/*
* Part of Very Secure FTPd
* Licence: GPL v2
* Author: Chris Evans
* ftpdataio.c
*
* Code to handle FTP data connections. This includes both PORT (server
* connects) and PASV (client connects) modes of data transfer. This
* includes sends and receives, files and directories.
*/
#include "ftpdataio.h"
#include "session.h"
#include "ftpcmdio.h"
#include "ftpcodes.h"
#include "utility.h"
#include "tunables.h"
#include "defs.h"
#include "str.h"
#include "strlist.h"
#include "sysutil.h"
#include "logging.h"
#include "secbuf.h"
#include "sysstr.h"
#include "sysdeputil.h"
#include "ascii.h"
#include "oneprocess.h"
#include "twoprocess.h"
#include "ls.h"
#include "ssl.h"
#include "readwrite.h"
#include "privsock.h"
static void init_data_sock_params(struct vsf_session* p_sess, int sock_fd);
static filesize_t calc_num_send(int file_fd, filesize_t init_offset);
static struct vsf_transfer_ret do_file_send_sendfile(
struct vsf_session* p_sess, int net_fd, int file_fd,
filesize_t curr_file_offset, filesize_t bytes_to_send);
static struct vsf_transfer_ret do_file_send_rwloop(
struct vsf_session* p_sess, int file_fd, int is_ascii);
static struct vsf_transfer_ret do_file_recv(
struct vsf_session* p_sess, int file_fd, int is_ascii);
static void handle_sigalrm(void* p_private);
static void start_data_alarm(struct vsf_session* p_sess);
static void handle_io(int retval, int fd, void* p_private);
static int transfer_dir_internal(
struct vsf_session* p_sess, int is_control, struct vsf_sysutil_dir* p_dir,
const struct mystr* p_base_dir_str, const struct mystr* p_option_str,
const struct mystr* p_filter_str, int is_verbose);
static int write_dir_list(struct vsf_session* p_sess,
struct mystr_list* p_dir_list,
enum EVSFRWTarget target);
static unsigned int get_chunk_size();
int
vsf_ftpdataio_dispose_transfer_fd(struct vsf_session* p_sess)
{
int dispose_ret = 1;
int retval;
if (p_sess->data_fd == -1)
{
bug("no data descriptor in vsf_ftpdataio_dispose_transfer_fd");
}
vsf_sysutil_uninstall_io_handler();
if (p_sess->data_use_ssl && p_sess->ssl_slave_active)
{
char result;
start_data_alarm(p_sess);
priv_sock_send_cmd(p_sess->ssl_consumer_fd, PRIV_SOCK_DO_SSL_CLOSE);
result = priv_sock_get_result(p_sess->ssl_consumer_fd);
if (result != PRIV_SOCK_RESULT_OK)
{
dispose_ret = 0;
}
}
else if (p_sess->p_data_ssl)
{
start_data_alarm(p_sess);
dispose_ret = ssl_data_close(p_sess);
}
if (!p_sess->abor_received && !p_sess->data_timeout && dispose_ret == 1)
{
/* If we didn't get a failure, linger on the close() in order to get more
* accurate transfer times.
*/
start_data_alarm(p_sess);
vsf_sysutil_activate_linger(p_sess->data_fd);
}
/* This close() blocks because we set SO_LINGER */
retval = vsf_sysutil_close_failok(p_sess->data_fd);
if (vsf_sysutil_retval_is_error(retval))
{
/* Do it again without blocking. */
vsf_sysutil_deactivate_linger_failok(p_sess->data_fd);
(void) vsf_sysutil_close_failok(p_sess->data_fd);
}
p_sess->data_fd = -1;
if (tunable_data_connection_timeout > 0)
{
vsf_sysutil_clear_alarm();
}
if (p_sess->abor_received || p_sess->data_timeout)
{
dispose_ret = 0;
}
return dispose_ret;
}
int
vsf_ftpdataio_get_pasv_fd(struct vsf_session* p_sess)
{
int remote_fd;
if (tunable_one_process_model)
{
remote_fd = vsf_one_process_get_pasv_fd(p_sess);
}
else
{
remote_fd = vsf_two_process_get_pasv_fd(p_sess);
}
/* Yes, yes, hardcoded bad I know. */
if (remote_fd == -1)
{
vsf_cmdio_write(p_sess, FTP_BADSENDCONN,
"Failed to establish connection.");
return remote_fd;
}
else if (remote_fd == -2)
{
vsf_cmdio_write(p_sess, FTP_BADSENDCONN, "Security: Bad IP connecting.");
return -1;
}
init_data_sock_params(p_sess, remote_fd);
return remote_fd;
}
int
vsf_ftpdataio_get_port_fd(struct vsf_session* p_sess)
{
int remote_fd;
if (tunable_one_process_model || tunable_port_promiscuous)
{
remote_fd = vsf_one_process_get_priv_data_sock(p_sess);
}
else
{
remote_fd = vsf_two_process_get_priv_data_sock(p_sess);
}
if (vsf_sysutil_retval_is_error(remote_fd))
{
vsf_cmdio_write(p_sess, FTP_BADSENDCONN,
"Failed to establish connection.");
return -1;
}
init_data_sock_params(p_sess, remote_fd);
return remote_fd;
}
int
vsf_ftpdataio_post_mark_connect(struct vsf_session* p_sess)
{
int ret = 0;
if (!p_sess->data_use_ssl)
{
return 1;
}
if (!p_sess->ssl_slave_active)
{
ret = ssl_accept(p_sess, p_sess->data_fd);
}
else
{
int sock_ret;
priv_sock_send_cmd(p_sess->ssl_consumer_fd, PRIV_SOCK_DO_SSL_HANDSHAKE);
priv_sock_send_fd(p_sess->ssl_consumer_fd, p_sess->data_fd);
sock_ret = priv_sock_get_result(p_sess->ssl_consumer_fd);
if (sock_ret == PRIV_SOCK_RESULT_OK)
{
ret = 1;
}
}
if (ret != 1)
{
if (tunable_require_ssl_reuse)
{
vsf_cmdio_write_exit(p_sess, FTP_DATATLSBAD,
"SSL connection failed: session reuse required", 1);
} else {
vsf_cmdio_write(p_sess, FTP_DATATLSBAD, "SSL connection failed");
}
}
return ret;
}
static void
handle_sigalrm(void* p_private)
{
struct vsf_session* p_sess = (struct vsf_session*) p_private;
if (!p_sess->data_progress)
{
p_sess->data_timeout = 1;
vsf_sysutil_shutdown_failok(p_sess->data_fd);
vsf_sysutil_shutdown_read_failok(VSFTP_COMMAND_FD);
vsf_sysutil_activate_noblock(VSFTP_COMMAND_FD);
}
else
{
p_sess->data_progress = 0;
start_data_alarm(p_sess);
}
}
void
start_data_alarm(struct vsf_session* p_sess)
{
if (tunable_data_connection_timeout > 0)
{
vsf_sysutil_install_sighandler(kVSFSysUtilSigALRM,
handle_sigalrm,
p_sess,
1);
vsf_sysutil_set_alarm(tunable_data_connection_timeout);
}
else if (tunable_idle_session_timeout > 0)
{
vsf_sysutil_clear_alarm();
}
}
static void
init_data_sock_params(struct vsf_session* p_sess, int sock_fd)
{
if (p_sess->data_fd != -1)
{
bug("data descriptor still present in init_data_sock_params");
}
p_sess->data_fd = sock_fd;
p_sess->data_progress = 0;
vsf_sysutil_activate_keepalive(sock_fd);
/* And in the vague hope it might help... */
vsf_sysutil_set_iptos_throughput(sock_fd);
/* Start the timeout monitor */
vsf_sysutil_install_io_handler(handle_io, p_sess);
start_data_alarm(p_sess);
}
static void
handle_io(int retval, int fd, void* p_private)
{
long curr_sec;
long curr_usec;
unsigned int bw_rate;
double elapsed;
double pause_time;
double rate_ratio;
struct vsf_session* p_sess = (struct vsf_session*) p_private;
if (p_sess->data_fd != fd || vsf_sysutil_retval_is_error(retval) ||
retval == 0)
{
return;
}
/* Note that the session hasn't stalled, i.e. don't time it out */
p_sess->data_progress = 1;
/* Apply bandwidth quotas via a little pause, if necessary */
if (p_sess->bw_rate_max == 0)
{
return;
}
/* Calculate bandwidth rate */
curr_sec = vsf_sysutil_get_time_sec();
curr_usec = vsf_sysutil_get_time_usec();
elapsed = (double) (curr_sec - p_sess->bw_send_start_sec);
elapsed += (double) (curr_usec - p_sess->bw_send_start_usec) /
(double) 1000000;
if (elapsed <= (double) 0)
{
elapsed = (double) 0.01;
}
bw_rate = (unsigned int) ((double) retval / elapsed);
if (bw_rate <= p_sess->bw_rate_max)
{
p_sess->bw_send_start_sec = curr_sec;
p_sess->bw_send_start_usec = curr_usec;
return;
}
/* Tut! Rate exceeded, calculate a pause to bring things back into line */
rate_ratio = (double) bw_rate / (double) p_sess->bw_rate_max;
pause_time = (rate_ratio - (double) 1) * elapsed;
vsf_sysutil_sleep(pause_time);
p_sess->bw_send_start_sec = vsf_sysutil_get_time_sec();
p_sess->bw_send_start_usec = vsf_sysutil_get_time_usec();
}
int
vsf_ftpdataio_transfer_dir(struct vsf_session* p_sess, int is_control,
struct vsf_sysutil_dir* p_dir,
const struct mystr* p_base_dir_str,
const struct mystr* p_option_str,
const struct mystr* p_filter_str,
int is_verbose)
{
return transfer_dir_internal(p_sess, is_control, p_dir, p_base_dir_str,
p_option_str, p_filter_str, is_verbose);
}
static int
transfer_dir_internal(struct vsf_session* p_sess, int is_control,
struct vsf_sysutil_dir* p_dir,
const struct mystr* p_base_dir_str,
const struct mystr* p_option_str,
const struct mystr* p_filter_str,
int is_verbose)
{
struct mystr_list dir_list = INIT_STRLIST;
struct mystr_list subdir_list = INIT_STRLIST;
struct mystr dir_prefix_str = INIT_MYSTR;
struct mystr_list* p_subdir_list = 0;
struct str_locate_result loc_result = str_locate_char(p_option_str, 'R');
int failed = 0;
enum EVSFRWTarget target = kVSFRWData;
if (is_control)
{
target = kVSFRWControl;
}
if (loc_result.found && tunable_ls_recurse_enable)
{
p_subdir_list = &subdir_list;
}
vsf_ls_populate_dir_list(&dir_list, p_subdir_list, p_dir, p_base_dir_str,
p_option_str, p_filter_str, is_verbose);
if (p_subdir_list)
{
int retval;
str_copy(&dir_prefix_str, p_base_dir_str);
str_append_text(&dir_prefix_str, ":\r\n");
retval = ftp_write_str(p_sess, &dir_prefix_str, target);
if (retval != 0)
{
failed = 1;
}
}
if (!failed)
{
failed = write_dir_list(p_sess, &dir_list, target);
}
/* Recurse into the subdirectories if required... */
if (!failed)
{
struct mystr sub_str = INIT_MYSTR;
unsigned int num_subdirs = str_list_get_length(&subdir_list);
unsigned int subdir_index;
for (subdir_index = 0; subdir_index < num_subdirs; subdir_index++)
{
int retval;
struct vsf_sysutil_dir* p_subdir;
const struct mystr* p_subdir_str =
str_list_get_pstr(&subdir_list, subdir_index);
if (str_equal_text(p_subdir_str, ".") ||
str_equal_text(p_subdir_str, ".."))
{
continue;
}
str_copy(&sub_str, p_base_dir_str);
str_append_char(&sub_str, '/');
str_append_str(&sub_str, p_subdir_str);
p_subdir = str_opendir(&sub_str);
if (p_subdir == 0)
{
/* Unreadable, gone missing, etc. - no matter */
continue;
}
str_alloc_text(&dir_prefix_str, "\r\n");
retval = ftp_write_str(p_sess, &dir_prefix_str, target);
if (retval != 0)
{
failed = 1;
vsf_sysutil_closedir(p_subdir);
break;
}
retval = transfer_dir_internal(p_sess, is_control, p_subdir, &sub_str,
p_option_str, p_filter_str, is_verbose);
vsf_sysutil_closedir(p_subdir);
if (retval != 0)
{
failed = 1;
break;
}
}
str_free(&sub_str);
}
str_list_free(&dir_list);
str_list_free(&subdir_list);
str_free(&dir_prefix_str);
if (!failed)
{
return 0;
}
else
{
return -1;
}
}
/* XXX - really, this should be refactored into a "buffered writer" object */
static int
write_dir_list(struct vsf_session* p_sess, struct mystr_list* p_dir_list,
enum EVSFRWTarget target)
{
/* This function writes out a list of strings to the client, over the
* data socket. We now coalesce the strings into fewer write() syscalls,
* which saved 33% CPU time writing a large directory.
*/
int retval = 0;
unsigned int dir_index_max = str_list_get_length(p_dir_list);
unsigned int dir_index;
struct mystr buf_str = INIT_MYSTR;
str_reserve(&buf_str, VSFTP_DIR_BUFSIZE);
for (dir_index = 0; dir_index < dir_index_max; dir_index++)
{
str_append_str(&buf_str, str_list_get_pstr(p_dir_list, dir_index));
if (dir_index == dir_index_max - 1 ||
str_getlen(&buf_str) +
str_getlen(str_list_get_pstr(p_dir_list, dir_index + 1)) >
VSFTP_DIR_BUFSIZE)
{
/* Writeout needed - we're either at the end, or we filled the buffer */
int writeret = ftp_write_str(p_sess, &buf_str, target);
if (writeret != 0)
{
retval = 1;
break;
}
str_empty(&buf_str);
}
}
str_free(&buf_str);
return retval;
}
struct vsf_transfer_ret
vsf_ftpdataio_transfer_file(struct vsf_session* p_sess, int remote_fd,
int file_fd, int is_recv, int is_ascii)
{
if (!is_recv)
{
if (is_ascii || p_sess->data_use_ssl)
{
return do_file_send_rwloop(p_sess, file_fd, is_ascii);
}
else
{
filesize_t curr_offset = vsf_sysutil_get_file_offset(file_fd);
filesize_t num_send = calc_num_send(file_fd, curr_offset);
return do_file_send_sendfile(
p_sess, remote_fd, file_fd, curr_offset, num_send);
}
}
else
{
return do_file_recv(p_sess, file_fd, is_ascii);
}
}
static struct vsf_transfer_ret
do_file_send_rwloop(struct vsf_session* p_sess, int file_fd, int is_ascii)
{
static char* p_readbuf;
static char* p_asciibuf;
struct vsf_transfer_ret ret_struct = { 0, 0 };
unsigned int chunk_size = get_chunk_size();
char* p_writefrom_buf;
int prev_cr = 0;
if (p_readbuf == 0)
{
vsf_secbuf_alloc(&p_readbuf, VSFTP_DATA_BUFSIZE);
}
if (is_ascii)
{
if (p_asciibuf == 0)
{
/* NOTE!! * 2 factor because we can double the data by doing our ASCII
* linefeed mangling
*/
vsf_secbuf_alloc(&p_asciibuf, VSFTP_DATA_BUFSIZE * 2);
}
p_writefrom_buf = p_asciibuf;
}
else
{
p_writefrom_buf = p_readbuf;
}
while (1)
{
unsigned int num_to_write;
int retval = vsf_sysutil_read(file_fd, p_readbuf, chunk_size);
if (vsf_sysutil_retval_is_error(retval))
{
ret_struct.retval = -1;
return ret_struct;
}
else if (retval == 0)
{
/* Success - cool */
return ret_struct;
}
if (is_ascii)
{
struct bin_to_ascii_ret ret =
vsf_ascii_bin_to_ascii(p_readbuf,
p_asciibuf,
(unsigned int) retval,
prev_cr);
num_to_write = ret.stored;
prev_cr = ret.last_was_cr;
}
else
{
num_to_write = (unsigned int) retval;
}
retval = ftp_write_data(p_sess, p_writefrom_buf, num_to_write);
if (!vsf_sysutil_retval_is_error(retval))
{
ret_struct.transferred += (unsigned int) retval;
}
if (vsf_sysutil_retval_is_error(retval) ||
(unsigned int) retval != num_to_write)
{
ret_struct.retval = -2;
return ret_struct;
}
}
}
static struct vsf_transfer_ret
do_file_send_sendfile(struct vsf_session* p_sess, int net_fd, int file_fd,
filesize_t curr_file_offset, filesize_t bytes_to_send)
{
int retval;
unsigned int chunk_size = 0;
struct vsf_transfer_ret ret_struct = { 0, 0 };
filesize_t init_file_offset = curr_file_offset;
filesize_t bytes_sent;
if (p_sess->bw_rate_max)
{
chunk_size = get_chunk_size();
}
/* Just because I can ;-) */
retval = vsf_sysutil_sendfile(net_fd, file_fd, &curr_file_offset,
bytes_to_send, chunk_size);
bytes_sent = curr_file_offset - init_file_offset;
ret_struct.transferred = bytes_sent;
if (vsf_sysutil_retval_is_error(retval))
{
ret_struct.retval = -2;
return ret_struct;
}
else if (bytes_sent != bytes_to_send)
{
ret_struct.retval = -2;
return ret_struct;
}
return ret_struct;
}
static filesize_t
calc_num_send(int file_fd, filesize_t init_offset)
{
static struct vsf_sysutil_statbuf* s_p_statbuf;
filesize_t bytes_to_send;
/* Work out how many bytes to send based on file size minus current offset */
vsf_sysutil_fstat(file_fd, &s_p_statbuf);
bytes_to_send = vsf_sysutil_statbuf_get_size(s_p_statbuf);
if (init_offset < 0 || bytes_to_send < 0)
{
die("calc_num_send: negative file offset or send count");
}
/* Don't underflow if some bonehead sets a REST greater than the file size */
if (init_offset > bytes_to_send)
{
bytes_to_send = 0;
}
else
{
bytes_to_send -= init_offset;
}
return bytes_to_send;
}
static struct vsf_transfer_ret
do_file_recv(struct vsf_session* p_sess, int file_fd, int is_ascii)
{
static char* p_recvbuf;
unsigned int num_to_write;
struct vsf_transfer_ret ret_struct = { 0, 0 };
unsigned int chunk_size = get_chunk_size();
int prev_cr = 0;
if (p_recvbuf == 0)
{
/* Now that we do ASCII conversion properly, the plus one is to cater for
* the fact we may need to stick a '\r' at the front of the buffer if the
* last buffer fragment eneded in a '\r' and the current buffer fragment
* does not start with a '\n'.
*/
vsf_secbuf_alloc(&p_recvbuf, VSFTP_DATA_BUFSIZE + 1);
}
while (1)
{
const char* p_writebuf = p_recvbuf + 1;
int retval = ftp_read_data(p_sess, p_recvbuf + 1, chunk_size);
if (vsf_sysutil_retval_is_error(retval))
{
ret_struct.retval = -2;
return ret_struct;
}
else if (retval == 0 && !prev_cr)
{
/* Transfer done, nifty */
return ret_struct;
}
num_to_write = (unsigned int) retval;
ret_struct.transferred += num_to_write;
if (is_ascii)
{
/* Handle ASCII conversion if we have to. Note that using the same
* buffer for source and destination is safe, because the ASCII ->
* binary transform only ever results in a smaller file.
*/
struct ascii_to_bin_ret ret =
vsf_ascii_ascii_to_bin(p_recvbuf, num_to_write, prev_cr);
num_to_write = ret.stored;
prev_cr = ret.last_was_cr;
p_writebuf = ret.p_buf;
}
retval = vsf_sysutil_write_loop(file_fd, p_writebuf, num_to_write);
if (vsf_sysutil_retval_is_error(retval) ||
(unsigned int) retval != num_to_write)
{
ret_struct.retval = -1;
return ret_struct;
}
}
}
static unsigned int
get_chunk_size()
{
unsigned int ret = VSFTP_DATA_BUFSIZE;
if (tunable_trans_chunk_size < VSFTP_DATA_BUFSIZE &&
tunable_trans_chunk_size > 0)
{
ret = tunable_trans_chunk_size;
if (ret < 4096)
{
ret = 4096;
}
}
return ret;
}