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samba-mirror/source4/include/smb_interfaces.h

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/*
Unix SMB/CIFS implementation.
SMB request interface structures
Copyright (C) Andrew Tridgell 2003
Copyright (C) James J Myers 2003 <myersjj@samba.org>
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.
*/
/* Globally Unique ID */
#define GUID_SIZE 16
/* 64 bit time (100 nanosec) 1601 - cifs6.txt, section 3.5, page 30 */
typedef uint64_t NTTIME;
/* 8 byte aligned 'hyper' type from MS IDL */
typedef uint64_t HYPER_T;
/* this structure is just a wrapper for a string, the only reason we
bother with this is that it allows us to check the length provided
on the wire in testsuite test code to ensure that we are
terminating names in the same way that win2003 is. The *ONLY* time
you should ever look at the 'private_length' field in this
structure is inside compliance test code, in all other cases just
use the null terminated char* as the definitive definition of the
string
also note that this structure is only used in packets where there
is an explicit length provided on the wire (hence the name). That
length is placed in 'private_length'. For packets where the length
is always determined by NULL or packet termination a normal char*
is used in the structure definition.
*/
typedef struct {
uint32_t private_length;
const char *s;
} WIRE_STRING;
/*
this header defines the structures and unions used between the SMB
parser and the backends.
*/
/* struct used for SMBlseek call */
struct smb_seek {
struct {
uint16_t fnum;
uint16_t mode;
int32_t offset; /* signed */
} in;
struct {
int32_t offset;
} out;
};
/* struct used in unlink() call */
struct smb_unlink {
struct {
const char *pattern;
uint16_t attrib;
} in;
};
/* struct used in chkpath() call */
struct smb_chkpath {
struct {
const char *path;
} in;
};
enum smb_mkdir_level {RAW_MKDIR_GENERIC, RAW_MKDIR_MKDIR, RAW_MKDIR_T2MKDIR};
/* union used in mkdir() call */
union smb_mkdir {
/* generic level */
struct {
enum smb_mkdir_level level;
} generic;
struct {
enum smb_mkdir_level level;
struct {
const char *path;
} in;
} mkdir;
struct {
enum smb_mkdir_level level;
struct {
const char *path;
uint_t num_eas;
struct ea_struct *eas;
} in;
} t2mkdir;
};
/* struct used in rmdir() call */
struct smb_rmdir {
struct {
const char *path;
} in;
};
/* struct used in rename() call */
enum smb_rename_level {RAW_RENAME_RENAME, RAW_RENAME_NTRENAME};
union smb_rename {
struct {
enum smb_rename_level level;
} generic;
/* SMBrename interface */
struct {
enum smb_rename_level level;
struct {
const char *pattern1;
const char *pattern2;
uint16_t attrib;
} in;
} rename;
/* SMBntrename interface */
struct {
enum smb_rename_level level;
struct {
uint16_t attrib;
uint16_t flags; /* see RENAME_FLAG_* */
uint32_t cluster_size;
const char *old_name;
const char *new_name;
} in;
} ntrename;
};
enum smb_tcon_level {RAW_TCON_TCON, RAW_TCON_TCONX};
/* union used in tree connect call */
union smb_tcon {
/* generic interface */
struct {
enum smb_tcon_level level;
} generic;
/* SMBtcon interface */
struct {
enum smb_tcon_level level;
struct {
const char *service;
const char *password;
const char *dev;
} in;
struct {
uint16_t max_xmit;
uint16_t cnum;
} out;
} tcon;
/* SMBtconX interface */
struct {
enum smb_tcon_level level;
struct {
uint16_t flags;
DATA_BLOB password;
const char *path;
const char *device;
} in;
struct {
uint16_t options;
char *dev_type;
char *fs_type;
uint16_t cnum;
} out;
} tconx;
};
enum smb_sesssetup_level {RAW_SESSSETUP_GENERIC, RAW_SESSSETUP_OLD, RAW_SESSSETUP_NT1, RAW_SESSSETUP_SPNEGO};
/* union used in session_setup call */
union smb_sesssetup {
/* generic interface - used for auto selecting based on negotiated
protocol options */
struct {
enum smb_sesssetup_level level;
struct {
uint32_t sesskey;
uint32_t capabilities;
const char *password;
const char *user;
const char *domain;
} in;
struct {
uint16_t vuid;
char *os;
char *lanman;
char *domain;
} out;
} generic;
/* the pre-NT1 interface */
struct {
enum smb_sesssetup_level level;
struct {
uint16_t bufsize;
uint16_t mpx_max;
uint16_t vc_num;
uint32_t sesskey;
DATA_BLOB password;
const char *user;
const char *domain;
const char *os;
const char *lanman;
} in;
struct {
uint16_t action;
uint16_t vuid;
char *os;
char *lanman;
char *domain;
} out;
} old;
/* the NT1 interface */
struct {
enum smb_sesssetup_level level;
struct {
uint16_t bufsize;
uint16_t mpx_max;
uint16_t vc_num;
uint32_t sesskey;
uint32_t capabilities;
DATA_BLOB password1;
DATA_BLOB password2;
const char *user;
const char *domain;
const char *os;
const char *lanman;
} in;
struct {
uint16_t action;
uint16_t vuid;
char *os;
char *lanman;
char *domain;
} out;
} nt1;
/* the SPNEGO interface */
struct {
enum smb_sesssetup_level level;
struct {
uint16_t bufsize;
uint16_t mpx_max;
uint16_t vc_num;
uint32_t sesskey;
uint32_t capabilities;
DATA_BLOB secblob;
const char *os;
const char *lanman;
const char *domain;
} in;
struct {
uint16_t action;
DATA_BLOB secblob;
char *os;
char *lanman;
char *domain;
uint16_t vuid;
} out;
} spnego;
};
/* Note that the specified enum values are identical to the actual info-levels used
* on the wire.
*/
enum smb_fileinfo_level {
RAW_FILEINFO_GENERIC = 0xF000,
RAW_FILEINFO_GETATTR, /* SMBgetatr */
RAW_FILEINFO_GETATTRE, /* SMBgetattrE */
RAW_FILEINFO_STANDARD = SMB_QFILEINFO_STANDARD,
RAW_FILEINFO_EA_SIZE = SMB_QFILEINFO_EA_SIZE,
RAW_FILEINFO_ALL_EAS = SMB_QFILEINFO_ALL_EAS,
RAW_FILEINFO_IS_NAME_VALID = SMB_QFILEINFO_IS_NAME_VALID,
RAW_FILEINFO_BASIC_INFO = SMB_QFILEINFO_BASIC_INFO,
RAW_FILEINFO_STANDARD_INFO = SMB_QFILEINFO_STANDARD_INFO,
RAW_FILEINFO_EA_INFO = SMB_QFILEINFO_EA_INFO,
RAW_FILEINFO_NAME_INFO = SMB_QFILEINFO_NAME_INFO,
RAW_FILEINFO_ALL_INFO = SMB_QFILEINFO_ALL_INFO,
RAW_FILEINFO_ALT_NAME_INFO = SMB_QFILEINFO_ALT_NAME_INFO,
RAW_FILEINFO_STREAM_INFO = SMB_QFILEINFO_STREAM_INFO,
RAW_FILEINFO_COMPRESSION_INFO = SMB_QFILEINFO_COMPRESSION_INFO,
RAW_FILEINFO_UNIX_BASIC = SMB_QFILEINFO_UNIX_BASIC,
RAW_FILEINFO_UNIX_LINK = SMB_QFILEINFO_UNIX_LINK,
RAW_FILEINFO_BASIC_INFORMATION = SMB_QFILEINFO_BASIC_INFORMATION,
RAW_FILEINFO_STANDARD_INFORMATION = SMB_QFILEINFO_STANDARD_INFORMATION,
RAW_FILEINFO_INTERNAL_INFORMATION = SMB_QFILEINFO_INTERNAL_INFORMATION,
RAW_FILEINFO_EA_INFORMATION = SMB_QFILEINFO_EA_INFORMATION,
RAW_FILEINFO_ACCESS_INFORMATION = SMB_QFILEINFO_ACCESS_INFORMATION,
RAW_FILEINFO_NAME_INFORMATION = SMB_QFILEINFO_NAME_INFORMATION,
RAW_FILEINFO_POSITION_INFORMATION = SMB_QFILEINFO_POSITION_INFORMATION,
RAW_FILEINFO_MODE_INFORMATION = SMB_QFILEINFO_MODE_INFORMATION,
RAW_FILEINFO_ALIGNMENT_INFORMATION = SMB_QFILEINFO_ALIGNMENT_INFORMATION,
RAW_FILEINFO_ALL_INFORMATION = SMB_QFILEINFO_ALL_INFORMATION,
RAW_FILEINFO_ALT_NAME_INFORMATION = SMB_QFILEINFO_ALT_NAME_INFORMATION,
RAW_FILEINFO_STREAM_INFORMATION = SMB_QFILEINFO_STREAM_INFORMATION,
RAW_FILEINFO_COMPRESSION_INFORMATION = SMB_QFILEINFO_COMPRESSION_INFORMATION,
RAW_FILEINFO_NETWORK_OPEN_INFORMATION = SMB_QFILEINFO_NETWORK_OPEN_INFORMATION,
RAW_FILEINFO_ATTRIBUTE_TAG_INFORMATION = SMB_QFILEINFO_ATTRIBUTE_TAG_INFORMATION
};
/* union used in qfileinfo() and qpathinfo() backend calls */
union smb_fileinfo {
/* generic interface:
* matches RAW_FILEINFO_GENERIC */
struct {
enum smb_fileinfo_level level;
/* each level can be called on either a pathname or a
* filename, in either case the return format is
* identical */
union smb_fileinfo_in {
const char *fname;
uint16_t fnum;
} in;
struct {
uint32_t attrib;
uint32_t ea_size;
uint_t num_eas;
struct ea_struct {
uint8_t flags;
WIRE_STRING name;
DATA_BLOB value;
} *eas;
NTTIME create_time;
NTTIME access_time;
NTTIME write_time;
NTTIME change_time;
uint64_t alloc_size;
uint64_t size;
uint32_t nlink;
WIRE_STRING fname;
WIRE_STRING alt_fname;
uint8_t delete_pending;
uint8_t directory;
uint64_t compressed_size;
uint16_t format;
uint8_t unit_shift;
uint8_t chunk_shift;
uint8_t cluster_shift;
uint64_t file_id;
uint32_t access_flags; /* seen 0x001f01ff from w2k3 */
uint64_t position;
uint32_t mode;
uint32_t alignment_requirement;
uint32_t reparse_tag;
uint_t num_streams;
struct stream_struct {
uint64_t size;
uint64_t alloc_size;
WIRE_STRING stream_name;
} *streams;
} out;
} generic;
/* SMBgetatr interface:
* matches RAW_FILEINFO_GETATTR */
struct {
enum smb_fileinfo_level level;
union smb_fileinfo_in in;
struct {
uint16_t attrib;
uint32_t size;
time_t write_time;
} out;
} getattr;
/* SMBgetattrE interface */
struct {
enum smb_fileinfo_level level;
union smb_fileinfo_in in;
struct {
time_t create_time;
time_t access_time;
time_t write_time;
uint32_t size;
uint32_t alloc_size;
uint16_t attrib;
} out;
} getattre;
/* trans2 RAW_FILEINFO_STANDARD interface */
struct {
enum smb_fileinfo_level level;
union smb_fileinfo_in in;
struct {
time_t create_time;
time_t access_time;
time_t write_time;
uint32_t size;
uint32_t alloc_size;
uint16_t attrib;
} out;
} standard;
/* trans2 RAW_FILEINFO_EA_SIZE interface */
struct {
enum smb_fileinfo_level level;
union smb_fileinfo_in in;
struct {
time_t create_time;
time_t access_time;
time_t write_time;
uint32_t size;
uint32_t alloc_size;
uint16_t attrib;
uint32_t ea_size;
} out;
} ea_size;
/* trans2 RAW_FILEINFO_ALL_EAS interface */
struct {
enum smb_fileinfo_level level;
union smb_fileinfo_in in;
struct {
/* the ea_size is implied by the list */
uint_t num_eas;
struct ea_struct *eas;
} out;
} all_eas;
/* trans2 qpathinfo RAW_FILEINFO_IS_NAME_VALID interface
only valid for a QPATHNAME call - no returned data */
struct {
enum smb_fileinfo_level level;
union smb_fileinfo_in in;
} is_name_valid;
/* RAW_FILEINFO_BASIC_INFO and RAW_FILEINFO_BASIC_INFORMATION interfaces */
struct {
enum smb_fileinfo_level level;
union smb_fileinfo_in in;
struct {
NTTIME create_time;
NTTIME access_time;
NTTIME write_time;
NTTIME change_time;
uint32_t attrib;
} out;
} basic_info;
/* RAW_FILEINFO_STANDARD_INFO and RAW_FILEINFO_STANDARD_INFORMATION interfaces */
struct {
enum smb_fileinfo_level level;
union smb_fileinfo_in in;
struct {
uint64_t alloc_size;
uint64_t size;
uint32_t nlink;
BOOL delete_pending;
BOOL directory;
} out;
} standard_info;
/* RAW_FILEINFO_EA_INFO and RAW_FILEINFO_EA_INFORMATION interfaces */
struct {
enum smb_fileinfo_level level;
union smb_fileinfo_in in;
struct {
uint32_t ea_size;
} out;
} ea_info;
/* RAW_FILEINFO_NAME_INFO and RAW_FILEINFO_NAME_INFORMATION interfaces */
struct {
enum smb_fileinfo_level level;
union smb_fileinfo_in in;
struct {
WIRE_STRING fname;
} out;
} name_info;
/* RAW_FILEINFO_ALL_INFO and RAW_FILEINFO_ALL_INFORMATION interfaces */
struct {
enum smb_fileinfo_level level;
union smb_fileinfo_in in;
struct {
NTTIME create_time;
NTTIME access_time;
NTTIME write_time;
NTTIME change_time;
uint32_t attrib;
uint64_t alloc_size;
uint64_t size;
uint32_t nlink;
uint8_t delete_pending;
uint8_t directory;
uint32_t ea_size;
WIRE_STRING fname;
} out;
} all_info;
/* RAW_FILEINFO_ALT_NAME_INFO and RAW_FILEINFO_ALT_NAME_INFORMATION interfaces */
struct {
enum smb_fileinfo_level level;
union smb_fileinfo_in in;
struct {
WIRE_STRING fname;
} out;
} alt_name_info;
/* RAW_FILEINFO_STREAM_INFO and RAW_FILEINFO_STREAM_INFORMATION interfaces */
struct {
enum smb_fileinfo_level level;
union smb_fileinfo_in in;
struct {
uint_t num_streams;
struct stream_struct *streams;
} out;
} stream_info;
/* RAW_FILEINFO_COMPRESSION_INFO and RAW_FILEINFO_COMPRESSION_INFORMATION interfaces */
struct {
enum smb_fileinfo_level level;
union smb_fileinfo_in in;
struct {
uint64_t compressed_size;
uint16_t format;
uint8_t unit_shift;
uint8_t chunk_shift;
uint8_t cluster_shift;
} out;
} compression_info;
/* RAW_FILEINFO_UNIX_BASIC interface */
struct {
enum smb_fileinfo_level level;
union smb_fileinfo_in in;
struct {
uint64_t end_of_file;
uint64_t num_bytes;
NTTIME status_change_time;
NTTIME access_time;
NTTIME change_time;
uint64_t uid;
uint64_t gid;
uint32_t file_type;
uint64_t dev_major;
uint64_t dev_minor;
uint64_t unique_id;
uint64_t permissions;
uint64_t nlink;
} out;
} unix_basic_info;
/* RAW_FILEINFO_UNIX_LINK interface */
struct {
enum smb_fileinfo_level level;
union smb_fileinfo_in in;
struct {
WIRE_STRING link_dest;
} out;
} unix_link_info;
/* RAW_FILEINFO_INTERNAL_INFORMATION interface */
struct {
enum smb_fileinfo_level level;
union smb_fileinfo_in in;
struct {
uint64_t file_id;
} out;
} internal_information;
/* RAW_FILEINFO_ACCESS_INFORMATION interface */
struct {
enum smb_fileinfo_level level;
union smb_fileinfo_in in;
struct {
uint32_t access_flags; /* seen 0x001f01ff from w2k3 */
} out;
} access_information;
/* RAW_FILEINFO_POSITION_INFORMATION interface */
struct {
enum smb_fileinfo_level level;
union smb_fileinfo_in in;
struct {
uint64_t position;
} out;
} position_information;
/* RAW_FILEINFO_MODE_INFORMATION interface */
struct {
enum smb_fileinfo_level level;
union smb_fileinfo_in in;
struct {
uint32_t mode;
} out;
} mode_information;
/* RAW_FILEINFO_ALIGNMENT_INFORMATION interface */
struct {
enum smb_fileinfo_level level;
union smb_fileinfo_in in;
struct {
uint32_t alignment_requirement;
} out;
} alignment_information;
/* RAW_FILEINFO_NETWORK_OPEN_INFORMATION interface */
struct {
enum smb_fileinfo_level level;
union smb_fileinfo_in in;
struct {
NTTIME create_time;
NTTIME access_time;
NTTIME write_time;
NTTIME change_time;
uint64_t alloc_size;
uint64_t size;
uint32_t attrib;
} out;
} network_open_information;
/* RAW_FILEINFO_ATTRIBUTE_TAG_INFORMATION interface */
struct {
enum smb_fileinfo_level level;
union smb_fileinfo_in in;
struct {
uint32_t attrib;
uint32_t reparse_tag;
} out;
} attribute_tag_information;
};
enum smb_setfileinfo_level {
RAW_SFILEINFO_GENERIC = 0xF000,
RAW_SFILEINFO_SETATTR, /* SMBsetatr */
RAW_SFILEINFO_SETATTRE, /* SMBsetattrE */
RAW_SFILEINFO_STANDARD = SMB_SFILEINFO_STANDARD,
RAW_SFILEINFO_EA_SET = SMB_SFILEINFO_EA_SET,
RAW_SFILEINFO_BASIC_INFO = SMB_SFILEINFO_BASIC_INFO,
RAW_SFILEINFO_DISPOSITION_INFO = SMB_SFILEINFO_DISPOSITION_INFO,
RAW_SFILEINFO_ALLOCATION_INFO = SMB_SFILEINFO_ALLOCATION_INFO,
RAW_SFILEINFO_END_OF_FILE_INFO = SMB_SFILEINFO_END_OF_FILE_INFO,
RAW_SFILEINFO_UNIX_BASIC = SMB_SFILEINFO_UNIX_BASIC,
RAW_SFILEINFO_UNIX_LINK = SMB_SFILEINFO_UNIX_LINK,
RAW_SFILEINFO_UNIX_HLINK = SMB_SFILEINFO_UNIX_HLINK,
RAW_SFILEINFO_BASIC_INFORMATION = SMB_SFILEINFO_BASIC_INFORMATION,
RAW_SFILEINFO_RENAME_INFORMATION = SMB_SFILEINFO_RENAME_INFORMATION,
RAW_SFILEINFO_DISPOSITION_INFORMATION = SMB_SFILEINFO_DISPOSITION_INFORMATION,
RAW_SFILEINFO_POSITION_INFORMATION = SMB_SFILEINFO_POSITION_INFORMATION,
RAW_SFILEINFO_MODE_INFORMATION = SMB_SFILEINFO_MODE_INFORMATION,
RAW_SFILEINFO_ALLOCATION_INFORMATION = SMB_SFILEINFO_ALLOCATION_INFORMATION,
RAW_SFILEINFO_END_OF_FILE_INFORMATION = SMB_SFILEINFO_END_OF_FILE_INFORMATION,
RAW_SFILEINFO_1023 = SMB_SFILEINFO_1023,
RAW_SFILEINFO_1025 = SMB_SFILEINFO_1025,
RAW_SFILEINFO_1029 = SMB_SFILEINFO_1029,
RAW_SFILEINFO_1032 = SMB_SFILEINFO_1032,
RAW_SFILEINFO_1039 = SMB_SFILEINFO_1039,
RAW_SFILEINFO_1040 = SMB_SFILEINFO_1040
};
/* union used in setfileinfo() and setpathinfo() calls */
union smb_setfileinfo {
/* generic interface */
struct {
enum smb_setfileinfo_level level;
/* we are combining setfileinfo and setpathinfo into one
interface */
union setfileinfo_file {
const char *fname;
uint16_t fnum;
} file;
} generic;
/* RAW_SFILEINFO_SETATTR (SMBsetatr) interface - only via setpathinfo() */
struct {
enum smb_setfileinfo_level level;
union setfileinfo_file file;
struct {
uint16_t attrib;
time_t write_time;
} in;
} setattr;
/* RAW_SFILEINFO_SETATTRE (SMBsetattrE) interface - only via setfileinfo() */
struct {
enum smb_setfileinfo_level level;
union setfileinfo_file file;
struct {
time_t create_time;
time_t access_time;
time_t write_time;
} in;
} setattre;
/* RAW_SFILEINFO_STANDARD interface */
struct {
enum smb_setfileinfo_level level;
union setfileinfo_file file;
struct {
time_t create_time;
time_t access_time;
time_t write_time;
/* notice that size, alloc_size and attrib are not settable,
unlike the corresponding qfileinfo level */
} in;
} standard;
/* RAW_SFILEINFO_EA_SET interface */
struct {
enum smb_setfileinfo_level level;
union setfileinfo_file file;
struct {
struct ea_struct ea;
} in;
} ea_set;
/* RAW_SFILEINFO_BASIC_INFO and
RAW_SFILEINFO_BASIC_INFORMATION interfaces */
struct {
enum smb_setfileinfo_level level;
union setfileinfo_file file;
struct {
NTTIME create_time;
NTTIME access_time;
NTTIME write_time;
NTTIME change_time;
uint32_t attrib;
} in;
} basic_info;
/* RAW_SFILEINFO_DISPOSITION_INFO and
RAW_SFILEINFO_DISPOSITION_INFORMATION interfaces */
struct {
enum smb_setfileinfo_level level;
union setfileinfo_file file;
struct {
BOOL delete_on_close;
} in;
} disposition_info;
/* RAW_SFILEINFO_ALLOCATION_INFO and
RAW_SFILEINFO_ALLOCATION_INFORMATION interfaces */
struct {
enum smb_setfileinfo_level level;
union setfileinfo_file file;
struct {
/* w2k3 rounds this up to nearest 4096 */
uint64_t alloc_size;
} in;
} allocation_info;
/* RAW_SFILEINFO_END_OF_FILE_INFO and
RAW_SFILEINFO_END_OF_FILE_INFORMATION interfaces */
struct {
enum smb_setfileinfo_level level;
union setfileinfo_file file;
struct {
uint64_t size;
} in;
} end_of_file_info;
/* RAW_SFILEINFO_RENAME_INFORMATION interface */
struct {
enum smb_setfileinfo_level level;
union setfileinfo_file file;
struct {
uint8_t overwrite;
uint32_t root_fid;
const char *new_name;
} in;
} rename_information;
/* RAW_SFILEINFO_POSITION_INFORMATION interface */
struct {
enum smb_setfileinfo_level level;
union setfileinfo_file file;
struct {
uint64_t position;
} in;
} position_information;
/* RAW_SFILEINFO_MODE_INFORMATION interface */
struct {
enum smb_setfileinfo_level level;
union setfileinfo_file file;
struct {
/* valid values seem to be 0, 2, 4 and 6 */
uint32_t mode;
} in;
} mode_information;
/* RAW_SFILEINFO_UNIX_BASIC interface */
struct {
enum smb_setfileinfo_level level;
union setfileinfo_file file;
struct {
uint32_t mode; /* yuck - this field remains to fix compile of libcli/clifile.c */
uint64_t end_of_file;
uint64_t num_bytes;
NTTIME status_change_time;
NTTIME access_time;
NTTIME change_time;
uint64_t uid;
uint64_t gid;
uint32_t file_type;
uint64_t dev_major;
uint64_t dev_minor;
uint64_t unique_id;
uint64_t permissions;
uint64_t nlink;
} in;
} unix_basic;
/* RAW_SFILEINFO_UNIX_LINK, RAW_SFILEINFO_UNIX_HLINK interface */
struct {
enum smb_setfileinfo_level level;
union setfileinfo_file file;
struct {
const char *link_dest;
} in;
} unix_link, unix_hlink;
};
enum smb_fsinfo_level {
RAW_QFS_GENERIC = 0xF000,
RAW_QFS_DSKATTR, /* SMBdskattr */
RAW_QFS_ALLOCATION = SMB_QFS_ALLOCATION,
RAW_QFS_VOLUME = SMB_QFS_VOLUME,
RAW_QFS_VOLUME_INFO = SMB_QFS_VOLUME_INFO,
RAW_QFS_SIZE_INFO = SMB_QFS_SIZE_INFO,
RAW_QFS_DEVICE_INFO = SMB_QFS_DEVICE_INFO,
RAW_QFS_ATTRIBUTE_INFO = SMB_QFS_ATTRIBUTE_INFO,
RAW_QFS_UNIX_INFO = SMB_QFS_UNIX_INFO,
RAW_QFS_VOLUME_INFORMATION = SMB_QFS_VOLUME_INFORMATION,
RAW_QFS_SIZE_INFORMATION = SMB_QFS_SIZE_INFORMATION,
RAW_QFS_DEVICE_INFORMATION = SMB_QFS_DEVICE_INFORMATION,
RAW_QFS_ATTRIBUTE_INFORMATION = SMB_QFS_ATTRIBUTE_INFORMATION,
RAW_QFS_QUOTA_INFORMATION = SMB_QFS_QUOTA_INFORMATION,
RAW_QFS_FULL_SIZE_INFORMATION = SMB_QFS_FULL_SIZE_INFORMATION,
RAW_QFS_OBJECTID_INFORMATION = SMB_QFS_OBJECTID_INFORMATION};
/* union for fsinfo() backend call. Note that there are no in
structures, as this call only contains out parameters */
union smb_fsinfo {
/* generic interface */
struct {
enum smb_fsinfo_level level;
struct {
uint32_t block_size;
uint64_t blocks_total;
uint64_t blocks_free;
uint32_t fs_id;
NTTIME create_time;
uint32_t serial_number;
uint32_t fs_attr;
uint32_t max_file_component_length;
uint32_t device_type;
uint32_t device_characteristics;
uint64_t quota_soft;
uint64_t quota_hard;
uint64_t quota_flags;
struct GUID guid;
char *volume_name;
char *fs_type;
} out;
} generic;
/* SMBdskattr interface */
struct {
enum smb_fsinfo_level level;
struct {
uint16_t units_total;
uint16_t blocks_per_unit;
uint16_t block_size;
uint16_t units_free;
} out;
} dskattr;
/* trans2 RAW_QFS_ALLOCATION interface */
struct {
enum smb_fsinfo_level level;
struct {
uint32_t fs_id;
uint32_t sectors_per_unit;
uint32_t total_alloc_units;
uint32_t avail_alloc_units;
uint16_t bytes_per_sector;
} out;
} allocation;
/* TRANS2 RAW_QFS_VOLUME interface */
struct {
enum smb_fsinfo_level level;
struct {
uint32_t serial_number;
WIRE_STRING volume_name;
} out;
} volume;
/* TRANS2 RAW_QFS_VOLUME_INFO and RAW_QFS_VOLUME_INFORMATION interfaces */
struct {
enum smb_fsinfo_level level;
struct {
NTTIME create_time;
uint32_t serial_number;
WIRE_STRING volume_name;
} out;
} volume_info;
/* trans2 RAW_QFS_SIZE_INFO and RAW_QFS_SIZE_INFORMATION interfaces */
struct {
enum smb_fsinfo_level level;
struct {
uint64_t total_alloc_units;
uint64_t avail_alloc_units; /* maps to call_avail_alloc_units */
uint32_t sectors_per_unit;
uint32_t bytes_per_sector;
} out;
} size_info;
/* TRANS2 RAW_QFS_DEVICE_INFO and RAW_QFS_DEVICE_INFORMATION interfaces */
struct {
enum smb_fsinfo_level level;
struct {
uint32_t device_type;
uint32_t characteristics;
} out;
} device_info;
/* TRANS2 RAW_QFS_ATTRIBUTE_INFO and RAW_QFS_ATTRIBUTE_INFORMATION interfaces */
struct {
enum smb_fsinfo_level level;
struct {
uint32_t fs_attr;
uint32_t max_file_component_length;
WIRE_STRING fs_type;
} out;
} attribute_info;
/* TRANS2 RAW_QFS_UNIX_INFO interface */
struct {
enum smb_fsinfo_level level;
struct {
uint16_t major_version;
uint16_t minor_version;
uint64_t capability;
} out;
} unix_info;
/* trans2 RAW_QFS_QUOTA_INFORMATION interface */
struct {
enum smb_fsinfo_level level;
struct {
uint64_t unknown[3];
uint64_t quota_soft;
uint64_t quota_hard;
uint64_t quota_flags;
} out;
} quota_information;
/* trans2 RAW_QFS_FULL_SIZE_INFORMATION interface */
struct {
enum smb_fsinfo_level level;
struct {
uint64_t total_alloc_units;
uint64_t call_avail_alloc_units;
uint64_t actual_avail_alloc_units;
uint32_t sectors_per_unit;
uint32_t bytes_per_sector;
} out;
} full_size_information;
/* trans2 RAW_QFS_OBJECTID_INFORMATION interface */
struct {
enum smb_fsinfo_level level;
struct {
struct GUID guid;
uint64_t unknown[6];
} out;
} objectid_information;
};
enum smb_open_level {
RAW_OPEN_OPEN, RAW_OPEN_OPENX,
RAW_OPEN_MKNEW, RAW_OPEN_CREATE,
RAW_OPEN_CTEMP, RAW_OPEN_SPLOPEN,
RAW_OPEN_NTCREATEX, RAW_OPEN_T2OPEN};
/* the generic interface is defined to be equal to the NTCREATEX interface */
#define RAW_OPEN_GENERIC RAW_OPEN_NTCREATEX
/* union for open() backend call */
union smb_open {
/* SMBNTCreateX interface */
struct {
enum smb_open_level level;
struct {
uint32_t flags;
uint32_t root_fid;
uint32_t access_mask;
uint64_t alloc_size;
uint32_t file_attr;
uint32_t share_access;
uint32_t open_disposition;
uint32_t create_options;
uint32_t impersonation;
uint8_t security_flags;
/* NOTE: fname can also be a pointer to a
uint64_t file_id if create_options has the
NTCREATEX_OPTIONS_OPEN_BY_FILE_ID flag set */
const char *fname;
} in;
struct {
uint8_t oplock_level;
uint16_t fnum;
uint32_t create_action;
NTTIME create_time;
NTTIME access_time;
NTTIME write_time;
NTTIME change_time;
uint32_t attrib;
uint64_t alloc_size;
uint64_t size;
uint16_t file_type;
uint16_t ipc_state;
uint8_t is_directory;
} out;
} ntcreatex, generic;
/* TRANS2_OPEN interface */
struct {
enum smb_open_level level;
struct {
uint16_t flags;
uint16_t open_mode;
uint16_t file_attrs;
time_t write_time;
uint16_t open_func;
uint32_t size;
uint32_t timeout;
const char *fname;
uint_t num_eas;
struct ea_struct *eas;
} in;
struct {
uint16_t fnum;
uint16_t attrib;
time_t write_time;
uint32_t size;
uint16_t access;
uint16_t ftype;
uint16_t devstate;
uint16_t action;
uint32_t unknown;
} out;
} t2open;
/* SMBopen interface */
struct {
enum smb_open_level level;
struct {
uint16_t flags;
uint16_t search_attrs;
const char *fname;
} in;
struct {
uint16_t fnum;
uint16_t attrib;
time_t write_time;
uint32_t size;
uint16_t rmode;
} out;
} open;
/* SMBopenX interface */
struct {
enum smb_open_level level;
struct {
uint16_t flags;
uint16_t open_mode;
uint16_t search_attrs; /* not honoured by win2003 */
uint16_t file_attrs;
time_t write_time; /* not honoured by win2003 */
uint16_t open_func;
uint32_t size; /* note that this sets the
initial file size, not
just allocation size */
uint32_t timeout; /* not honoured by win2003 */
const char *fname;
} in;
struct {
uint16_t fnum;
uint16_t attrib;
time_t write_time;
uint32_t size;
uint16_t access;
uint16_t ftype;
uint16_t devstate;
uint16_t action;
uint32_t unique_fid;
uint32_t access_mask;
uint32_t unknown;
} out;
} openx;
/* SMBmknew interface */
struct {
enum smb_open_level level;
struct {
uint16_t attrib;
time_t write_time;
const char *fname;
} in;
struct {
uint16_t fnum;
} out;
} mknew, create;
/* SMBctemp interface */
struct {
enum smb_open_level level;
struct {
uint16_t attrib;
time_t write_time;
const char *directory;
} in;
struct {
uint16_t fnum;
/* temp name, relative to directory */
char *name;
} out;
} ctemp;
/* SMBsplopen interface */
struct {
enum smb_open_level level;
struct {
uint16_t setup_length;
uint16_t mode;
const char *ident;
} in;
struct {
uint16_t fnum;
} out;
} splopen;
};
r3081: several updates to ntvfs and server side async request handling in preparation for the full share modes and ntcreatex code that I am working on. highlights include: - changed the way a backend determines if it is allowed to process a request asynchronously. The previous method of looking at the send_fn caused problems when an intermediate ntvfs module disabled it, and the caller then wanted to finished processing using this function. The new method is a REQ_CONTROL_MAY_ASYNC flag in req->control_flags, which is also a bit easier to read - fixed 2 bugs in the readbraw server code. One related to trying to answer a readbraw with smb signing (which can't work, and crashed our signing code), the second related to error handling, which attempted to send a normal SMB error packet, when readbraw must send a 0 read reply (as it has no header) - added several more ntvfs_generic.c generic mapping functions. This means that backends no longer need to implement such esoteric functions as SMBwriteunlock() if they don't want to. The backend can just request the mapping layer turn it into a write followed by an unlock. This makes the backends considerably simpler as they only need to implement one style of each function for lock, read, write, open etc, rather than the full host of functions that SMB provides. A backend can still choose to implement them individually, of course, and the CIFS backend does that. - simplified the generic structures to make them identical to the principal call for several common SMB calls (such as RAW_WRITE_GENERIC now being an alias for RAW_WRITE_WRITEX). - started rewriting the pvfs_open() code in preparation for the full ntcreatex semantics. - in pvfs_open and ipc_open, initially allocate the open file structure as a child of the request, so on error we don't need to clean up. Then when we are going to succeed the open steal the pointer into the long term backend context. This makes for much simpler error handling (and fixes some bugs) - use a destructor in the ipc backend to make sure that everthing is cleaned up on receive error conditions. - switched the ipc backend to using idtree for fnum allocation - in the ntvfs_generic mapping routines, use a allocated secondary structure not a stack structure to ensure the request pointer remains valid even if the backend replies async. (This used to be commit 3457c1836c09c82956697eb21627dfa2ed37682e)
2004-10-20 12:28:31 +04:00
enum smb_read_level {RAW_READ_READBRAW, RAW_READ_LOCKREAD, RAW_READ_READ, RAW_READ_READX};
#define RAW_READ_GENERIC RAW_READ_READX
/* union for read() backend call
note that .infoX.out.data will be allocated before the backend is
called. It will be big enough to hold the maximum size asked for
*/
union smb_read {
r3081: several updates to ntvfs and server side async request handling in preparation for the full share modes and ntcreatex code that I am working on. highlights include: - changed the way a backend determines if it is allowed to process a request asynchronously. The previous method of looking at the send_fn caused problems when an intermediate ntvfs module disabled it, and the caller then wanted to finished processing using this function. The new method is a REQ_CONTROL_MAY_ASYNC flag in req->control_flags, which is also a bit easier to read - fixed 2 bugs in the readbraw server code. One related to trying to answer a readbraw with smb signing (which can't work, and crashed our signing code), the second related to error handling, which attempted to send a normal SMB error packet, when readbraw must send a 0 read reply (as it has no header) - added several more ntvfs_generic.c generic mapping functions. This means that backends no longer need to implement such esoteric functions as SMBwriteunlock() if they don't want to. The backend can just request the mapping layer turn it into a write followed by an unlock. This makes the backends considerably simpler as they only need to implement one style of each function for lock, read, write, open etc, rather than the full host of functions that SMB provides. A backend can still choose to implement them individually, of course, and the CIFS backend does that. - simplified the generic structures to make them identical to the principal call for several common SMB calls (such as RAW_WRITE_GENERIC now being an alias for RAW_WRITE_WRITEX). - started rewriting the pvfs_open() code in preparation for the full ntcreatex semantics. - in pvfs_open and ipc_open, initially allocate the open file structure as a child of the request, so on error we don't need to clean up. Then when we are going to succeed the open steal the pointer into the long term backend context. This makes for much simpler error handling (and fixes some bugs) - use a destructor in the ipc backend to make sure that everthing is cleaned up on receive error conditions. - switched the ipc backend to using idtree for fnum allocation - in the ntvfs_generic mapping routines, use a allocated secondary structure not a stack structure to ensure the request pointer remains valid even if the backend replies async. (This used to be commit 3457c1836c09c82956697eb21627dfa2ed37682e)
2004-10-20 12:28:31 +04:00
/* SMBreadX (and generic) interface */
struct {
enum smb_read_level level;
struct {
uint16_t fnum;
uint64_t offset;
r3081: several updates to ntvfs and server side async request handling in preparation for the full share modes and ntcreatex code that I am working on. highlights include: - changed the way a backend determines if it is allowed to process a request asynchronously. The previous method of looking at the send_fn caused problems when an intermediate ntvfs module disabled it, and the caller then wanted to finished processing using this function. The new method is a REQ_CONTROL_MAY_ASYNC flag in req->control_flags, which is also a bit easier to read - fixed 2 bugs in the readbraw server code. One related to trying to answer a readbraw with smb signing (which can't work, and crashed our signing code), the second related to error handling, which attempted to send a normal SMB error packet, when readbraw must send a 0 read reply (as it has no header) - added several more ntvfs_generic.c generic mapping functions. This means that backends no longer need to implement such esoteric functions as SMBwriteunlock() if they don't want to. The backend can just request the mapping layer turn it into a write followed by an unlock. This makes the backends considerably simpler as they only need to implement one style of each function for lock, read, write, open etc, rather than the full host of functions that SMB provides. A backend can still choose to implement them individually, of course, and the CIFS backend does that. - simplified the generic structures to make them identical to the principal call for several common SMB calls (such as RAW_WRITE_GENERIC now being an alias for RAW_WRITE_WRITEX). - started rewriting the pvfs_open() code in preparation for the full ntcreatex semantics. - in pvfs_open and ipc_open, initially allocate the open file structure as a child of the request, so on error we don't need to clean up. Then when we are going to succeed the open steal the pointer into the long term backend context. This makes for much simpler error handling (and fixes some bugs) - use a destructor in the ipc backend to make sure that everthing is cleaned up on receive error conditions. - switched the ipc backend to using idtree for fnum allocation - in the ntvfs_generic mapping routines, use a allocated secondary structure not a stack structure to ensure the request pointer remains valid even if the backend replies async. (This used to be commit 3457c1836c09c82956697eb21627dfa2ed37682e)
2004-10-20 12:28:31 +04:00
uint16_t mincnt;
uint16_t maxcnt;
uint16_t remaining;
} in;
struct {
char *data;
r3081: several updates to ntvfs and server side async request handling in preparation for the full share modes and ntcreatex code that I am working on. highlights include: - changed the way a backend determines if it is allowed to process a request asynchronously. The previous method of looking at the send_fn caused problems when an intermediate ntvfs module disabled it, and the caller then wanted to finished processing using this function. The new method is a REQ_CONTROL_MAY_ASYNC flag in req->control_flags, which is also a bit easier to read - fixed 2 bugs in the readbraw server code. One related to trying to answer a readbraw with smb signing (which can't work, and crashed our signing code), the second related to error handling, which attempted to send a normal SMB error packet, when readbraw must send a 0 read reply (as it has no header) - added several more ntvfs_generic.c generic mapping functions. This means that backends no longer need to implement such esoteric functions as SMBwriteunlock() if they don't want to. The backend can just request the mapping layer turn it into a write followed by an unlock. This makes the backends considerably simpler as they only need to implement one style of each function for lock, read, write, open etc, rather than the full host of functions that SMB provides. A backend can still choose to implement them individually, of course, and the CIFS backend does that. - simplified the generic structures to make them identical to the principal call for several common SMB calls (such as RAW_WRITE_GENERIC now being an alias for RAW_WRITE_WRITEX). - started rewriting the pvfs_open() code in preparation for the full ntcreatex semantics. - in pvfs_open and ipc_open, initially allocate the open file structure as a child of the request, so on error we don't need to clean up. Then when we are going to succeed the open steal the pointer into the long term backend context. This makes for much simpler error handling (and fixes some bugs) - use a destructor in the ipc backend to make sure that everthing is cleaned up on receive error conditions. - switched the ipc backend to using idtree for fnum allocation - in the ntvfs_generic mapping routines, use a allocated secondary structure not a stack structure to ensure the request pointer remains valid even if the backend replies async. (This used to be commit 3457c1836c09c82956697eb21627dfa2ed37682e)
2004-10-20 12:28:31 +04:00
uint16_t remaining;
uint16_t compaction_mode;
uint16_t nread;
} out;
r3081: several updates to ntvfs and server side async request handling in preparation for the full share modes and ntcreatex code that I am working on. highlights include: - changed the way a backend determines if it is allowed to process a request asynchronously. The previous method of looking at the send_fn caused problems when an intermediate ntvfs module disabled it, and the caller then wanted to finished processing using this function. The new method is a REQ_CONTROL_MAY_ASYNC flag in req->control_flags, which is also a bit easier to read - fixed 2 bugs in the readbraw server code. One related to trying to answer a readbraw with smb signing (which can't work, and crashed our signing code), the second related to error handling, which attempted to send a normal SMB error packet, when readbraw must send a 0 read reply (as it has no header) - added several more ntvfs_generic.c generic mapping functions. This means that backends no longer need to implement such esoteric functions as SMBwriteunlock() if they don't want to. The backend can just request the mapping layer turn it into a write followed by an unlock. This makes the backends considerably simpler as they only need to implement one style of each function for lock, read, write, open etc, rather than the full host of functions that SMB provides. A backend can still choose to implement them individually, of course, and the CIFS backend does that. - simplified the generic structures to make them identical to the principal call for several common SMB calls (such as RAW_WRITE_GENERIC now being an alias for RAW_WRITE_WRITEX). - started rewriting the pvfs_open() code in preparation for the full ntcreatex semantics. - in pvfs_open and ipc_open, initially allocate the open file structure as a child of the request, so on error we don't need to clean up. Then when we are going to succeed the open steal the pointer into the long term backend context. This makes for much simpler error handling (and fixes some bugs) - use a destructor in the ipc backend to make sure that everthing is cleaned up on receive error conditions. - switched the ipc backend to using idtree for fnum allocation - in the ntvfs_generic mapping routines, use a allocated secondary structure not a stack structure to ensure the request pointer remains valid even if the backend replies async. (This used to be commit 3457c1836c09c82956697eb21627dfa2ed37682e)
2004-10-20 12:28:31 +04:00
} readx, generic;
/* SMBreadbraw interface */
struct {
enum smb_read_level level;
struct {
uint16_t fnum;
uint64_t offset;
uint16_t maxcnt;
uint16_t mincnt;
uint32_t timeout;
} in;
struct {
char *data;
uint32_t nread;
} out;
} readbraw;
/* SMBlockandread interface */
struct {
enum smb_read_level level;
struct {
uint16_t fnum;
uint16_t count;
uint32_t offset;
uint16_t remaining;
} in;
struct {
char *data;
uint16_t nread;
} out;
} lockread;
/* SMBread interface */
struct {
enum smb_read_level level;
struct {
uint16_t fnum;
uint16_t count;
uint32_t offset;
uint16_t remaining;
} in;
struct {
char *data;
uint16_t nread;
} out;
} read;
};
r3081: several updates to ntvfs and server side async request handling in preparation for the full share modes and ntcreatex code that I am working on. highlights include: - changed the way a backend determines if it is allowed to process a request asynchronously. The previous method of looking at the send_fn caused problems when an intermediate ntvfs module disabled it, and the caller then wanted to finished processing using this function. The new method is a REQ_CONTROL_MAY_ASYNC flag in req->control_flags, which is also a bit easier to read - fixed 2 bugs in the readbraw server code. One related to trying to answer a readbraw with smb signing (which can't work, and crashed our signing code), the second related to error handling, which attempted to send a normal SMB error packet, when readbraw must send a 0 read reply (as it has no header) - added several more ntvfs_generic.c generic mapping functions. This means that backends no longer need to implement such esoteric functions as SMBwriteunlock() if they don't want to. The backend can just request the mapping layer turn it into a write followed by an unlock. This makes the backends considerably simpler as they only need to implement one style of each function for lock, read, write, open etc, rather than the full host of functions that SMB provides. A backend can still choose to implement them individually, of course, and the CIFS backend does that. - simplified the generic structures to make them identical to the principal call for several common SMB calls (such as RAW_WRITE_GENERIC now being an alias for RAW_WRITE_WRITEX). - started rewriting the pvfs_open() code in preparation for the full ntcreatex semantics. - in pvfs_open and ipc_open, initially allocate the open file structure as a child of the request, so on error we don't need to clean up. Then when we are going to succeed the open steal the pointer into the long term backend context. This makes for much simpler error handling (and fixes some bugs) - use a destructor in the ipc backend to make sure that everthing is cleaned up on receive error conditions. - switched the ipc backend to using idtree for fnum allocation - in the ntvfs_generic mapping routines, use a allocated secondary structure not a stack structure to ensure the request pointer remains valid even if the backend replies async. (This used to be commit 3457c1836c09c82956697eb21627dfa2ed37682e)
2004-10-20 12:28:31 +04:00
enum smb_write_level {RAW_WRITE_WRITEUNLOCK, RAW_WRITE_WRITE,
RAW_WRITE_WRITEX, RAW_WRITE_WRITECLOSE,
RAW_WRITE_SPLWRITE};
r3081: several updates to ntvfs and server side async request handling in preparation for the full share modes and ntcreatex code that I am working on. highlights include: - changed the way a backend determines if it is allowed to process a request asynchronously. The previous method of looking at the send_fn caused problems when an intermediate ntvfs module disabled it, and the caller then wanted to finished processing using this function. The new method is a REQ_CONTROL_MAY_ASYNC flag in req->control_flags, which is also a bit easier to read - fixed 2 bugs in the readbraw server code. One related to trying to answer a readbraw with smb signing (which can't work, and crashed our signing code), the second related to error handling, which attempted to send a normal SMB error packet, when readbraw must send a 0 read reply (as it has no header) - added several more ntvfs_generic.c generic mapping functions. This means that backends no longer need to implement such esoteric functions as SMBwriteunlock() if they don't want to. The backend can just request the mapping layer turn it into a write followed by an unlock. This makes the backends considerably simpler as they only need to implement one style of each function for lock, read, write, open etc, rather than the full host of functions that SMB provides. A backend can still choose to implement them individually, of course, and the CIFS backend does that. - simplified the generic structures to make them identical to the principal call for several common SMB calls (such as RAW_WRITE_GENERIC now being an alias for RAW_WRITE_WRITEX). - started rewriting the pvfs_open() code in preparation for the full ntcreatex semantics. - in pvfs_open and ipc_open, initially allocate the open file structure as a child of the request, so on error we don't need to clean up. Then when we are going to succeed the open steal the pointer into the long term backend context. This makes for much simpler error handling (and fixes some bugs) - use a destructor in the ipc backend to make sure that everthing is cleaned up on receive error conditions. - switched the ipc backend to using idtree for fnum allocation - in the ntvfs_generic mapping routines, use a allocated secondary structure not a stack structure to ensure the request pointer remains valid even if the backend replies async. (This used to be commit 3457c1836c09c82956697eb21627dfa2ed37682e)
2004-10-20 12:28:31 +04:00
#define RAW_WRITE_GENERIC RAW_WRITE_WRITEX
/* union for write() backend call
*/
union smb_write {
r3081: several updates to ntvfs and server side async request handling in preparation for the full share modes and ntcreatex code that I am working on. highlights include: - changed the way a backend determines if it is allowed to process a request asynchronously. The previous method of looking at the send_fn caused problems when an intermediate ntvfs module disabled it, and the caller then wanted to finished processing using this function. The new method is a REQ_CONTROL_MAY_ASYNC flag in req->control_flags, which is also a bit easier to read - fixed 2 bugs in the readbraw server code. One related to trying to answer a readbraw with smb signing (which can't work, and crashed our signing code), the second related to error handling, which attempted to send a normal SMB error packet, when readbraw must send a 0 read reply (as it has no header) - added several more ntvfs_generic.c generic mapping functions. This means that backends no longer need to implement such esoteric functions as SMBwriteunlock() if they don't want to. The backend can just request the mapping layer turn it into a write followed by an unlock. This makes the backends considerably simpler as they only need to implement one style of each function for lock, read, write, open etc, rather than the full host of functions that SMB provides. A backend can still choose to implement them individually, of course, and the CIFS backend does that. - simplified the generic structures to make them identical to the principal call for several common SMB calls (such as RAW_WRITE_GENERIC now being an alias for RAW_WRITE_WRITEX). - started rewriting the pvfs_open() code in preparation for the full ntcreatex semantics. - in pvfs_open and ipc_open, initially allocate the open file structure as a child of the request, so on error we don't need to clean up. Then when we are going to succeed the open steal the pointer into the long term backend context. This makes for much simpler error handling (and fixes some bugs) - use a destructor in the ipc backend to make sure that everthing is cleaned up on receive error conditions. - switched the ipc backend to using idtree for fnum allocation - in the ntvfs_generic mapping routines, use a allocated secondary structure not a stack structure to ensure the request pointer remains valid even if the backend replies async. (This used to be commit 3457c1836c09c82956697eb21627dfa2ed37682e)
2004-10-20 12:28:31 +04:00
/* SMBwriteX interface */
struct {
enum smb_write_level level;
struct {
uint16_t fnum;
uint64_t offset;
r3081: several updates to ntvfs and server side async request handling in preparation for the full share modes and ntcreatex code that I am working on. highlights include: - changed the way a backend determines if it is allowed to process a request asynchronously. The previous method of looking at the send_fn caused problems when an intermediate ntvfs module disabled it, and the caller then wanted to finished processing using this function. The new method is a REQ_CONTROL_MAY_ASYNC flag in req->control_flags, which is also a bit easier to read - fixed 2 bugs in the readbraw server code. One related to trying to answer a readbraw with smb signing (which can't work, and crashed our signing code), the second related to error handling, which attempted to send a normal SMB error packet, when readbraw must send a 0 read reply (as it has no header) - added several more ntvfs_generic.c generic mapping functions. This means that backends no longer need to implement such esoteric functions as SMBwriteunlock() if they don't want to. The backend can just request the mapping layer turn it into a write followed by an unlock. This makes the backends considerably simpler as they only need to implement one style of each function for lock, read, write, open etc, rather than the full host of functions that SMB provides. A backend can still choose to implement them individually, of course, and the CIFS backend does that. - simplified the generic structures to make them identical to the principal call for several common SMB calls (such as RAW_WRITE_GENERIC now being an alias for RAW_WRITE_WRITEX). - started rewriting the pvfs_open() code in preparation for the full ntcreatex semantics. - in pvfs_open and ipc_open, initially allocate the open file structure as a child of the request, so on error we don't need to clean up. Then when we are going to succeed the open steal the pointer into the long term backend context. This makes for much simpler error handling (and fixes some bugs) - use a destructor in the ipc backend to make sure that everthing is cleaned up on receive error conditions. - switched the ipc backend to using idtree for fnum allocation - in the ntvfs_generic mapping routines, use a allocated secondary structure not a stack structure to ensure the request pointer remains valid even if the backend replies async. (This used to be commit 3457c1836c09c82956697eb21627dfa2ed37682e)
2004-10-20 12:28:31 +04:00
uint16_t wmode;
uint16_t remaining;
uint32_t count;
const char *data;
} in;
struct {
uint32_t nwritten;
r3081: several updates to ntvfs and server side async request handling in preparation for the full share modes and ntcreatex code that I am working on. highlights include: - changed the way a backend determines if it is allowed to process a request asynchronously. The previous method of looking at the send_fn caused problems when an intermediate ntvfs module disabled it, and the caller then wanted to finished processing using this function. The new method is a REQ_CONTROL_MAY_ASYNC flag in req->control_flags, which is also a bit easier to read - fixed 2 bugs in the readbraw server code. One related to trying to answer a readbraw with smb signing (which can't work, and crashed our signing code), the second related to error handling, which attempted to send a normal SMB error packet, when readbraw must send a 0 read reply (as it has no header) - added several more ntvfs_generic.c generic mapping functions. This means that backends no longer need to implement such esoteric functions as SMBwriteunlock() if they don't want to. The backend can just request the mapping layer turn it into a write followed by an unlock. This makes the backends considerably simpler as they only need to implement one style of each function for lock, read, write, open etc, rather than the full host of functions that SMB provides. A backend can still choose to implement them individually, of course, and the CIFS backend does that. - simplified the generic structures to make them identical to the principal call for several common SMB calls (such as RAW_WRITE_GENERIC now being an alias for RAW_WRITE_WRITEX). - started rewriting the pvfs_open() code in preparation for the full ntcreatex semantics. - in pvfs_open and ipc_open, initially allocate the open file structure as a child of the request, so on error we don't need to clean up. Then when we are going to succeed the open steal the pointer into the long term backend context. This makes for much simpler error handling (and fixes some bugs) - use a destructor in the ipc backend to make sure that everthing is cleaned up on receive error conditions. - switched the ipc backend to using idtree for fnum allocation - in the ntvfs_generic mapping routines, use a allocated secondary structure not a stack structure to ensure the request pointer remains valid even if the backend replies async. (This used to be commit 3457c1836c09c82956697eb21627dfa2ed37682e)
2004-10-20 12:28:31 +04:00
uint16_t remaining;
} out;
r3081: several updates to ntvfs and server side async request handling in preparation for the full share modes and ntcreatex code that I am working on. highlights include: - changed the way a backend determines if it is allowed to process a request asynchronously. The previous method of looking at the send_fn caused problems when an intermediate ntvfs module disabled it, and the caller then wanted to finished processing using this function. The new method is a REQ_CONTROL_MAY_ASYNC flag in req->control_flags, which is also a bit easier to read - fixed 2 bugs in the readbraw server code. One related to trying to answer a readbraw with smb signing (which can't work, and crashed our signing code), the second related to error handling, which attempted to send a normal SMB error packet, when readbraw must send a 0 read reply (as it has no header) - added several more ntvfs_generic.c generic mapping functions. This means that backends no longer need to implement such esoteric functions as SMBwriteunlock() if they don't want to. The backend can just request the mapping layer turn it into a write followed by an unlock. This makes the backends considerably simpler as they only need to implement one style of each function for lock, read, write, open etc, rather than the full host of functions that SMB provides. A backend can still choose to implement them individually, of course, and the CIFS backend does that. - simplified the generic structures to make them identical to the principal call for several common SMB calls (such as RAW_WRITE_GENERIC now being an alias for RAW_WRITE_WRITEX). - started rewriting the pvfs_open() code in preparation for the full ntcreatex semantics. - in pvfs_open and ipc_open, initially allocate the open file structure as a child of the request, so on error we don't need to clean up. Then when we are going to succeed the open steal the pointer into the long term backend context. This makes for much simpler error handling (and fixes some bugs) - use a destructor in the ipc backend to make sure that everthing is cleaned up on receive error conditions. - switched the ipc backend to using idtree for fnum allocation - in the ntvfs_generic mapping routines, use a allocated secondary structure not a stack structure to ensure the request pointer remains valid even if the backend replies async. (This used to be commit 3457c1836c09c82956697eb21627dfa2ed37682e)
2004-10-20 12:28:31 +04:00
} writex, generic;
/* SMBwriteunlock interface */
struct {
enum smb_write_level level;
struct {
uint16_t fnum;
uint16_t count;
uint32_t offset;
uint16_t remaining;
const char *data;
} in;
struct {
uint32_t nwritten;
} out;
} writeunlock;
/* SMBwrite interface */
struct {
enum smb_write_level level;
struct {
uint16_t fnum;
uint16_t count;
uint32_t offset;
uint16_t remaining;
const char *data;
} in;
struct {
uint16_t nwritten;
} out;
} write;
/* SMBwriteclose interface */
struct {
enum smb_write_level level;
struct {
uint16_t fnum;
uint16_t count;
uint32_t offset;
time_t mtime;
const char *data;
} in;
struct {
uint16_t nwritten;
} out;
} writeclose;
/* SMBsplwrite interface */
struct {
enum smb_write_level level;
struct {
uint16_t fnum;
uint16_t count;
const char *data;
} in;
} splwrite;
};
r3081: several updates to ntvfs and server side async request handling in preparation for the full share modes and ntcreatex code that I am working on. highlights include: - changed the way a backend determines if it is allowed to process a request asynchronously. The previous method of looking at the send_fn caused problems when an intermediate ntvfs module disabled it, and the caller then wanted to finished processing using this function. The new method is a REQ_CONTROL_MAY_ASYNC flag in req->control_flags, which is also a bit easier to read - fixed 2 bugs in the readbraw server code. One related to trying to answer a readbraw with smb signing (which can't work, and crashed our signing code), the second related to error handling, which attempted to send a normal SMB error packet, when readbraw must send a 0 read reply (as it has no header) - added several more ntvfs_generic.c generic mapping functions. This means that backends no longer need to implement such esoteric functions as SMBwriteunlock() if they don't want to. The backend can just request the mapping layer turn it into a write followed by an unlock. This makes the backends considerably simpler as they only need to implement one style of each function for lock, read, write, open etc, rather than the full host of functions that SMB provides. A backend can still choose to implement them individually, of course, and the CIFS backend does that. - simplified the generic structures to make them identical to the principal call for several common SMB calls (such as RAW_WRITE_GENERIC now being an alias for RAW_WRITE_WRITEX). - started rewriting the pvfs_open() code in preparation for the full ntcreatex semantics. - in pvfs_open and ipc_open, initially allocate the open file structure as a child of the request, so on error we don't need to clean up. Then when we are going to succeed the open steal the pointer into the long term backend context. This makes for much simpler error handling (and fixes some bugs) - use a destructor in the ipc backend to make sure that everthing is cleaned up on receive error conditions. - switched the ipc backend to using idtree for fnum allocation - in the ntvfs_generic mapping routines, use a allocated secondary structure not a stack structure to ensure the request pointer remains valid even if the backend replies async. (This used to be commit 3457c1836c09c82956697eb21627dfa2ed37682e)
2004-10-20 12:28:31 +04:00
enum smb_lock_level {RAW_LOCK_LOCK, RAW_LOCK_UNLOCK, RAW_LOCK_LOCKX};
/* the generic interface is defined to be equal to the lockingX interface */
#define RAW_LOCK_GENERIC RAW_LOCK_LOCKX
/* union for lock() backend call
*/
union smb_lock {
r3081: several updates to ntvfs and server side async request handling in preparation for the full share modes and ntcreatex code that I am working on. highlights include: - changed the way a backend determines if it is allowed to process a request asynchronously. The previous method of looking at the send_fn caused problems when an intermediate ntvfs module disabled it, and the caller then wanted to finished processing using this function. The new method is a REQ_CONTROL_MAY_ASYNC flag in req->control_flags, which is also a bit easier to read - fixed 2 bugs in the readbraw server code. One related to trying to answer a readbraw with smb signing (which can't work, and crashed our signing code), the second related to error handling, which attempted to send a normal SMB error packet, when readbraw must send a 0 read reply (as it has no header) - added several more ntvfs_generic.c generic mapping functions. This means that backends no longer need to implement such esoteric functions as SMBwriteunlock() if they don't want to. The backend can just request the mapping layer turn it into a write followed by an unlock. This makes the backends considerably simpler as they only need to implement one style of each function for lock, read, write, open etc, rather than the full host of functions that SMB provides. A backend can still choose to implement them individually, of course, and the CIFS backend does that. - simplified the generic structures to make them identical to the principal call for several common SMB calls (such as RAW_WRITE_GENERIC now being an alias for RAW_WRITE_WRITEX). - started rewriting the pvfs_open() code in preparation for the full ntcreatex semantics. - in pvfs_open and ipc_open, initially allocate the open file structure as a child of the request, so on error we don't need to clean up. Then when we are going to succeed the open steal the pointer into the long term backend context. This makes for much simpler error handling (and fixes some bugs) - use a destructor in the ipc backend to make sure that everthing is cleaned up on receive error conditions. - switched the ipc backend to using idtree for fnum allocation - in the ntvfs_generic mapping routines, use a allocated secondary structure not a stack structure to ensure the request pointer remains valid even if the backend replies async. (This used to be commit 3457c1836c09c82956697eb21627dfa2ed37682e)
2004-10-20 12:28:31 +04:00
/* SMBlockingX (and generic) interface */
struct {
enum smb_lock_level level;
struct {
uint16_t fnum;
uint16_t mode;
uint32_t timeout;
uint16_t ulock_cnt;
uint16_t lock_cnt;
struct smb_lock_entry {
uint16_t pid;
uint64_t offset;
uint64_t count;
} *locks; /* unlocks are first in the arrray */
} in;
r3081: several updates to ntvfs and server side async request handling in preparation for the full share modes and ntcreatex code that I am working on. highlights include: - changed the way a backend determines if it is allowed to process a request asynchronously. The previous method of looking at the send_fn caused problems when an intermediate ntvfs module disabled it, and the caller then wanted to finished processing using this function. The new method is a REQ_CONTROL_MAY_ASYNC flag in req->control_flags, which is also a bit easier to read - fixed 2 bugs in the readbraw server code. One related to trying to answer a readbraw with smb signing (which can't work, and crashed our signing code), the second related to error handling, which attempted to send a normal SMB error packet, when readbraw must send a 0 read reply (as it has no header) - added several more ntvfs_generic.c generic mapping functions. This means that backends no longer need to implement such esoteric functions as SMBwriteunlock() if they don't want to. The backend can just request the mapping layer turn it into a write followed by an unlock. This makes the backends considerably simpler as they only need to implement one style of each function for lock, read, write, open etc, rather than the full host of functions that SMB provides. A backend can still choose to implement them individually, of course, and the CIFS backend does that. - simplified the generic structures to make them identical to the principal call for several common SMB calls (such as RAW_WRITE_GENERIC now being an alias for RAW_WRITE_WRITEX). - started rewriting the pvfs_open() code in preparation for the full ntcreatex semantics. - in pvfs_open and ipc_open, initially allocate the open file structure as a child of the request, so on error we don't need to clean up. Then when we are going to succeed the open steal the pointer into the long term backend context. This makes for much simpler error handling (and fixes some bugs) - use a destructor in the ipc backend to make sure that everthing is cleaned up on receive error conditions. - switched the ipc backend to using idtree for fnum allocation - in the ntvfs_generic mapping routines, use a allocated secondary structure not a stack structure to ensure the request pointer remains valid even if the backend replies async. (This used to be commit 3457c1836c09c82956697eb21627dfa2ed37682e)
2004-10-20 12:28:31 +04:00
} lockx, generic;
/* SMBlock and SMBunlock interface */
struct {
enum smb_lock_level level;
struct {
uint16_t fnum;
uint32_t count;
uint32_t offset;
} in;
} lock, unlock;
};
r3081: several updates to ntvfs and server side async request handling in preparation for the full share modes and ntcreatex code that I am working on. highlights include: - changed the way a backend determines if it is allowed to process a request asynchronously. The previous method of looking at the send_fn caused problems when an intermediate ntvfs module disabled it, and the caller then wanted to finished processing using this function. The new method is a REQ_CONTROL_MAY_ASYNC flag in req->control_flags, which is also a bit easier to read - fixed 2 bugs in the readbraw server code. One related to trying to answer a readbraw with smb signing (which can't work, and crashed our signing code), the second related to error handling, which attempted to send a normal SMB error packet, when readbraw must send a 0 read reply (as it has no header) - added several more ntvfs_generic.c generic mapping functions. This means that backends no longer need to implement such esoteric functions as SMBwriteunlock() if they don't want to. The backend can just request the mapping layer turn it into a write followed by an unlock. This makes the backends considerably simpler as they only need to implement one style of each function for lock, read, write, open etc, rather than the full host of functions that SMB provides. A backend can still choose to implement them individually, of course, and the CIFS backend does that. - simplified the generic structures to make them identical to the principal call for several common SMB calls (such as RAW_WRITE_GENERIC now being an alias for RAW_WRITE_WRITEX). - started rewriting the pvfs_open() code in preparation for the full ntcreatex semantics. - in pvfs_open and ipc_open, initially allocate the open file structure as a child of the request, so on error we don't need to clean up. Then when we are going to succeed the open steal the pointer into the long term backend context. This makes for much simpler error handling (and fixes some bugs) - use a destructor in the ipc backend to make sure that everthing is cleaned up on receive error conditions. - switched the ipc backend to using idtree for fnum allocation - in the ntvfs_generic mapping routines, use a allocated secondary structure not a stack structure to ensure the request pointer remains valid even if the backend replies async. (This used to be commit 3457c1836c09c82956697eb21627dfa2ed37682e)
2004-10-20 12:28:31 +04:00
enum smb_close_level {RAW_CLOSE_CLOSE, RAW_CLOSE_SPLCLOSE};
#define RAW_CLOSE_GENERIC RAW_CLOSE_CLOSE
/*
union for close() backend call
*/
union smb_close {
r3081: several updates to ntvfs and server side async request handling in preparation for the full share modes and ntcreatex code that I am working on. highlights include: - changed the way a backend determines if it is allowed to process a request asynchronously. The previous method of looking at the send_fn caused problems when an intermediate ntvfs module disabled it, and the caller then wanted to finished processing using this function. The new method is a REQ_CONTROL_MAY_ASYNC flag in req->control_flags, which is also a bit easier to read - fixed 2 bugs in the readbraw server code. One related to trying to answer a readbraw with smb signing (which can't work, and crashed our signing code), the second related to error handling, which attempted to send a normal SMB error packet, when readbraw must send a 0 read reply (as it has no header) - added several more ntvfs_generic.c generic mapping functions. This means that backends no longer need to implement such esoteric functions as SMBwriteunlock() if they don't want to. The backend can just request the mapping layer turn it into a write followed by an unlock. This makes the backends considerably simpler as they only need to implement one style of each function for lock, read, write, open etc, rather than the full host of functions that SMB provides. A backend can still choose to implement them individually, of course, and the CIFS backend does that. - simplified the generic structures to make them identical to the principal call for several common SMB calls (such as RAW_WRITE_GENERIC now being an alias for RAW_WRITE_WRITEX). - started rewriting the pvfs_open() code in preparation for the full ntcreatex semantics. - in pvfs_open and ipc_open, initially allocate the open file structure as a child of the request, so on error we don't need to clean up. Then when we are going to succeed the open steal the pointer into the long term backend context. This makes for much simpler error handling (and fixes some bugs) - use a destructor in the ipc backend to make sure that everthing is cleaned up on receive error conditions. - switched the ipc backend to using idtree for fnum allocation - in the ntvfs_generic mapping routines, use a allocated secondary structure not a stack structure to ensure the request pointer remains valid even if the backend replies async. (This used to be commit 3457c1836c09c82956697eb21627dfa2ed37682e)
2004-10-20 12:28:31 +04:00
/* SMBclose (and generic) interface */
struct {
enum smb_close_level level;
struct {
uint16_t fnum;
time_t write_time;
} in;
r3081: several updates to ntvfs and server side async request handling in preparation for the full share modes and ntcreatex code that I am working on. highlights include: - changed the way a backend determines if it is allowed to process a request asynchronously. The previous method of looking at the send_fn caused problems when an intermediate ntvfs module disabled it, and the caller then wanted to finished processing using this function. The new method is a REQ_CONTROL_MAY_ASYNC flag in req->control_flags, which is also a bit easier to read - fixed 2 bugs in the readbraw server code. One related to trying to answer a readbraw with smb signing (which can't work, and crashed our signing code), the second related to error handling, which attempted to send a normal SMB error packet, when readbraw must send a 0 read reply (as it has no header) - added several more ntvfs_generic.c generic mapping functions. This means that backends no longer need to implement such esoteric functions as SMBwriteunlock() if they don't want to. The backend can just request the mapping layer turn it into a write followed by an unlock. This makes the backends considerably simpler as they only need to implement one style of each function for lock, read, write, open etc, rather than the full host of functions that SMB provides. A backend can still choose to implement them individually, of course, and the CIFS backend does that. - simplified the generic structures to make them identical to the principal call for several common SMB calls (such as RAW_WRITE_GENERIC now being an alias for RAW_WRITE_WRITEX). - started rewriting the pvfs_open() code in preparation for the full ntcreatex semantics. - in pvfs_open and ipc_open, initially allocate the open file structure as a child of the request, so on error we don't need to clean up. Then when we are going to succeed the open steal the pointer into the long term backend context. This makes for much simpler error handling (and fixes some bugs) - use a destructor in the ipc backend to make sure that everthing is cleaned up on receive error conditions. - switched the ipc backend to using idtree for fnum allocation - in the ntvfs_generic mapping routines, use a allocated secondary structure not a stack structure to ensure the request pointer remains valid even if the backend replies async. (This used to be commit 3457c1836c09c82956697eb21627dfa2ed37682e)
2004-10-20 12:28:31 +04:00
} close, generic;
/* SMBsplclose interface - empty! */
struct {
enum smb_close_level level;
struct {
uint16_t fnum;
} in;
} splclose;
};
enum smb_lpq_level {RAW_LPQ_GENERIC, RAW_LPQ_RETQ};
/*
union for lpq() backend
*/
union smb_lpq {
/* generic interface */
struct {
enum smb_lpq_level level;
} generic;
/* SMBsplretq interface */
struct {
enum smb_lpq_level level;
struct {
uint16_t maxcount;
uint16_t startidx;
} in;
struct {
uint16_t count;
uint16_t restart_idx;
struct {
time_t time;
uint8_t status;
uint16_t job;
uint32_t size;
char *user;
} *queue;
} out;
} retq;
};
enum smb_ioctl_level {RAW_IOCTL_IOCTL, RAW_IOCTL_NTIOCTL};
/*
union for ioctl() backend
*/
union smb_ioctl {
/* generic interface */
struct {
enum smb_ioctl_level level;
} generic;
/* struct for SMBioctl */
struct {
enum smb_ioctl_level level;
struct {
uint16_t fnum;
uint32_t request;
} in;
struct {
DATA_BLOB blob;
} out;
} ioctl;
/* struct for NT ioctl call */
struct {
enum smb_ioctl_level level;
struct {
uint32_t function;
uint16_t fnum;
BOOL fsctl;
uint8_t filter;
} in;
struct {
DATA_BLOB blob;
} out;
} ntioctl;
};
/* struct for SMBflush */
struct smb_flush {
struct {
uint16_t fnum;
} in;
};
/* struct for SMBcopy */
struct smb_copy {
struct {
uint16_t tid2;
uint16_t ofun;
uint16_t flags;
const char *path1;
const char *path2;
} in;
struct {
uint16_t count;
} out;
};
/* struct for transact/transact2 call */
struct smb_trans2 {
struct {
uint16_t max_param;
uint16_t max_data;
uint8_t max_setup;
uint16_t flags;
uint32_t timeout;
uint8_t setup_count;
uint16_t *setup;
const char *trans_name; /* SMBtrans only */
DATA_BLOB params;
DATA_BLOB data;
} in;
struct {
uint8_t setup_count;
uint16_t *setup;
DATA_BLOB params;
DATA_BLOB data;
} out;
};
/* struct for nttransact2 call */
struct smb_nttrans {
struct {
uint8_t max_setup;
uint32_t max_param;
uint32_t max_data;
uint32_t setup_count;
uint16_t function;
uint16_t *setup;
DATA_BLOB params;
DATA_BLOB data;
} in;
struct {
uint8_t setup_count;
uint16_t *setup;
DATA_BLOB params;
DATA_BLOB data;
} out;
};
/* struct for nttrans change notify call */
struct smb_notify {
struct {
uint32_t buffer_size;
uint32_t completion_filter;
uint16_t fnum;
BOOL recursive;
} in;
struct {
uint32_t num_changes;
struct {
uint32_t action;
WIRE_STRING name;
} *changes;
} out;
};
enum smb_search_level {RAW_SEARCH_GENERIC = 0xF000,
RAW_SEARCH_SEARCH, /* SMBsearch */
RAW_SEARCH_FFIRST, /* SMBffirst */
RAW_SEARCH_FUNIQUE, /* SMBfunique */
RAW_SEARCH_STANDARD = SMB_FIND_STANDARD,
RAW_SEARCH_EA_SIZE = SMB_FIND_EA_SIZE,
RAW_SEARCH_DIRECTORY_INFO = SMB_FIND_DIRECTORY_INFO,
RAW_SEARCH_FULL_DIRECTORY_INFO = SMB_FIND_FULL_DIRECTORY_INFO,
RAW_SEARCH_NAME_INFO = SMB_FIND_NAME_INFO,
RAW_SEARCH_BOTH_DIRECTORY_INFO = SMB_FIND_BOTH_DIRECTORY_INFO,
RAW_SEARCH_ID_FULL_DIRECTORY_INFO = SMB_FIND_ID_FULL_DIRECTORY_INFO,
RAW_SEARCH_ID_BOTH_DIRECTORY_INFO = SMB_FIND_ID_BOTH_DIRECTORY_INFO,
RAW_SEARCH_UNIX_INFO = SMB_FIND_UNIX_INFO};
/* union for file search */
union smb_search_first {
struct {
enum smb_search_level level;
} generic;
/* search (old) findfirst interface.
Also used for ffirst and funique. */
struct {
enum smb_search_level level;
struct {
uint16_t max_count;
uint16_t search_attrib;
const char *pattern;
} in;
struct {
int16_t count;
} out;
} search_first;
/* trans2 findfirst interface */
struct {
enum smb_search_level level;
struct {
uint16_t search_attrib;
uint16_t max_count;
uint16_t flags;
uint32_t storage_type;
const char *pattern;
} in;
struct {
uint16_t handle;
uint16_t count;
uint16_t end_of_search;
} out;
} t2ffirst;
};
/* union for file search continue */
union smb_search_next {
struct {
enum smb_search_level level;
} generic;
/* search (old) findnext interface. Also used
for ffirst when continuing */
struct {
enum smb_search_level level;
struct {
uint16_t max_count;
uint16_t search_attrib;
struct smb_search_id {
uint8_t reserved;
char name[11];
uint8_t handle;
uint32_t server_cookie;
uint32_t client_cookie;
} id;
} in;
struct {
uint16_t count;
} out;
} search_next;
/* trans2 findnext interface */
struct {
enum smb_search_level level;
struct {
uint16_t handle;
uint16_t max_count;
uint32_t resume_key;
uint16_t flags;
const char *last_name;
} in;
struct {
uint16_t count;
uint16_t end_of_search;
} out;
} t2fnext;
};
/* union for search reply file data */
union smb_search_data {
/* search (old) findfirst */
struct {
uint16_t attrib;
time_t write_time;
uint32_t size;
struct smb_search_id id;
const char *name;
} search;
/* trans2 findfirst RAW_SEARCH_STANDARD level */
struct {
uint32_t resume_key;
time_t create_time;
time_t access_time;
time_t write_time;
uint32_t size;
uint32_t alloc_size;
uint16_t attrib;
WIRE_STRING name;
} standard;
/* trans2 findfirst RAW_SEARCH_EA_SIZE level */
struct {
uint32_t resume_key;
time_t create_time;
time_t access_time;
time_t write_time;
uint32_t size;
uint32_t alloc_size;
uint16_t attrib;
uint32_t ea_size;
WIRE_STRING name;
} ea_size;
/* RAW_SEARCH_DIRECTORY_INFO interface */
struct {
uint32_t file_index;
NTTIME create_time;
NTTIME access_time;
NTTIME write_time;
NTTIME change_time;
uint64_t size;
uint64_t alloc_size;
uint32_t attrib;
WIRE_STRING name;
} directory_info;
/* RAW_SEARCH_FULL_DIRECTORY_INFO interface */
struct {
uint32_t file_index;
NTTIME create_time;
NTTIME access_time;
NTTIME write_time;
NTTIME change_time;
uint64_t size;
uint64_t alloc_size;
uint32_t attrib;
uint32_t ea_size;
WIRE_STRING name;
} full_directory_info;
/* RAW_SEARCH_NAME_INFO interface */
struct {
uint32_t file_index;
WIRE_STRING name;
} name_info;
/* RAW_SEARCH_BOTH_DIRECTORY_INFO interface */
struct {
uint32_t file_index;
NTTIME create_time;
NTTIME access_time;
NTTIME write_time;
NTTIME change_time;
uint64_t size;
uint64_t alloc_size;
uint32_t attrib;
uint32_t ea_size;
WIRE_STRING short_name;
WIRE_STRING name;
} both_directory_info;
/* RAW_SEARCH_ID_FULL_DIRECTORY_INFO interface */
struct {
uint32_t file_index;
NTTIME create_time;
NTTIME access_time;
NTTIME write_time;
NTTIME change_time;
uint64_t size;
uint64_t alloc_size;
uint32_t attrib;
uint32_t ea_size;
uint64_t file_id;
WIRE_STRING name;
} id_full_directory_info;
/* RAW_SEARCH_ID_BOTH_DIRECTORY_INFO interface */
struct {
uint32_t file_index;
NTTIME create_time;
NTTIME access_time;
NTTIME write_time;
NTTIME change_time;
uint64_t size;
uint64_t alloc_size;
uint32_t attrib;
uint32_t ea_size;
uint64_t file_id;
WIRE_STRING short_name;
WIRE_STRING name;
} id_both_directory_info;
/* RAW_SEARCH_UNIX_INFO interface */
struct {
uint32_t file_index;
uint64_t size;
uint64_t alloc_size;
NTTIME status_change_time;
NTTIME access_time;
NTTIME change_time;
uint64_t uid;
uint64_t gid;
uint32_t file_type;
uint64_t dev_major;
uint64_t dev_minor;
uint64_t unique_id;
uint64_t permissions;
uint64_t nlink;
const char *name;
} unix_info;
};
enum smb_search_close_level {RAW_FINDCLOSE_GENERIC, RAW_FINDCLOSE_FCLOSE, RAW_FINDCLOSE_FINDCLOSE};
/* union for file search close */
union smb_search_close {
struct {
enum smb_search_close_level level;
} generic;
/* SMBfclose (old search) interface */
struct {
enum smb_search_close_level level;
struct {
/* max_count and search_attrib are not used, but are present */
uint16_t max_count;
uint16_t search_attrib;
struct smb_search_id id;
} in;
} fclose;
/* SMBfindclose interface */
struct {
enum smb_search_close_level level;
struct {
uint16_t handle;
} in;
} findclose;
};