void copy_data_test(SshStream s1, SshStream s2)
{
ts1 = s1;
ts2 = s2;
create_testdata();
if (received_data)
ssh_buffer_clear(received_data);
else
received_data = ssh_buffer_allocate();
test_data_index = 0;
destroy_count = 0;
reader_sent_eof = FALSE;
ssh_stream_set_callback(s1, copy_writer, NULL);
ssh_stream_set_callback(s2, copy_reader, NULL);
ssh_event_loop_run();
if (destroy_count != 2 || ts1 != NULL || ts2 != NULL)
ssh_fatal("copy_data_test: one stream not destroyed");
if (ssh_buffer_len(received_data) > ssh_buffer_len(testdata))
ssh_fatal("copy_data_test: received more data than sent");
if (break_test)
ssh_buffer_consume_end(testdata,
ssh_buffer_len(testdata)
- ssh_buffer_len(received_data));
if (ssh_buffer_len(testdata) != ssh_buffer_len(received_data))
ssh_fatal("copy_data_test: data lens differ");
if (memcmp(ssh_buffer_ptr(testdata), ssh_buffer_ptr(received_data),
ssh_buffer_len(testdata)) != 0)
ssh_fatal("copy_data_test: received data differs");
}
/* Read attached file so that buffer size exceeds argument bytes. */
Boolean ssh_file_buffer_expand(SshFileBuffer buf, size_t bytes)
{
size_t len, need_bytes;
unsigned char *newdata;
SSH_ASSERT(buf != NULL);
len = ssh_buffer_len(&(buf->buf));
if (len >= bytes)
return TRUE;
if (!ssh_file_buffer_attached(buf))
return FALSE;
need_bytes = bytes - len;
bytes = ((need_bytes > SSH_FILE_BUFFER_MINIMUM_READ) ?
need_bytes :
SSH_FILE_BUFFER_MINIMUM_READ);
ssh_buffer_append_space(&(buf->buf), &newdata, bytes);
SSH_ASSERT(newdata != NULL);
if (buf->read_callback == NULL_FNPTR)
{
SSH_DEBUG(5, ("attempting to read %d bytes with fread", (int)bytes));
len = fread(newdata, 1, bytes, buf->f);
}
else
{
SSH_DEBUG(5, ("attempting to read %d bytes with callback", (int)bytes));
len = buf->read_callback(newdata, bytes, buf->read_context);
}
SSH_ASSERT(len <= bytes);
if (len < need_bytes)
{
ssh_buffer_consume_end(&(buf->buf), bytes - len);
ssh_file_buffer_detach(buf);
return FALSE;
}
else if (len < bytes)
{
ssh_buffer_consume_end(&(buf->buf), bytes - len);
}
return TRUE;
}
Boolean ssh_packet_wrapper_input(SshPacketWrapper down)
{
size_t data_to_read, data_read;
int ret;
unsigned char *ptr;
SshPacketType type;
Boolean return_value = FALSE;
for (;;)
{
/* If we cannot receive, return immediately. */
if (!down->can_receive || down->incoming_eof || down->destroy_pending ||
down->shortcircuit_up_stream != NULL)
return return_value;
/* Get length of data read so far. */
data_read = ssh_buffer_len(&down->incoming);
/* Add enough space to buffer for reading either header or
entire packet. This also sets `ptr' to point to the place
where data should be read, and `data_to_read' to the number
of bytes that should be there after reading (should read
data_to_read - data_read bytes). */
if (data_read < 4)
{
/* Packet header not yet in buffer. Read only header. */
data_to_read = 4;
ssh_buffer_append_space(&down->incoming, &ptr, 4 - data_read);
}
else
{
/* Packet header already in buffer. */
ptr = ssh_buffer_ptr(&down->incoming);
data_to_read = 4 + SSH_GET_32BIT(ptr);
if (data_to_read > 100000000L)
ssh_fatal("ssh_packet_wrapper_input: "
"invalid packet received: len %ld",
(long)data_to_read);
SSH_ASSERT(data_to_read > data_read);
ssh_buffer_append_space(&down->incoming, &ptr,
data_to_read - data_read);
}
/* Keep reading until entire packet read, or no more data available. */
while (data_read < data_to_read)
{
/* Try to read the remaining bytes. */
ptr = (unsigned char *)ssh_buffer_ptr(&down->incoming) + data_read;
ret = ssh_stream_read(down->stream, ptr, data_to_read - data_read);
if (ret < 0)
{
/* No more data available at this time. Remove
allocated but unread space from end of buffer. */
ssh_buffer_consume_end(&down->incoming,
data_to_read - data_read);
return return_value;
}
if (ret == 0)
{
/* EOF received. */
ssh_buffer_consume_end(&down->incoming,
data_to_read - data_read);
down->incoming_eof = TRUE;
/* Pass the EOF to the application callback. */
down->cannot_destroy = TRUE;
if (down->received_eof)
(*down->received_eof)(down->context);
down->cannot_destroy = FALSE;
if (down->destroy_requested)
{
ssh_packet_wrapper_destroy(down);
return FALSE;
}
return TRUE;
}
if (data_read < 4 && data_read + ret >= 4)
{
/* Header has now been fully received. Prepare to receive rest
of packet. */
data_read += ret;
ptr = ssh_buffer_ptr(&down->incoming);
data_to_read = 4 + SSH_GET_32BIT(ptr);
if (data_to_read > 100000000L)
ssh_fatal("ssh_packet_wrapper_input: "
"invalid packet received: len %ld",
(long)data_to_read);
if (data_to_read > data_read)
ssh_buffer_append_space(&down->incoming, &ptr,
data_to_read - data_read);
}
else
data_read += ret;
}
/* An entire packet has been received. */
SSH_ASSERT(ssh_buffer_len(&down->incoming) == data_to_read);
/* Get packet type. */
ptr = ssh_buffer_ptr(&down->incoming);
type = (SshPacketType)ptr[4];
/* Call the application callback if set. */
down->cannot_destroy = TRUE;
if (down->received_packet)
(*down->received_packet)(type, ptr + 5, data_to_read - 5,
down->context);
down->cannot_destroy = FALSE;
if (down->destroy_requested)
{
ssh_packet_wrapper_destroy(down);
return FALSE;
}
ssh_buffer_clear(&down->incoming);
return_value = TRUE;
}
/*NOTREACHED*/
}
/* For SOCKS5. */
SocksError ssh_socks5_client_generate_open(SshBuffer buffer,
SocksInfo socksinfo)
{
unsigned char *data;
unsigned long port;
size_t bytes = 0L, bytes_needed = 0;
SshIpAddrStruct ip_addr;
unsigned int address_type;
port = ssh_inet_get_port_by_service(socksinfo->port, ssh_custr("tcp"));
if (port >= 65536 || port <= 0)
return SSH_SOCKS_ERROR_INVALID_ARGUMENT;
if (ssh_ipaddr_parse(&ip_addr, socksinfo->ip))
{
if (SSH_IP_IS4(&ip_addr))
address_type = SSH_SOCKS5_ATYP_IPV4;
else
address_type = SSH_SOCKS5_ATYP_IPV6;
}
else
{
SSH_DEBUG(2, ("IP `%s' could not be parsed, assuming it is a hostname.",
socksinfo->ip));
address_type = SSH_SOCKS5_ATYP_FQDN;
}
bytes = ssh_encode_buffer(buffer,
SSH_ENCODE_CHAR(socksinfo->socks_version_number),
SSH_ENCODE_CHAR(socksinfo->command_code),
/* RSV. */
SSH_ENCODE_CHAR(0),
SSH_ENCODE_CHAR(address_type),
SSH_FORMAT_END);
if (bytes == 0)
{
SSH_DEBUG(2, ("Encoding command buffer failed."));
return SSH_SOCKS_ERROR_INVALID_ARGUMENT;
}
if (address_type == SSH_SOCKS5_ATYP_IPV4)
bytes_needed = 4;
else if (address_type == SSH_SOCKS5_ATYP_IPV6)
bytes_needed = 16;
else if (address_type == SSH_SOCKS5_ATYP_FQDN)
/* length field + address length */
bytes_needed = 1 + ssh_ustrlen(socksinfo->ip);
/* port */
bytes_needed += 2;
/* Allocate space for the IP-address*/
if (ssh_buffer_append_space(buffer, &data, bytes_needed) != SSH_BUFFER_OK)
{
SSH_DEBUG(2, ("Allocating space for the IP-address failed."));
ssh_buffer_consume_end(buffer, bytes);
return SSH_SOCKS_ERROR_INVALID_ARGUMENT;
}
if (address_type == SSH_SOCKS5_ATYP_IPV4)
{
SSH_IP4_ENCODE(&ip_addr, data);
}
else if (address_type == SSH_SOCKS5_ATYP_IPV6)
{
SSH_IP6_ENCODE(&ip_addr, data);
}
else if (address_type == SSH_SOCKS5_ATYP_FQDN)
{
*data = ssh_ustrlen(socksinfo->ip);
ssh_ustrcpy(data + 1, socksinfo->ip);
}
bytes += bytes_needed - 2;
data += bytes_needed - 2;
SSH_PUT_16BIT(data, port);
SSH_DEBUG(4, ("Command buffer size %zd.", bytes + bytes_needed));
return SSH_SOCKS_SUCCESS;
}
/* For SOCKS4. */
SocksError ssh_socks4_client_generate_open(SshBuffer buffer,
SocksInfo socksinfo)
{
unsigned char *data;
const unsigned char *username;
unsigned long port;
size_t bytes = 0L, ret = 0;
SshIpAddrStruct ip_addr;
port = ssh_inet_get_port_by_service(socksinfo->port, ssh_custr("tcp"));
if (port >= 65536 || port <= 0)
return SSH_SOCKS_ERROR_INVALID_ARGUMENT;
if (socksinfo->username == NULL)
username = ssh_custr("");
else
username = socksinfo->username;
if (ssh_ustrlen(username) > SOCKS4_MAX_NAME_LEN)
return SSH_SOCKS_ERROR_INVALID_ARGUMENT;
if (!ssh_ipaddr_parse(&ip_addr, socksinfo->ip))
{
SSH_DEBUG(2, ("IP `%s' could not be parsed.", socksinfo->ip));
return SSH_SOCKS_ERROR_INVALID_ARGUMENT;
}
/* nowadays the ip-addresses returned by ssh functions is more and more
often in ipv6 format (ipv4 addresses are in ipv6 mapped ipv4 format). */
ssh_inet_convert_ip6_mapped_ip4_to_ip4(&ip_addr);
if (!SSH_IP_IS4(&ip_addr))
{
SSH_DEBUG(2, ("IP `%s' is not a valid IPv4 address.", socksinfo->ip));
return SSH_SOCKS_ERROR_INVALID_ARGUMENT;
}
bytes = ssh_encode_buffer(buffer,
SSH_ENCODE_CHAR(socksinfo->socks_version_number),
SSH_ENCODE_CHAR(socksinfo->command_code),
SSH_ENCODE_CHAR((port & 0xff00U) >> 8),
SSH_ENCODE_CHAR(port & 0xffU),
SSH_FORMAT_END);
if (bytes == 0)
{
SSH_DEBUG(2, ("Encoding command buffer failed."));
return SSH_SOCKS_ERROR_INVALID_ARGUMENT;
}
/* Allocate space for the IP-address*/
if (ssh_buffer_append_space(buffer, &data, 4) != SSH_BUFFER_OK)
{
SSH_DEBUG(2, ("Allocating space for the IP-address failed."));
ssh_buffer_consume_end(buffer, bytes);
return SSH_SOCKS_ERROR_INVALID_ARGUMENT;
}
SSH_IP4_ENCODE(&ip_addr, data);
data += 4;
bytes += 4;
ret = ssh_encode_buffer(buffer,
SSH_ENCODE_DATA(username,
ssh_ustrlen(username)),
SSH_ENCODE_DATA(ssh_custr("\0"), 1),
SSH_FORMAT_END);
if (ret == 0)
{
SSH_DEBUG(2, ("Encoding username to the command buffer failed."));
ssh_buffer_consume_end(buffer, bytes);
return SSH_SOCKS_ERROR_INVALID_ARGUMENT;
}
SSH_DEBUG(4, ("Command buffer size %zd.", bytes + ret));
return SSH_SOCKS_SUCCESS;
}
/* Export given IKE SA pointed by negotiation to buffer. Buffer is NOT cleared
before the export. Returns size of packet added to the buffer, or 0 in case
of error. In case of error the data added to the buffer is removed. */
size_t ssh_ike_sa_export(SshBuffer buffer, SshIkeNegotiation negotiation)
{
SshIkeNegotiation ike_negotiation;
SshIkePMPhaseI pm_info;
SshIkeSA sa;
size_t orig_len;
size_t item_len;
size_t len;
SSH_DEBUG(5, ("Start"));
orig_len = ssh_buffer_len(buffer);
len = 0;
sa = negotiation->sa;
if (sa == NULL)
{
SSH_DEBUG(3, ("Trying to export SA that is deleted"));
goto error;
}
if (sa->lock_flags != 0)
{
SSH_DEBUG(3, ("Trying to export SA whose lock_flags is not 0"));
goto error;
}
if (!sa->phase_1_done)
{
SSH_DEBUG(3, ("Trying to export IKE SA which is not ready yet"));
goto error;
}
ike_negotiation = sa->isakmp_negotiation;
pm_info = ike_negotiation->ike_pm_info;
if (ike_negotiation->notification_state !=
SSH_IKE_NOTIFICATION_STATE_ALREADY_SENT)
{
SSH_DEBUG(3, ("Trying to export IKE SA which hasn't call callback yet"));
goto error;
}
if ((ike_negotiation->lock_flags & ~SSH_IKE_NEG_LOCK_FLAG_WAITING_FOR_DONE)
!= 0)
{
SSH_DEBUG(3, ("Trying to export IKE SA whose neg lock_flags are not 0"));
goto error;
}
item_len = ssh_encode_buffer
(buffer,
/* Magic number */
SSH_ENCODE_UINT32((SshUInt32) SSH_IKE_EXPORT_MAGIC1),
/* Version number */
SSH_ENCODE_UINT32((SshUInt32) SSH_IKE_EXPORT_VERSION),
/* Cookies, initiator, responder */
SSH_ENCODE_DATA(sa->cookies.initiator_cookie, SSH_IKE_COOKIE_LENGTH),
SSH_ENCODE_DATA(sa->cookies.responder_cookie, SSH_IKE_COOKIE_LENGTH),
/* Local ip, port. */
SSH_ENCODE_UINT32_STR(
pm_info->local_ip, ssh_ustrlen(pm_info->local_ip)),
SSH_ENCODE_UINT32_STR(
pm_info->local_port, ssh_ustrlen(pm_info->local_port)),
/* Remote ip, port. */
SSH_ENCODE_UINT32_STR(
pm_info->remote_ip, ssh_ustrlen(pm_info->remote_ip)),
SSH_ENCODE_UINT32_STR(
pm_info->remote_port, ssh_ustrlen(pm_info->remote_port)),
/* IKE exchange version. */
SSH_ENCODE_UINT32((SshUInt32) pm_info->major_version),
SSH_ENCODE_UINT32((SshUInt32) pm_info->minor_version),
/* IKE exchange type. */
SSH_ENCODE_UINT32((SshUInt32) pm_info->exchange_type),
/* Was this the initiator for the original exchange? */
SSH_ENCODE_UINT32((SshUInt32) pm_info->this_end_is_initiator),
/* Byte count and byte limit. */
SSH_ENCODE_UINT64((SshUInt64) sa->byte_count),
SSH_ENCODE_UINT64((SshUInt64) sa->kbyte_limit),
/* Created time and laste use time */
SSH_ENCODE_UINT64((SshUInt64) sa->created_time),
SSH_ENCODE_UINT64((SshUInt64) sa->last_use_time),
/* Encryption, hash, prf algorithm names. */
SSH_ENCODE_UINT32_STR(sa->encryption_algorithm_name,
ssh_ustrlen(sa->encryption_algorithm_name)),
SSH_ENCODE_UINT32_STR(sa->hash_algorithm_name,
ssh_ustrlen(sa->hash_algorithm_name)),
SSH_ENCODE_UINT32_STR(sa->prf_algorithm_name,
ssh_ustrlen(sa->prf_algorithm_name)),
/* Cipher key. */
SSH_ENCODE_UINT32_STR(sa->cipher_key, sa->cipher_key_len),
/* Cipher IV. */
SSH_ENCODE_UINT32_STR(sa->cipher_iv, sa->cipher_iv_len),
/* Keying material, Diffie-Hellman. */
SSH_ENCODE_UINT32_STR(sa->skeyid.dh, sa->skeyid.dh_size),
/* Keying material, SKEYID mac. */
SSH_ENCODE_UINT32_STR(sa->skeyid.skeyid, sa->skeyid.skeyid_size),
/* Keying material, SKEYID_d mac. */
SSH_ENCODE_UINT32_STR(sa->skeyid.skeyid_d, sa->skeyid.skeyid_d_size),
/* Keying material, SKEYID_a mac. */
SSH_ENCODE_UINT32_STR(sa->skeyid.skeyid_a, sa->skeyid.skeyid_a_size),
/* Keying material, SKEYID_e mac. */
SSH_ENCODE_UINT32_STR(sa->skeyid.skeyid_e, sa->skeyid.skeyid_e_size),
/* Retry defaults. */
SSH_ENCODE_UINT32(sa->retry_limit),
SSH_ENCODE_UINT32(sa->retry_timer),
SSH_ENCODE_UINT32(sa->retry_timer_usec),
SSH_ENCODE_UINT32(sa->retry_timer_max),
SSH_ENCODE_UINT32(sa->retry_timer_max_usec),
SSH_ENCODE_UINT32(sa->expire_timer),
SSH_ENCODE_UINT32(sa->expire_timer_usec),
/* Statistics. */
SSH_ENCODE_UINT32(sa->statistics.packets_in),
SSH_ENCODE_UINT32(sa->statistics.packets_out),
SSH_ENCODE_UINT32(sa->statistics.octects_in),
SSH_ENCODE_UINT32(sa->statistics.octects_out),
SSH_ENCODE_UINT32(sa->statistics.created_suites),
SSH_ENCODE_UINT32(sa->statistics.deleted_suites),
/* IKE SA negotiation information. */
SSH_ENCODE_UINT32((SshUInt32) ike_negotiation->exchange_type),
/* This field used to be in negotation structure, now it is in
ExchangeData strcuture which is already freed. Put the copy of the
value from pm_info here to be compatible with old versions. */
SSH_ENCODE_UINT32((SshUInt32) pm_info->auth_method_type),
SSH_ENCODE_UINT32((SshUInt32) 0),
/* Private groups as UINT32_STRING. */
SSH_ENCODE_UINT32_STR(ssh_ustr(""), 0),
SSH_FORMAT_END);
if (item_len == 0)
goto error;
len += item_len;
/* Local id. */
item_len = ssh_ike_sa_export_id(buffer, pm_info->local_id);
if (item_len == 0)
goto error;
len += item_len;
/* Remote id. */
item_len = ssh_ike_sa_export_id(buffer, pm_info->remote_id);
if (item_len == 0)
goto error;
len += item_len;
item_len = ssh_encode_buffer
(buffer,
/* Authentication type. */
SSH_ENCODE_UINT32((SshUInt32) pm_info->auth_method_type),
SSH_ENCODE_UINT32((SshUInt32) pm_info->auth_method),
/* Start and expire times. */
SSH_ENCODE_UINT64((SshUInt64) pm_info->sa_start_time),
SSH_ENCODE_UINT64((SshUInt64) pm_info->sa_expire_time),
/* None of the policy manager filled data is copied, this include
auth_data, auth_data_len, own_auth_data, own_auth_data_len,
public_key, number_of_certificates, number_of_allocated_certificates,
certificates, certificate_lens, certificate_encodings,
policy_manager_data, pm. */
SSH_ENCODE_UINT32((SshUInt32) pm_info->doi),
/* Magic number */
SSH_ENCODE_UINT32((SshUInt32) SSH_IKE_EXPORT_MAGIC2),
SSH_FORMAT_END);
if (item_len == 0)
goto error;
len += item_len;
return len;
error:
orig_len -= ssh_buffer_len(buffer);
if (orig_len != 0)
ssh_buffer_consume_end(buffer, orig_len);
return 0;
}
/* Expore identity payload to buffer. Buffer is NOT cleared, before the
export. Returns size of the data added to the buffer, or 0 in case of error.
In case of error the data added to the buffer is removed. */
size_t ssh_ike_sa_export_id(SshBuffer buffer, SshIkePayloadID id)
{
size_t orig_len;
size_t item_len;
size_t len;
SSH_DEBUG(5, ("Start"));
orig_len = ssh_buffer_len(buffer);
len = 0;
if (id == NULL)
{
item_len = ssh_encode_buffer
(buffer,
SSH_ENCODE_UINT32((SshUInt32) 0),
SSH_FORMAT_END);
if (item_len == 0)
goto error;
len += item_len;
return len;
}
item_len = ssh_encode_buffer
(buffer,
SSH_ENCODE_UINT32((SshUInt32) id->id_type),
SSH_ENCODE_UINT32((SshUInt32) id->protocol_id),
SSH_ENCODE_UINT32((SshUInt32) id->port_number),
SSH_ENCODE_UINT32((SshUInt32) id->port_range_end),
SSH_FORMAT_END);
if (item_len == 0)
goto error;
len += item_len;
switch (id->id_type)
{
case IPSEC_ID_IPV4_ADDR:
item_len = ssh_encode_buffer
(buffer,
SSH_ENCODE_DATA(id->identification.ipv4_addr, 4),
SSH_FORMAT_END);
break;
case IPSEC_ID_FQDN:
item_len = ssh_encode_buffer
(buffer,
SSH_ENCODE_UINT32_STR(id->identification.fqdn,
id->identification_len),
SSH_FORMAT_END);
break;
case IPSEC_ID_USER_FQDN:
item_len = ssh_encode_buffer
(buffer,
SSH_ENCODE_UINT32_STR(id->identification.user_fqdn,
id->identification_len),
SSH_FORMAT_END);
break;
case IPSEC_ID_IPV4_ADDR_SUBNET:
item_len = ssh_encode_buffer
(buffer,
SSH_ENCODE_DATA(id->identification.ipv4_addr_subnet, 4),
SSH_ENCODE_DATA(id->identification.ipv4_addr_netmask, 4),
SSH_FORMAT_END);
break;
case IPSEC_ID_IPV6_ADDR:
item_len = ssh_encode_buffer
(buffer,
SSH_ENCODE_DATA(id->identification.ipv6_addr, 16),
SSH_FORMAT_END);
break;
case IPSEC_ID_IPV6_ADDR_SUBNET:
item_len = ssh_encode_buffer
(buffer,
SSH_ENCODE_DATA(id->identification.ipv6_addr_subnet, 16),
SSH_ENCODE_DATA(id->identification.ipv6_addr_netmask, 16),
SSH_FORMAT_END);
break;
case IPSEC_ID_IPV4_ADDR_RANGE:
item_len = ssh_encode_buffer
(buffer,
SSH_ENCODE_DATA(id->identification.ipv4_addr_range1, 4),
SSH_ENCODE_DATA(id->identification.ipv4_addr_range2, 4),
SSH_FORMAT_END);
break;
case IPSEC_ID_IPV6_ADDR_RANGE:
item_len = ssh_encode_buffer
(buffer,
SSH_ENCODE_DATA(id->identification.ipv6_addr_range1, 16),
SSH_ENCODE_DATA(id->identification.ipv6_addr_range2, 16),
SSH_FORMAT_END);
break;
case IPSEC_ID_DER_ASN1_DN:
case IPSEC_ID_DER_ASN1_GN:
item_len = ssh_encode_buffer
(buffer,
SSH_ENCODE_UINT32_STR(id->identification.asn1_data,
id->identification_len),
SSH_FORMAT_END);
break;
case IPSEC_ID_KEY_ID:
item_len = ssh_encode_buffer
(buffer,
SSH_ENCODE_UINT32_STR(id->identification.key_id,
id->identification_len),
SSH_FORMAT_END);
break;
#ifdef SSHDIST_IKE_ID_LIST
case IPSEC_ID_LIST:
{
int cnt;
item_len = ssh_encode_buffer(buffer,
SSH_ENCODE_UINT32(
(SshUInt32) id->identification.
id_list_number_of_items),
SSH_FORMAT_END);
if (item_len == 0)
goto error;
len += item_len;
for (cnt = 0;
cnt < id->identification.id_list_number_of_items;
cnt++)
{
item_len =
ssh_ike_sa_export_id(buffer,
&(id->identification.id_list_items[cnt]));
if (item_len == 0)
goto error;
len += item_len;
}
break;
}
#endif /* SSHDIST_IKE_ID_LIST */
}
if (item_len == 0)
goto error;
len += item_len;
return len;
error:
orig_len -= ssh_buffer_len(buffer);
if (orig_len != 0)
ssh_buffer_consume_end(buffer, orig_len);
return 0;
}
