/* Unix SMB/CIFS implementation. transaction2 handling Copyright (C) Andrew Tridgell 2003 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., 675 Mass Ave, Cambridge, MA 02139, USA. */ /* This file handles the parsing of transact2 requests */ #include "includes.h" #define CHECK_MIN_BLOB_SIZE(blob, size) do { \ if ((blob)->length < (size)) { \ return NT_STATUS_INFO_LENGTH_MISMATCH; \ }} while (0) /* grow the data allocation size of a trans2 reply - this guarantees that requests to grow the data size later will not change the pointer */ static void trans2_grow_data_allocation(struct request_context *req, struct smb_trans2 *trans, uint16 new_size) { if (new_size <= trans->out.data.length) { return; } trans->out.data.data = talloc_realloc(req->mem_ctx, trans->out.data.data, new_size); } /* grow the data size of a trans2 reply */ static void trans2_grow_data(struct request_context *req, struct smb_trans2 *trans, uint16 new_size) { trans2_grow_data_allocation(req, trans, new_size); trans->out.data.length = new_size; } /* grow the data, zero filling any new bytes */ static void trans2_grow_data_fill(struct request_context *req, struct smb_trans2 *trans, uint16 new_size) { uint16 old_size = trans->out.data.length; trans2_grow_data(req, trans, new_size); if (new_size > old_size) { memset(trans->out.data.data + old_size, 0, new_size - old_size); } } /* setup a trans2 reply, given the data and params sizes */ static void trans2_setup_reply(struct request_context *req, struct smb_trans2 *trans, uint16 param_size, uint16 data_size, uint16 setup_count) { trans->out.setup_count = setup_count; if (setup_count != 0) { trans->out.setup = talloc_zero(req->mem_ctx, sizeof(uint16) * setup_count); } trans->out.params = data_blob_talloc(req->mem_ctx, NULL, param_size); trans->out.data = data_blob_talloc(req->mem_ctx, NULL, data_size); } /* pull a string from a blob in a trans2 request */ static size_t trans2_pull_blob_string(struct request_context *req, const DATA_BLOB *blob, uint16 offset, const char **str, int flags) { /* we use STR_NO_RANGE_CHECK because the params are allocated separately in a DATA_BLOB, so we need to do our own range checking */ if (offset >= blob->length) { *str = NULL; return 0; } return req_pull_string(req, str, blob->data + offset, blob->length - offset, STR_NO_RANGE_CHECK | flags); } /* push a string into the data section of a trans2 request return the number of bytes consumed in the output */ static size_t trans2_push_data_string(struct request_context *req, struct smb_trans2 *trans, uint16 len_offset, uint16 offset, const WIRE_STRING *str, int dest_len, int flags) { int alignment = 0, ret = 0, pkt_len; /* we use STR_NO_RANGE_CHECK because the params are allocated separately in a DATA_BLOB, so we need to do our own range checking */ if (!str->s || offset >= trans->out.data.length) { if (flags & STR_LEN8BIT) { SCVAL(trans->out.data.data, len_offset, 0); } else { SIVAL(trans->out.data.data, len_offset, 0); } return 0; } flags |= STR_NO_RANGE_CHECK; if (dest_len == -1 || (dest_len > trans->out.data.length - offset)) { dest_len = trans->out.data.length - offset; } if (!(flags & (STR_ASCII|STR_UNICODE))) { flags |= (req->flags2 & FLAGS2_UNICODE_STRINGS) ? STR_UNICODE : STR_ASCII; } if ((offset&1) && (flags & STR_UNICODE) && !(flags & STR_NOALIGN)) { alignment = 1; if (dest_len > 0) { SCVAL(trans->out.data.data + offset, 0, 0); ret = push_string(NULL, trans->out.data.data + offset + 1, str->s, dest_len-1, flags); } } else { ret = push_string(NULL, trans->out.data.data + offset, str->s, dest_len, flags); } /* sometimes the string needs to be terminated, but the length on the wire must not include the termination! */ pkt_len = ret; if ((flags & STR_LEN_NOTERM) && (flags & STR_TERMINATE)) { if ((flags & STR_UNICODE) && ret >= 2) { pkt_len = ret-2; } if ((flags & STR_ASCII) && ret >= 1) { pkt_len = ret-1; } } if (flags & STR_LEN8BIT) { SCVAL(trans->out.data.data, len_offset, pkt_len); } else { SIVAL(trans->out.data.data, len_offset, pkt_len); } return ret + alignment; } /* append a string to the data section of a trans2 reply len_offset points to the place in the packet where the length field should go */ static void trans2_append_data_string(struct request_context *req, struct smb_trans2 *trans, const WIRE_STRING *str, uint_t len_offset, int flags) { size_t ret; uint16 offset; const int max_bytes_per_char = 3; offset = trans->out.data.length; trans2_grow_data(req, trans, offset + (2+strlen_m(str->s))*max_bytes_per_char); ret = trans2_push_data_string(req, trans, len_offset, offset, str, -1, flags); trans2_grow_data(req, trans, offset + ret); } /* trans2 qfsinfo implementation */ static NTSTATUS trans2_qfsinfo(struct request_context *req, struct smb_trans2 *trans) { union smb_fsinfo fsinfo; NTSTATUS status; uint16 level; uint_t i; DATA_BLOB guid_blob; /* make sure we got enough parameters */ if (trans->in.params.length != 2) { return NT_STATUS_FOOBAR; } level = SVAL(trans->in.params.data, 0); switch (level) { case SMB_QFS_ALLOCATION: fsinfo.allocation.level = RAW_QFS_ALLOCATION; status = req->conn->ntvfs_ops->fsinfo(req, &fsinfo); if (!NT_STATUS_IS_OK(status)) { return status; } trans2_setup_reply(req, trans, 0, 18, 0); SIVAL(trans->out.data.data, 0, fsinfo.allocation.out.fs_id); SIVAL(trans->out.data.data, 4, fsinfo.allocation.out.sectors_per_unit); SIVAL(trans->out.data.data, 8, fsinfo.allocation.out.total_alloc_units); SIVAL(trans->out.data.data, 12, fsinfo.allocation.out.avail_alloc_units); SSVAL(trans->out.data.data, 16, fsinfo.allocation.out.bytes_per_sector); return NT_STATUS_OK; case SMB_QFS_VOLUME: fsinfo.volume.level = RAW_QFS_VOLUME; status = req->conn->ntvfs_ops->fsinfo(req, &fsinfo); if (!NT_STATUS_IS_OK(status)) { return status; } trans2_setup_reply(req, trans, 0, 5, 0); SIVAL(trans->out.data.data, 0, fsinfo.volume.out.serial_number); /* w2k3 implements this incorrectly for unicode - it * leaves the last byte off the string */ trans2_append_data_string(req, trans, &fsinfo.volume.out.volume_name, 4, STR_LEN8BIT|STR_NOALIGN); return NT_STATUS_OK; case SMB_QFS_VOLUME_INFO: case SMB_QFS_VOLUME_INFORMATION: fsinfo.volume_info.level = RAW_QFS_VOLUME_INFO; status = req->conn->ntvfs_ops->fsinfo(req, &fsinfo); if (!NT_STATUS_IS_OK(status)) { return status; } trans2_setup_reply(req, trans, 0, 18, 0); push_nttime(trans->out.data.data, 0, fsinfo.volume_info.out.create_time); SIVAL(trans->out.data.data, 8, fsinfo.volume_info.out.serial_number); trans2_append_data_string(req, trans, &fsinfo.volume_info.out.volume_name, 12, STR_UNICODE); return NT_STATUS_OK; case SMB_QFS_SIZE_INFO: case SMB_QFS_SIZE_INFORMATION: fsinfo.size_info.level = RAW_QFS_SIZE_INFO; status = req->conn->ntvfs_ops->fsinfo(req, &fsinfo); if (!NT_STATUS_IS_OK(status)) { return status; } trans2_setup_reply(req, trans, 0, 24, 0); SBVAL(trans->out.data.data, 0, fsinfo.size_info.out.total_alloc_units); SBVAL(trans->out.data.data, 8, fsinfo.size_info.out.avail_alloc_units); SIVAL(trans->out.data.data, 16, fsinfo.size_info.out.sectors_per_unit); SIVAL(trans->out.data.data, 20, fsinfo.size_info.out.bytes_per_sector); return NT_STATUS_OK; case SMB_QFS_DEVICE_INFO: case SMB_QFS_DEVICE_INFORMATION: fsinfo.device_info.level = RAW_QFS_DEVICE_INFO; status = req->conn->ntvfs_ops->fsinfo(req, &fsinfo); if (!NT_STATUS_IS_OK(status)) { return status; } trans2_setup_reply(req, trans, 0, 8, 0); SIVAL(trans->out.data.data, 0, fsinfo.device_info.out.device_type); SIVAL(trans->out.data.data, 4, fsinfo.device_info.out.characteristics); return NT_STATUS_OK; case SMB_QFS_ATTRIBUTE_INFO: case SMB_QFS_ATTRIBUTE_INFORMATION: fsinfo.attribute_info.level = RAW_QFS_ATTRIBUTE_INFO; status = req->conn->ntvfs_ops->fsinfo(req, &fsinfo); if (!NT_STATUS_IS_OK(status)) { return status; } trans2_setup_reply(req, trans, 0, 12, 0); SIVAL(trans->out.data.data, 0, fsinfo.attribute_info.out.fs_attr); SIVAL(trans->out.data.data, 4, fsinfo.attribute_info.out.max_file_component_length); /* this must not be null terminated or win98 gets confused! also note that w2k3 returns this as unicode even when ascii is negotiated */ trans2_append_data_string(req, trans, &fsinfo.attribute_info.out.fs_type, 8, STR_UNICODE); return NT_STATUS_OK; case SMB_QFS_QUOTA_INFORMATION: fsinfo.quota_information.level = RAW_QFS_QUOTA_INFORMATION; status = req->conn->ntvfs_ops->fsinfo(req, &fsinfo); if (!NT_STATUS_IS_OK(status)) { return status; } trans2_setup_reply(req, trans, 0, 48, 0); SBVAL(trans->out.data.data, 0, fsinfo.quota_information.out.unknown[0]); SBVAL(trans->out.data.data, 8, fsinfo.quota_information.out.unknown[1]); SBVAL(trans->out.data.data, 16, fsinfo.quota_information.out.unknown[2]); SBVAL(trans->out.data.data, 24, fsinfo.quota_information.out.quota_soft); SBVAL(trans->out.data.data, 32, fsinfo.quota_information.out.quota_hard); SBVAL(trans->out.data.data, 40, fsinfo.quota_information.out.quota_flags); return NT_STATUS_OK; case SMB_QFS_FULL_SIZE_INFORMATION: fsinfo.full_size_information.level = RAW_QFS_FULL_SIZE_INFORMATION; status = req->conn->ntvfs_ops->fsinfo(req, &fsinfo); if (!NT_STATUS_IS_OK(status)) { return status; } trans2_setup_reply(req, trans, 0, 32, 0); SBVAL(trans->out.data.data, 0, fsinfo.full_size_information.out.total_alloc_units); SBVAL(trans->out.data.data, 8, fsinfo.full_size_information.out.call_avail_alloc_units); SBVAL(trans->out.data.data, 16, fsinfo.full_size_information.out.actual_avail_alloc_units); SIVAL(trans->out.data.data, 24, fsinfo.full_size_information.out.sectors_per_unit); SIVAL(trans->out.data.data, 28, fsinfo.full_size_information.out.bytes_per_sector); return NT_STATUS_OK; case SMB_QFS_OBJECTID_INFORMATION: fsinfo.objectid_information.level = RAW_QFS_OBJECTID_INFORMATION; status = req->conn->ntvfs_ops->fsinfo(req, &fsinfo); if (!NT_STATUS_IS_OK(status)) { return status; } trans2_setup_reply(req, trans, 0, 64, 0); status = ndr_push_struct_blob(&guid_blob, req->mem_ctx, &fsinfo.objectid_information.out.guid, (ndr_push_flags_fn_t)ndr_push_GUID); if (!NT_STATUS_IS_OK(status)) { return status; } memcpy(trans->out.data.data, guid_blob.data, GUID_SIZE); for (i=0;i<6;i++) { SBVAL(trans->out.data.data, 16 + 8*i, fsinfo.objectid_information.out.unknown[i]); } return NT_STATUS_OK; } return NT_STATUS_INVALID_LEVEL; } /* fill in the reply from a qpathinfo or qfileinfo call */ static NTSTATUS trans2_fileinfo_fill(struct request_context *req, struct smb_trans2 *trans, union smb_fileinfo *st) { uint_t i; switch (st->generic.level) { case RAW_FILEINFO_GENERIC: case RAW_FILEINFO_GETATTR: case RAW_FILEINFO_GETATTRE: /* handled elsewhere */ return NT_STATUS_INVALID_LEVEL; case RAW_FILEINFO_BASIC_INFO: case RAW_FILEINFO_BASIC_INFORMATION: trans2_setup_reply(req, trans, 2, 40, 0); SSVAL(trans->out.params.data, 0, 0); push_nttime(trans->out.data.data, 0, st->basic_info.out.create_time); push_nttime(trans->out.data.data, 8, st->basic_info.out.access_time); push_nttime(trans->out.data.data, 16, st->basic_info.out.write_time); push_nttime(trans->out.data.data, 24, st->basic_info.out.change_time); SIVAL(trans->out.data.data, 32, st->basic_info.out.attrib); SIVAL(trans->out.data.data, 36, 0); /* padding */ return NT_STATUS_OK; case RAW_FILEINFO_STANDARD: trans2_setup_reply(req, trans, 2, 22, 0); SSVAL(trans->out.params.data, 0, 0); srv_push_dos_date2(req->smb, trans->out.data.data, 0, st->standard.out.create_time); srv_push_dos_date2(req->smb, trans->out.data.data, 4, st->standard.out.access_time); srv_push_dos_date2(req->smb, trans->out.data.data, 8, st->standard.out.write_time); SIVAL(trans->out.data.data, 12, st->standard.out.size); SIVAL(trans->out.data.data, 16, st->standard.out.alloc_size); SSVAL(trans->out.data.data, 20, st->standard.out.attrib); return NT_STATUS_OK; case RAW_FILEINFO_EA_SIZE: trans2_setup_reply(req, trans, 2, 26, 0); SSVAL(trans->out.params.data, 0, 0); srv_push_dos_date2(req->smb, trans->out.data.data, 0, st->ea_size.out.create_time); srv_push_dos_date2(req->smb, trans->out.data.data, 4, st->ea_size.out.access_time); srv_push_dos_date2(req->smb, trans->out.data.data, 8, st->ea_size.out.write_time); SIVAL(trans->out.data.data, 12, st->ea_size.out.size); SIVAL(trans->out.data.data, 16, st->ea_size.out.alloc_size); SSVAL(trans->out.data.data, 20, st->ea_size.out.attrib); SIVAL(trans->out.data.data, 22, st->ea_size.out.ea_size); return NT_STATUS_OK; case RAW_FILEINFO_NETWORK_OPEN_INFORMATION: trans2_setup_reply(req, trans, 2, 56, 0); SSVAL(trans->out.params.data, 0, 0); push_nttime(trans->out.data.data, 0, st->network_open_information.out.create_time); push_nttime(trans->out.data.data, 8, st->network_open_information.out.access_time); push_nttime(trans->out.data.data, 16, st->network_open_information.out.write_time); push_nttime(trans->out.data.data, 24, st->network_open_information.out.change_time); SBVAL(trans->out.data.data, 32, st->network_open_information.out.alloc_size); SBVAL(trans->out.data.data, 40, st->network_open_information.out.size); SIVAL(trans->out.data.data, 48, st->network_open_information.out.attrib); SIVAL(trans->out.data.data, 52, 0); /* padding */ return NT_STATUS_OK; case RAW_FILEINFO_STANDARD_INFO: case RAW_FILEINFO_STANDARD_INFORMATION: trans2_setup_reply(req, trans, 2, 24, 0); SSVAL(trans->out.params.data, 0, 0); SBVAL(trans->out.data.data, 0, st->standard_info.out.alloc_size); SBVAL(trans->out.data.data, 8, st->standard_info.out.size); SIVAL(trans->out.data.data, 16, st->standard_info.out.nlink); SCVAL(trans->out.data.data, 20, st->standard_info.out.delete_pending); SCVAL(trans->out.data.data, 21, st->standard_info.out.directory); SSVAL(trans->out.data.data, 22, 0); /* padding */ return NT_STATUS_OK; case RAW_FILEINFO_ATTRIBUTE_TAG_INFORMATION: trans2_setup_reply(req, trans, 2, 8, 0); SSVAL(trans->out.params.data, 0, 0); SIVAL(trans->out.data.data, 0, st->attribute_tag_information.out.attrib); SIVAL(trans->out.data.data, 4, st->attribute_tag_information.out.reparse_tag); return NT_STATUS_OK; case RAW_FILEINFO_EA_INFO: case RAW_FILEINFO_EA_INFORMATION: trans2_setup_reply(req, trans, 2, 4, 0); SSVAL(trans->out.params.data, 0, 0); SIVAL(trans->out.data.data, 0, st->ea_info.out.ea_size); return NT_STATUS_OK; case RAW_FILEINFO_MODE_INFORMATION: trans2_setup_reply(req, trans, 2, 4, 0); SSVAL(trans->out.params.data, 0, 0); SIVAL(trans->out.data.data, 0, st->mode_information.out.mode); return NT_STATUS_OK; case RAW_FILEINFO_ALIGNMENT_INFORMATION: trans2_setup_reply(req, trans, 2, 4, 0); SSVAL(trans->out.params.data, 0, 0); SIVAL(trans->out.data.data, 0, st->alignment_information.out.alignment_requirement); return NT_STATUS_OK; case RAW_FILEINFO_ALL_EAS: if (st->all_eas.out.num_eas == 0) { trans2_setup_reply(req, trans, 2, 4, 0); SSVAL(trans->out.params.data, 0, 0); SIVAL(trans->out.data.data, 0, 0); } else { uint32_t list_size = ea_list_size(st->all_eas.out.num_eas, st->all_eas.out.eas); trans2_setup_reply(req, trans, 2, list_size, 0); SSVAL(trans->out.params.data, 0, 0); ea_put_list(trans->out.data.data, st->all_eas.out.num_eas, st->all_eas.out.eas); } return NT_STATUS_OK; case RAW_FILEINFO_ACCESS_INFORMATION: trans2_setup_reply(req, trans, 2, 4, 0); SSVAL(trans->out.params.data, 0, 0); SIVAL(trans->out.data.data, 0, st->access_information.out.access_flags); return NT_STATUS_OK; case RAW_FILEINFO_POSITION_INFORMATION: trans2_setup_reply(req, trans, 2, 8, 0); SSVAL(trans->out.params.data, 0, 0); SBVAL(trans->out.data.data, 0, st->position_information.out.position); return NT_STATUS_OK; case RAW_FILEINFO_COMPRESSION_INFO: case RAW_FILEINFO_COMPRESSION_INFORMATION: trans2_setup_reply(req, trans, 2, 16, 0); SSVAL(trans->out.params.data, 0, 0); SBVAL(trans->out.data.data, 0, st->compression_info.out.compressed_size); SSVAL(trans->out.data.data, 8, st->compression_info.out.format); SCVAL(trans->out.data.data, 10, st->compression_info.out.unit_shift); SCVAL(trans->out.data.data, 11, st->compression_info.out.chunk_shift); SCVAL(trans->out.data.data, 12, st->compression_info.out.cluster_shift); SSVAL(trans->out.data.data, 13, 0); /* 3 bytes padding */ SCVAL(trans->out.data.data, 15, 0); return NT_STATUS_OK; case RAW_FILEINFO_IS_NAME_VALID: trans2_setup_reply(req, trans, 2, 0, 0); SSVAL(trans->out.params.data, 0, 0); return NT_STATUS_OK; case RAW_FILEINFO_INTERNAL_INFORMATION: trans2_setup_reply(req, trans, 2, 8, 0); SSVAL(trans->out.params.data, 0, 0); SBVAL(trans->out.data.data, 0, st->internal_information.out.file_id); return NT_STATUS_OK; case RAW_FILEINFO_ALL_INFO: case RAW_FILEINFO_ALL_INFORMATION: trans2_setup_reply(req, trans, 2, 72, 0); SSVAL(trans->out.params.data, 0, 0); push_nttime(trans->out.data.data, 0, st->all_info.out.create_time); push_nttime(trans->out.data.data, 8, st->all_info.out.access_time); push_nttime(trans->out.data.data, 16, st->all_info.out.write_time); push_nttime(trans->out.data.data, 24, st->all_info.out.change_time); SIVAL(trans->out.data.data, 32, st->all_info.out.attrib); SBVAL(trans->out.data.data, 40, st->all_info.out.alloc_size); SBVAL(trans->out.data.data, 48, st->all_info.out.size); SIVAL(trans->out.data.data, 56, st->all_info.out.nlink); SCVAL(trans->out.data.data, 60, st->all_info.out.delete_pending); SCVAL(trans->out.data.data, 61, st->all_info.out.directory); SSVAL(trans->out.data.data, 62, 0); /* padding */ SIVAL(trans->out.data.data, 64, st->all_info.out.ea_size); trans2_append_data_string(req, trans, &st->all_info.out.fname, 68, STR_UNICODE); return NT_STATUS_OK; case RAW_FILEINFO_NAME_INFO: case RAW_FILEINFO_NAME_INFORMATION: trans2_setup_reply(req, trans, 2, 4, 0); SSVAL(trans->out.params.data, 0, 0); trans2_append_data_string(req, trans, &st->name_info.out.fname, 0, STR_UNICODE); return NT_STATUS_OK; case RAW_FILEINFO_ALT_NAME_INFO: case RAW_FILEINFO_ALT_NAME_INFORMATION: trans2_setup_reply(req, trans, 2, 4, 0); SSVAL(trans->out.params.data, 0, 0); trans2_append_data_string(req, trans, &st->alt_name_info.out.fname, 0, STR_UNICODE); return NT_STATUS_OK; case RAW_FILEINFO_STREAM_INFO: case RAW_FILEINFO_STREAM_INFORMATION: trans2_setup_reply(req, trans, 2, 0, 0); SSVAL(trans->out.params.data, 0, 0); for (i=0;istream_info.out.num_streams;i++) { uint16 data_size = trans->out.data.length; char *data; trans2_grow_data(req, trans, data_size + 24); data = trans->out.data.data + data_size; SBVAL(data, 8, st->stream_info.out.streams[i].size); SBVAL(data, 16, st->stream_info.out.streams[i].alloc_size); trans2_append_data_string(req, trans, &st->stream_info.out.streams[i].stream_name, data_size + 4, STR_UNICODE); if (i == st->stream_info.out.num_streams - 1) { SIVAL(trans->out.data.data, data_size, 0); } else { trans2_grow_data_fill(req, trans, (trans->out.data.length+7)&~7); SIVAL(trans->out.data.data, data_size, trans->out.data.length - data_size); } } return NT_STATUS_OK; } return NT_STATUS_INVALID_LEVEL; } /* trans2 qpathinfo implementation */ static NTSTATUS trans2_qpathinfo(struct request_context *req, struct smb_trans2 *trans) { union smb_fileinfo st; NTSTATUS status; uint16 level; /* make sure we got enough parameters */ if (trans->in.params.length < 8) { return NT_STATUS_FOOBAR; } level = SVAL(trans->in.params.data, 0); trans2_pull_blob_string(req, &trans->in.params, 6, &st.generic.in.fname, 0); if (st.generic.in.fname == NULL) { return NT_STATUS_FOOBAR; } /* work out the backend level - we make it 1-1 in the header */ st.generic.level = (enum fileinfo_level)level; if (st.generic.level >= RAW_FILEINFO_GENERIC) { return NT_STATUS_INVALID_LEVEL; } /* call the backend */ status = req->conn->ntvfs_ops->qpathinfo(req, &st); if (!NT_STATUS_IS_OK(status)) { return status; } /* fill in the reply parameters */ status = trans2_fileinfo_fill(req, trans, &st); return status; } /* trans2 qpathinfo implementation */ static NTSTATUS trans2_qfileinfo(struct request_context *req, struct smb_trans2 *trans) { union smb_fileinfo st; NTSTATUS status; uint16 level; /* make sure we got enough parameters */ if (trans->in.params.length < 4) { return NT_STATUS_FOOBAR; } st.generic.in.fnum = SVAL(trans->in.params.data, 0); level = SVAL(trans->in.params.data, 2); /* work out the backend level - we make it 1-1 in the header */ st.generic.level = (enum fileinfo_level)level; if (st.generic.level >= RAW_FILEINFO_GENERIC) { return NT_STATUS_INVALID_LEVEL; } /* call the backend */ status = req->conn->ntvfs_ops->qfileinfo(req, &st); if (!NT_STATUS_IS_OK(status)) { return status; } /* fill in the reply parameters */ status = trans2_fileinfo_fill(req, trans, &st); return status; } /* parse a trans2 setfileinfo/setpathinfo data blob */ static NTSTATUS trans2_parse_sfileinfo(struct request_context *req, union smb_setfileinfo *st, const DATA_BLOB *blob) { uint32_t len; switch (st->generic.level) { case RAW_SFILEINFO_GENERIC: case RAW_SFILEINFO_SETATTR: case RAW_SFILEINFO_SETATTRE: /* handled elsewhere */ return NT_STATUS_INVALID_LEVEL; case RAW_SFILEINFO_STANDARD: CHECK_MIN_BLOB_SIZE(blob, 12); st->standard.in.create_time = srv_pull_dos_date2(req->smb, blob->data + 0); st->standard.in.access_time = srv_pull_dos_date2(req->smb, blob->data + 4); st->standard.in.write_time = srv_pull_dos_date2(req->smb, blob->data + 8); return NT_STATUS_OK; case RAW_SFILEINFO_EA_SET: CHECK_MIN_BLOB_SIZE(blob, 4); len = IVAL(blob->data, 0); if (len > blob->length || len < 4) { return NT_STATUS_INFO_LENGTH_MISMATCH; } { DATA_BLOB blob2; blob2.data = blob->data+4; blob2.length = len-4; len = ea_pull_struct(&blob2, req->mem_ctx, &st->ea_set.in.ea); } if (len == 0) { return NT_STATUS_INVALID_PARAMETER; } return NT_STATUS_OK; case SMB_SFILEINFO_BASIC_INFO: case SMB_SFILEINFO_BASIC_INFORMATION: CHECK_MIN_BLOB_SIZE(blob, 36); st->basic_info.in.create_time = pull_nttime(blob->data, 0); st->basic_info.in.access_time = pull_nttime(blob->data, 8); st->basic_info.in.write_time = pull_nttime(blob->data, 16); st->basic_info.in.change_time = pull_nttime(blob->data, 24); st->basic_info.in.attrib = IVAL(blob->data, 32); return NT_STATUS_OK; case SMB_SFILEINFO_DISPOSITION_INFO: case SMB_SFILEINFO_DISPOSITION_INFORMATION: CHECK_MIN_BLOB_SIZE(blob, 1); st->disposition_info.in.delete_on_close = CVAL(blob->data, 0); return NT_STATUS_OK; case SMB_SFILEINFO_ALLOCATION_INFO: case SMB_SFILEINFO_ALLOCATION_INFORMATION: CHECK_MIN_BLOB_SIZE(blob, 8); st->allocation_info.in.alloc_size = BVAL(blob->data, 0); return NT_STATUS_OK; case RAW_SFILEINFO_END_OF_FILE_INFO: case RAW_SFILEINFO_END_OF_FILE_INFORMATION: CHECK_MIN_BLOB_SIZE(blob, 8); st->end_of_file_info.in.size = BVAL(blob->data, 0); return NT_STATUS_OK; case RAW_SFILEINFO_RENAME_INFORMATION: { DATA_BLOB blob2; CHECK_MIN_BLOB_SIZE(blob, 12); st->rename_information.in.overwrite = CVAL(blob->data, 0); st->rename_information.in.root_fid = IVAL(blob->data, 4); len = IVAL(blob->data, 8); blob2.data = blob->data+12; blob2.length = MIN(blob->length, len); trans2_pull_blob_string(req, &blob2, 0, &st->rename_information.in.new_name, STR_UNICODE); return NT_STATUS_OK; } case RAW_SFILEINFO_POSITION_INFORMATION: CHECK_MIN_BLOB_SIZE(blob, 8); st->position_information.in.position = BVAL(blob->data, 0); return NT_STATUS_OK; case RAW_SFILEINFO_MODE_INFORMATION: CHECK_MIN_BLOB_SIZE(blob, 4); st->mode_information.in.mode = IVAL(blob->data, 0); return NT_STATUS_OK; } return NT_STATUS_INVALID_LEVEL; } /* trans2 setfileinfo implementation */ static NTSTATUS trans2_setfileinfo(struct request_context *req, struct smb_trans2 *trans) { union smb_setfileinfo st; NTSTATUS status; uint16 level, fnum; DATA_BLOB *blob; /* make sure we got enough parameters */ if (trans->in.params.length < 4) { return NT_STATUS_FOOBAR; } fnum = SVAL(trans->in.params.data, 0); level = SVAL(trans->in.params.data, 2); blob = &trans->in.data; st.generic.file.fnum = fnum; st.generic.level = (enum setfileinfo_level)level; status = trans2_parse_sfileinfo(req, &st, blob); if (!NT_STATUS_IS_OK(status)) { return status; } status = req->conn->ntvfs_ops->setfileinfo(req, &st); if (!NT_STATUS_IS_OK(status)) { return status; } trans2_setup_reply(req, trans, 2, 0, 0); SSVAL(trans->out.params.data, 0, 0); return NT_STATUS_OK; } /* trans2 setpathinfo implementation */ static NTSTATUS trans2_setpathinfo(struct request_context *req, struct smb_trans2 *trans) { union smb_setfileinfo st; NTSTATUS status; uint16 level; DATA_BLOB *blob; /* make sure we got enough parameters */ if (trans->in.params.length < 4) { return NT_STATUS_FOOBAR; } level = SVAL(trans->in.params.data, 0); blob = &trans->in.data; st.generic.level = (enum setfileinfo_level)level; trans2_pull_blob_string(req, &trans->in.params, 4, &st.generic.file.fname, 0); if (st.generic.file.fname == NULL) { return NT_STATUS_FOOBAR; } status = trans2_parse_sfileinfo(req, &st, blob); if (!NT_STATUS_IS_OK(status)) { return status; } status = req->conn->ntvfs_ops->setpathinfo(req, &st); if (!NT_STATUS_IS_OK(status)) { return status; } trans2_setup_reply(req, trans, 2, 0, 0); SSVAL(trans->out.params.data, 0, 0); return NT_STATUS_OK; } /* a structure to encapsulate the state information about an in-progress ffirst/fnext operation */ struct find_state { struct request_context *req; struct smb_trans2 *trans; enum search_level level; uint16 last_entry_offset; uint16 flags; }; /* fill a single entry in a trans2 find reply */ static void find_fill_info(struct request_context *req, struct smb_trans2 *trans, struct find_state *state, union smb_search_data *file) { char *data; uint_t ofs = trans->out.data.length; switch (state->level) { case RAW_SEARCH_SEARCH: case RAW_SEARCH_GENERIC: /* handled elsewhere */ break; case RAW_SEARCH_STANDARD: if (state->flags & FLAG_TRANS2_FIND_REQUIRE_RESUME) { trans2_grow_data(req, trans, ofs + 27); SIVAL(trans->out.data.data, ofs, file->standard.resume_key); ofs += 4; } else { trans2_grow_data(req, trans, ofs + 23); } data = trans->out.data.data + ofs; srv_push_dos_date2(req->smb, data, 0, file->standard.create_time); srv_push_dos_date2(req->smb, data, 4, file->standard.access_time); srv_push_dos_date2(req->smb, data, 8, file->standard.write_time); SIVAL(data, 12, file->standard.size); SIVAL(data, 16, file->standard.alloc_size); SSVAL(data, 20, file->standard.attrib); trans2_append_data_string(req, trans, &file->standard.name, ofs + 22, STR_LEN8BIT | STR_TERMINATE | STR_LEN_NOTERM); break; case RAW_SEARCH_EA_SIZE: if (state->flags & FLAG_TRANS2_FIND_REQUIRE_RESUME) { trans2_grow_data(req, trans, ofs + 31); SIVAL(trans->out.data.data, ofs, file->ea_size.resume_key); ofs += 4; } else { trans2_grow_data(req, trans, ofs + 27); } data = trans->out.data.data + ofs; srv_push_dos_date2(req->smb, data, 0, file->ea_size.create_time); srv_push_dos_date2(req->smb, data, 4, file->ea_size.access_time); srv_push_dos_date2(req->smb, data, 8, file->ea_size.write_time); SIVAL(data, 12, file->ea_size.size); SIVAL(data, 16, file->ea_size.alloc_size); SSVAL(data, 20, file->ea_size.attrib); SIVAL(data, 22, file->ea_size.ea_size); trans2_append_data_string(req, trans, &file->ea_size.name, ofs + 26, STR_LEN8BIT | STR_TERMINATE | STR_NOALIGN); break; case RAW_SEARCH_DIRECTORY_INFO: trans2_grow_data(req, trans, ofs + 64); data = trans->out.data.data + ofs; SIVAL(data, 4, file->directory_info.file_index); push_nttime(data, 8, file->directory_info.create_time); push_nttime(data, 16, file->directory_info.access_time); push_nttime(data, 24, file->directory_info.write_time); push_nttime(data, 32, file->directory_info.change_time); SBVAL(data, 40, file->directory_info.size); SBVAL(data, 48, file->directory_info.alloc_size); SIVAL(data, 56, file->directory_info.attrib); trans2_append_data_string(req, trans, &file->directory_info.name, ofs + 60, STR_TERMINATE_ASCII); data = trans->out.data.data + ofs; SIVAL(data, 0, trans->out.data.length - ofs); break; case RAW_SEARCH_FULL_DIRECTORY_INFO: trans2_grow_data(req, trans, ofs + 68); data = trans->out.data.data + ofs; SIVAL(data, 4, file->full_directory_info.file_index); push_nttime(data, 8, file->full_directory_info.create_time); push_nttime(data, 16, file->full_directory_info.access_time); push_nttime(data, 24, file->full_directory_info.write_time); push_nttime(data, 32, file->full_directory_info.change_time); SBVAL(data, 40, file->full_directory_info.size); SBVAL(data, 48, file->full_directory_info.alloc_size); SIVAL(data, 56, file->full_directory_info.attrib); SIVAL(data, 64, file->full_directory_info.ea_size); trans2_append_data_string(req, trans, &file->full_directory_info.name, ofs + 60, STR_TERMINATE_ASCII); data = trans->out.data.data + ofs; SIVAL(data, 0, trans->out.data.length - ofs); break; case RAW_SEARCH_NAME_INFO: trans2_grow_data(req, trans, ofs + 12); data = trans->out.data.data + ofs; SIVAL(data, 4, file->name_info.file_index); trans2_append_data_string(req, trans, &file->name_info.name, ofs + 8, STR_TERMINATE_ASCII); data = trans->out.data.data + ofs; SIVAL(data, 0, trans->out.data.length - ofs); break; case RAW_SEARCH_BOTH_DIRECTORY_INFO: trans2_grow_data(req, trans, ofs + 94); data = trans->out.data.data + ofs; SIVAL(data, 4, file->both_directory_info.file_index); push_nttime(data, 8, file->both_directory_info.create_time); push_nttime(data, 16, file->both_directory_info.access_time); push_nttime(data, 24, file->both_directory_info.write_time); push_nttime(data, 32, file->both_directory_info.change_time); SBVAL(data, 40, file->both_directory_info.size); SBVAL(data, 48, file->both_directory_info.alloc_size); SIVAL(data, 56, file->both_directory_info.attrib); SIVAL(data, 64, file->both_directory_info.ea_size); SCVAL(data, 69, 0); /* reserved */ memset(data+70,0,24); trans2_push_data_string(req, trans, 68 + ofs, 70 + ofs, &file->both_directory_info.short_name, 24, STR_UNICODE | STR_LEN8BIT); trans2_append_data_string(req, trans, &file->both_directory_info.name, ofs + 60, STR_TERMINATE_ASCII); data = trans->out.data.data + ofs; SIVAL(data, 0, trans->out.data.length - ofs); break; case RAW_SEARCH_ID_FULL_DIRECTORY_INFO: trans2_grow_data(req, trans, ofs + 80); data = trans->out.data.data + ofs; SIVAL(data, 4, file->id_full_directory_info.file_index); push_nttime(data, 8, file->id_full_directory_info.create_time); push_nttime(data, 16, file->id_full_directory_info.access_time); push_nttime(data, 24, file->id_full_directory_info.write_time); push_nttime(data, 32, file->id_full_directory_info.change_time); SBVAL(data, 40, file->id_full_directory_info.size); SBVAL(data, 48, file->id_full_directory_info.alloc_size); SIVAL(data, 56, file->id_full_directory_info.attrib); SIVAL(data, 64, file->id_full_directory_info.ea_size); SIVAL(data, 68, 0); /* padding */ SBVAL(data, 72, file->id_full_directory_info.file_id); trans2_append_data_string(req, trans, &file->id_full_directory_info.name, ofs + 60, STR_TERMINATE_ASCII); data = trans->out.data.data + ofs; SIVAL(data, 0, trans->out.data.length - ofs); break; case RAW_SEARCH_ID_BOTH_DIRECTORY_INFO: trans2_grow_data(req, trans, ofs + 104); data = trans->out.data.data + ofs; SIVAL(data, 4, file->id_both_directory_info.file_index); push_nttime(data, 8, file->id_both_directory_info.create_time); push_nttime(data, 16, file->id_both_directory_info.access_time); push_nttime(data, 24, file->id_both_directory_info.write_time); push_nttime(data, 32, file->id_both_directory_info.change_time); SBVAL(data, 40, file->id_both_directory_info.size); SBVAL(data, 48, file->id_both_directory_info.alloc_size); SIVAL(data, 56, file->id_both_directory_info.attrib); SIVAL(data, 64, file->id_both_directory_info.ea_size); SCVAL(data, 69, 0); /* reserved */ memset(data+70,0,24); trans2_push_data_string(req, trans, 68 + ofs, 70 + ofs, &file->id_both_directory_info.short_name, 24, STR_UNICODE | STR_LEN8BIT); SBVAL(data, 94, file->id_both_directory_info.file_id); SSVAL(data, 102, 0); /* reserved? */ trans2_append_data_string(req, trans, &file->id_both_directory_info.name, ofs + 60, STR_TERMINATE_ASCII); data = trans->out.data.data + ofs; SIVAL(data, 0, trans->out.data.length - ofs); break; } } /* callback function for trans2 findfirst/findnext */ static BOOL find_callback(void *private, union smb_search_data *file) { struct find_state *state = (struct find_state *)private; struct smb_trans2 *trans = state->trans; uint_t old_length; old_length = trans->out.data.length; find_fill_info(state->req, trans, state, file); /* see if we have gone beyond the user specified maximum */ if (trans->out.data.length > trans->in.max_data) { /* restore the old length and tell the backend to stop */ trans2_grow_data(state->req, trans, old_length); return False; } state->last_entry_offset = old_length; return True; } /* trans2 findfirst implementation */ static NTSTATUS trans2_findfirst(struct request_context *req, struct smb_trans2 *trans) { union smb_search_first search; NTSTATUS status; uint16 level; char *param; struct find_state state; /* make sure we got all the parameters */ if (trans->in.params.length < 14) { return NT_STATUS_FOOBAR; } search.t2ffirst.in.search_attrib = SVAL(trans->in.params.data, 0); search.t2ffirst.in.max_count = SVAL(trans->in.params.data, 2); search.t2ffirst.in.flags = SVAL(trans->in.params.data, 4); level = SVAL(trans->in.params.data, 6); search.t2ffirst.in.storage_type = IVAL(trans->in.params.data, 8); trans2_pull_blob_string(req, &trans->in.params, 12, &search.t2ffirst.in.pattern, 0); if (search.t2ffirst.in.pattern == NULL) { return NT_STATUS_FOOBAR; } search.t2ffirst.level = (enum search_level)level; if (search.t2ffirst.level >= RAW_SEARCH_GENERIC) { return NT_STATUS_INVALID_LEVEL; } /* setup the private state structure that the backend will give us in the callback */ state.req = req; state.trans = trans; state.level = search.t2ffirst.level; state.last_entry_offset = 0; state.flags = search.t2ffirst.in.flags; /* setup for just a header in the reply */ trans2_setup_reply(req, trans, 10, 0, 0); /* call the backend */ status = req->conn->ntvfs_ops->search_first(req, &search, &state, find_callback); if (!NT_STATUS_IS_OK(status)) { return status; } /* fill in the findfirst reply header */ param = trans->out.params.data; SSVAL(param, VWV(0), search.t2ffirst.out.handle); SSVAL(param, VWV(1), search.t2ffirst.out.count); SSVAL(param, VWV(2), search.t2ffirst.out.end_of_search); SSVAL(param, VWV(3), 0); SSVAL(param, VWV(4), state.last_entry_offset); return NT_STATUS_OK; } /* trans2 findnext implementation */ static NTSTATUS trans2_findnext(struct request_context *req, struct smb_trans2 *trans) { union smb_search_next search; NTSTATUS status; uint16 level; char *param; struct find_state state; /* make sure we got all the parameters */ if (trans->in.params.length < 12) { return NT_STATUS_FOOBAR; } search.t2fnext.in.handle = SVAL(trans->in.params.data, 0); search.t2fnext.in.max_count = SVAL(trans->in.params.data, 2); level = SVAL(trans->in.params.data, 4); search.t2fnext.in.resume_key = IVAL(trans->in.params.data, 6); search.t2fnext.in.flags = SVAL(trans->in.params.data, 10); trans2_pull_blob_string(req, &trans->in.params, 12, &search.t2fnext.in.last_name, 0); if (search.t2fnext.in.last_name == NULL) { return NT_STATUS_FOOBAR; } search.t2fnext.level = (enum search_level)level; if (search.t2fnext.level >= RAW_SEARCH_GENERIC) { return NT_STATUS_INVALID_LEVEL; } /* setup the private state structure that the backend will give us in the callback */ state.req = req; state.trans = trans; state.level = search.t2fnext.level; state.last_entry_offset = 0; state.flags = search.t2fnext.in.flags; /* setup for just a header in the reply */ trans2_setup_reply(req, trans, 8, 0, 0); /* call the backend */ status = req->conn->ntvfs_ops->search_next(req, &search, &state, find_callback); if (!NT_STATUS_IS_OK(status)) { return status; } /* fill in the findfirst reply header */ param = trans->out.params.data; SSVAL(param, VWV(0), search.t2fnext.out.count); SSVAL(param, VWV(1), search.t2fnext.out.end_of_search); SSVAL(param, VWV(2), 0); SSVAL(param, VWV(3), state.last_entry_offset); return NT_STATUS_OK; } /* backend for trans2 requests */ static NTSTATUS trans2_backend(struct request_context *req, struct smb_trans2 *trans) { if (req->conn->ntvfs_ops->trans2 != NULL) { /* direct trans2 pass thru */ return req->conn->ntvfs_ops->trans2(req, trans); } /* must have at least one setup word */ if (trans->in.setup_count < 1) { return NT_STATUS_FOOBAR; } /* the trans2 command is in setup[0] */ switch (trans->in.setup[0]) { case TRANSACT2_FINDFIRST: return trans2_findfirst(req, trans); case TRANSACT2_FINDNEXT: return trans2_findnext(req, trans); case TRANSACT2_QPATHINFO: return trans2_qpathinfo(req, trans); case TRANSACT2_QFILEINFO: return trans2_qfileinfo(req, trans); case TRANSACT2_SETFILEINFO: return trans2_setfileinfo(req, trans); case TRANSACT2_SETPATHINFO: return trans2_setpathinfo(req, trans); case TRANSACT2_QFSINFO: return trans2_qfsinfo(req, trans); } /* an unknown trans2 command */ return NT_STATUS_FOOBAR; } /* backend for trans requests */ static NTSTATUS trans_backend(struct request_context *req, struct smb_trans2 *trans) { if (!req->conn->ntvfs_ops->trans) { return NT_STATUS_NOT_IMPLEMENTED; } return req->conn->ntvfs_ops->trans(req, trans); } /**************************************************************************** Reply to an SMBtrans or SMBtrans2 request ****************************************************************************/ void reply_trans_generic(struct request_context *req, uint8 command) { struct smb_trans2 trans; int i; uint16 param_ofs, data_ofs; uint16 param_count, data_count; uint16 params_left, data_left; uint16 param_total, data_total; char *params, *data; NTSTATUS status; /* parse request */ if (req->in.wct < 14) { req_reply_error(req, NT_STATUS_FOOBAR); return; } param_total = SVAL(req->in.vwv, VWV(0)); data_total = SVAL(req->in.vwv, VWV(1)); trans.in.max_param = SVAL(req->in.vwv, VWV(2)); trans.in.max_data = SVAL(req->in.vwv, VWV(3)); trans.in.max_setup = CVAL(req->in.vwv, VWV(4)); trans.in.flags = SVAL(req->in.vwv, VWV(5)); trans.in.timeout = IVAL(req->in.vwv, VWV(6)); param_count = SVAL(req->in.vwv, VWV(9)); param_ofs = SVAL(req->in.vwv, VWV(10)); data_count = SVAL(req->in.vwv, VWV(11)); data_ofs = SVAL(req->in.vwv, VWV(12)); trans.in.setup_count = CVAL(req->in.vwv, VWV(13)); if (req->in.wct != 14 + trans.in.setup_count) { req_reply_dos_error(req, ERRSRV, ERRerror); return; } /* parse out the setup words */ trans.in.setup = talloc(req->mem_ctx, trans.in.setup_count * sizeof(uint16)); if (!trans.in.setup) { req_reply_error(req, NT_STATUS_NO_MEMORY); return; } for (i=0;iin.vwv, VWV(14+i)); } if (command == SMBtrans) { req_pull_string(req, &trans.in.trans_name, req->in.data, -1, STR_TERMINATE); } if (!req_pull_blob(req, req->in.hdr + param_ofs, param_count, &trans.in.params) || !req_pull_blob(req, req->in.hdr + data_ofs, data_count, &trans.in.data)) { req_reply_error(req, NT_STATUS_FOOBAR); return; } /* is it a partial request? if so, then send a 'send more' message */ if (param_total > param_count || data_total > data_count) { DEBUG(0,("REWRITE: not handling partial trans requests!\n")); return; } /* its a full request, give it to the backend */ if (command == SMBtrans) { status = trans_backend(req, &trans); } else { status = trans2_backend(req, &trans); } if (!NT_STATUS_IS_OK(status)) { req_reply_error(req, status); return; } params_left = trans.out.params.length; data_left = trans.out.data.length; params = trans.out.params.data; data = trans.out.data.data; req->control_flags |= REQ_CONTROL_PROTECTED; /* we need to divide up the reply into chunks that fit into the negotiated buffer size */ do { uint16 this_data, this_param, max_bytes; uint_t align1 = 1, align2 = (params_left ? 2 : 0); req_setup_reply(req, 10 + trans.out.setup_count, 0); max_bytes = req_max_data(req) - (align1 + align2); this_param = params_left; if (this_param > max_bytes) { this_param = max_bytes; } max_bytes -= this_param; this_data = data_left; if (this_data > max_bytes) { this_data = max_bytes; } req_grow_data(req, this_param + this_data + (align1 + align2)); SSVAL(req->out.vwv, VWV(0), trans.out.params.length); SSVAL(req->out.vwv, VWV(1), trans.out.data.length); SSVAL(req->out.vwv, VWV(2), 0); SSVAL(req->out.vwv, VWV(3), this_param); SSVAL(req->out.vwv, VWV(4), align1 + PTR_DIFF(req->out.data, req->out.hdr)); SSVAL(req->out.vwv, VWV(5), PTR_DIFF(params, trans.out.params.data)); SSVAL(req->out.vwv, VWV(6), this_data); SSVAL(req->out.vwv, VWV(7), align1 + align2 + PTR_DIFF(req->out.data + this_param, req->out.hdr)); SSVAL(req->out.vwv, VWV(8), PTR_DIFF(data, trans.out.data.data)); SSVAL(req->out.vwv, VWV(9), trans.out.setup_count); for (i=0;iout.vwv, VWV(10+i), trans.out.setup[i]); } memset(req->out.data, 0, align1); if (this_param != 0) { memcpy(req->out.data + align1, params, this_param); } memset(req->out.data+this_param+align1, 0, align2); if (this_data != 0) { memcpy(req->out.data+this_param+align1+align2, data, this_data); } params_left -= this_param; data_left -= this_data; params += this_param; data += this_data; /* if this is the last chunk then the request can be destroyed */ if (params_left == 0 && data_left == 0) { req->control_flags &= ~REQ_CONTROL_PROTECTED; } req_send_reply(req); } while (params_left != 0 || data_left != 0); } /**************************************************************************** Reply to an SMBtrans2 ****************************************************************************/ void reply_trans2(struct request_context *req) { reply_trans_generic(req, SMBtrans2); } /**************************************************************************** Reply to an SMBtrans ****************************************************************************/ void reply_trans(struct request_context *req) { reply_trans_generic(req, SMBtrans); } /**************************************************************************** Reply to an SMBtranss2 request ****************************************************************************/ void reply_transs2(struct request_context *req) { req_reply_error(req, NT_STATUS_FOOBAR); }