client
return;
switch (write_stdin
(client_id, client_id, buf, len + sizeof(*hdr),
&clients[client_id].buffer)) {
case WRITE_STDIN_OK:
break;
case WRITE_STDIN_BUFFERED: // some data have been buffered
clients[client_id].state |= CLIENT_OUTQ_FULL;
break;
case WRITE_STDIN_ERROR:
// do not write to this fd anymore
clients[client_id].state |= CLIENT_EXITED;
// if already got EOF, remove client
if (clients[client_id].state & CLIENT_EOF)
terminate_client_and_flush_data(client_id);
break;
default:
fprintf(stderr, "unknown write_stdin?\n");
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;
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void sigchld_handler(int UNUSED(x))
{
child_exited = 1;
signal(SIGCHLD, sigchld_handler);
}
/* clean zombies, update children_count */
void reap_children(void)
{
int status;
while (waitpid(-1, &status, WNOHANG) > 0)
children_count--;
child_exited = 0;
}
/* too many children - wait for one of them to terminate */
void wait_for_child(void)
{
int status;
waitpid(-1, &status, 0);
children_count--;
}
#define MAX_CHILDREN 10
void check_children_count_and_wait_if_too_many(void)
{
if (children_count > MAX_CHILDREN) {
fprintf(stderr,
"max number of children reached, waiting for child exit...\n");
wait_for_child();
fprintf(stderr, "now children_count=%d, continuing.\n",
children_count);
}
}
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.
*/
void handle_execute_predefined_command(void)
{
int i;
struct trigger_connect_params untrusted_params, params;
check_children_count_and_wait_if_too_many();
read_all_vchan_ext(&untrusted_params, sizeof(params));
/* sanitize start */
ENSURE_NULL_TERMINATED(untrusted_params.exec_index);
ENSURE_NULL_TERMINATED(untrusted_params.target_vmname);
ENSURE_NULL_TERMINATED(untrusted_params.process_fds.ident);
sanitize_name(untrusted_params.exec_index);
sanitize_name(untrusted_params.target_vmname);
sanitize_name(untrusted_params.process_fds.ident);
params = untrusted_params;
/* sanitize end */
switch (fork()) {
case -1:
perror("fork");
exit(1);
case 0:
break;
default:
children_count++;
return;
}
for (i = 3; i < MAX_FDS; i++)
close(i);
signal(SIGCHLD, SIG_DFL);
signal(SIGPIPE, SIG_DFL);
execl("/usr/lib/qubes/qrexec-policy", "qrexec-policy",
remote_domain_name, params.target_vmname,
params.exec_index, params.process_fds.ident, NULL);
perror("execl");
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_exit(1);
}
void check_client_id_in_range(unsigned int untrusted_client_id)
{
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if (untrusted_client_id >= MAX_CLIENTS) {
fprintf(stderr, "from agent: client_id=%d\n",
untrusted_client_id);
exit(1);
}
}
void sanitize_message_from_agent(struct server_header *untrusted_header)
{
switch (untrusted_header->type) {
case MSG_AGENT_TO_SERVER_TRIGGER_CONNECT_EXISTING:
break;
case MSG_AGENT_TO_SERVER_STDOUT:
case MSG_AGENT_TO_SERVER_STDERR:
case MSG_AGENT_TO_SERVER_EXIT_CODE:
check_client_id_in_range(untrusted_header->client_id);
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if (untrusted_header->len > MAX_DATA_CHUNK) {
fprintf(stderr, "agent feeded %d of data bytes?\n",
untrusted_header->len);
exit(1);
}
break;
case MSG_XOFF:
case MSG_XON:
check_client_id_in_range(untrusted_header->client_id);
break;
default:
fprintf(stderr, "unknown mesage type %d from agent\n",
untrusted_header->type);
exit(1);
}
}
void handle_message_from_agent(void)
{
struct client_header hdr;
struct server_header s_hdr, untrusted_s_hdr;
read_all_vchan_ext(&untrusted_s_hdr, sizeof untrusted_s_hdr);
/* sanitize start */
sanitize_message_from_agent(&untrusted_s_hdr);
s_hdr = untrusted_s_hdr;
/* sanitize end */
// fprintf(stderr, "got %x %x %x\n", s_hdr.type, s_hdr.client_id,
// s_hdr.len);
if (s_hdr.type == MSG_AGENT_TO_SERVER_TRIGGER_CONNECT_EXISTING) {
handle_execute_predefined_command();
return;
}
if (s_hdr.type == MSG_XOFF) {
clients[s_hdr.client_id].state |= CLIENT_DONT_READ;
return;
}
if (s_hdr.type == MSG_XON) {
clients[s_hdr.client_id].state &= ~CLIENT_DONT_READ;
return;
}
switch (s_hdr.type) {
case MSG_AGENT_TO_SERVER_STDOUT:
hdr.type = MSG_SERVER_TO_CLIENT_STDOUT;
break;
case MSG_AGENT_TO_SERVER_STDERR:
hdr.type = MSG_SERVER_TO_CLIENT_STDERR;
break;
case MSG_AGENT_TO_SERVER_EXIT_CODE:
hdr.type = MSG_SERVER_TO_CLIENT_EXIT_CODE;
break;
default: /* cannot happen, already sanitized */
fprintf(stderr, "from agent: type=%d\n", s_hdr.type);
exit(1);
}
hdr.len = s_hdr.len;
if (clients[s_hdr.client_id].state == CLIENT_INVALID) {
// benefit of doubt - maybe client exited earlier
// just eat the packet data and continue
char buf[MAX_DATA_CHUNK];
read_all_vchan_ext(buf, s_hdr.len);
return;
}
get_packet_data_from_agent_and_pass_to_client(s_hdr.client_id,
&hdr);
if (s_hdr.type == MSG_AGENT_TO_SERVER_EXIT_CODE)
terminate_client_and_flush_data(s_hdr.client_id);
}
/*
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.
*/
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
&& !(clients[i].state & CLIENT_DONT_READ)) {
FD_SET(i, read_fdset);
max = i;
}
if (clients[i].state != CLIENT_INVALID
&& clients[i].state & CLIENT_OUTQ_FULL) {
FD_SET(i, write_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;
int max;
sigset_t chld_set;
if (argc != 3 && argc != 4) {
fprintf(stderr, "usage: %s domainid domain-name [default user]\n", argv[0]);
exit(1);
}
remote_domain_name = argv[2];
if (argc == 4)
default_user = argv[3];
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remote_domain_xid = atoi(argv[1]);
init(remote_domain_xid);
sigemptyset(&chld_set);
sigaddset(&chld_set, SIGCHLD);
/*
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 (buffer_space_vchan_ext() <=
sizeof(struct server_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(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 (read_ready_vchan_ext())
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);
for (i = 0; i <= max_client_fd; i++)
if (clients[i].state != CLIENT_INVALID
&& FD_ISSET(i, &write_fdset))
write_buffered_data_to_client(i);
}
}