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|
/*
Unix SMB/CIFS implementation.
RAW_FILEINFO_* individual test suite
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.
*/
#include "includes.h"
#include "torture/torture.h"
#include "libcli/raw/libcliraw.h"
#include "libcli/libcli.h"
#include "torture/util.h"
static struct {
const char *name;
enum smb_fileinfo_level level;
uint_t only_paths:1;
uint_t only_handles:1;
uint32_t capability_mask;
NTSTATUS fnum_status, fname_status;
union smb_fileinfo fnum_finfo, fname_finfo;
} levels[] = {
{ "GETATTR", RAW_FILEINFO_GETATTR, 1, 0, },
{ "GETATTRE", RAW_FILEINFO_GETATTRE, 0, 1, },
{ "STANDARD", RAW_FILEINFO_STANDARD, },
{ "EA_SIZE", RAW_FILEINFO_EA_SIZE, },
{ "ALL_EAS", RAW_FILEINFO_ALL_EAS, },
{ "IS_NAME_VALID", RAW_FILEINFO_IS_NAME_VALID, 1, 0, },
{ "BASIC_INFO", RAW_FILEINFO_BASIC_INFO, },
{ "STANDARD_INFO", RAW_FILEINFO_STANDARD_INFO, },
{ "EA_INFO", RAW_FILEINFO_EA_INFO, },
{ "NAME_INFO", RAW_FILEINFO_NAME_INFO, },
{ "ALL_INFO", RAW_FILEINFO_ALL_INFO, },
{ "ALT_NAME_INFO", RAW_FILEINFO_ALT_NAME_INFO, },
{ "STREAM_INFO", RAW_FILEINFO_STREAM_INFO, },
{ "COMPRESSION_INFO", RAW_FILEINFO_COMPRESSION_INFO, },
{ "UNIX_BASIC_INFO", RAW_FILEINFO_UNIX_BASIC, 0, 0, CAP_UNIX},
{ "UNIX_LINK_INFO", RAW_FILEINFO_UNIX_LINK, 0, 0, CAP_UNIX},
{ "BASIC_INFORMATION", RAW_FILEINFO_BASIC_INFORMATION, },
{ "STANDARD_INFORMATION", RAW_FILEINFO_STANDARD_INFORMATION, },
{ "INTERNAL_INFORMATION", RAW_FILEINFO_INTERNAL_INFORMATION, },
{ "EA_INFORMATION", RAW_FILEINFO_EA_INFORMATION, },
{ "ACCESS_INFORMATION", RAW_FILEINFO_ACCESS_INFORMATION, },
{ "NAME_INFORMATION", RAW_FILEINFO_NAME_INFORMATION, },
{ "POSITION_INFORMATION", RAW_FILEINFO_POSITION_INFORMATION, },
{ "MODE_INFORMATION", RAW_FILEINFO_MODE_INFORMATION, },
{ "ALIGNMENT_INFORMATION", RAW_FILEINFO_ALIGNMENT_INFORMATION, },
{ "ALL_INFORMATION", RAW_FILEINFO_ALL_INFORMATION, },
{ "ALT_NAME_INFORMATION", RAW_FILEINFO_ALT_NAME_INFORMATION, },
{ "STREAM_INFORMATION", RAW_FILEINFO_STREAM_INFORMATION, },
{ "COMPRESSION_INFORMATION", RAW_FILEINFO_COMPRESSION_INFORMATION, },
{ "NETWORK_OPEN_INFORMATION", RAW_FILEINFO_NETWORK_OPEN_INFORMATION, },
{ "ATTRIBUTE_TAG_INFORMATION", RAW_FILEINFO_ATTRIBUTE_TAG_INFORMATION, },
{ NULL, }
};
/*
compare a dos time (2 second resolution) to a nt time
*/
static int dos_nt_time_cmp(time_t t, NTTIME nt)
{
time_t t2 = nt_time_to_unix(nt);
if (abs(t2 - t) <= 2) return 0;
return t2 - t;
}
/*
find a level in the levels[] table
*/
static union smb_fileinfo *fnum_find(const char *name)
{
int i;
for (i=0; levels[i].name; i++) {
if (NT_STATUS_IS_OK(levels[i].fnum_status) &&
strcmp(name, levels[i].name) == 0 &&
!levels[i].only_paths) {
return &levels[i].fnum_finfo;
}
}
return NULL;
}
/*
find a level in the levels[] table
*/
static union smb_fileinfo *fname_find(const char *name)
{
int i;
for (i=0; levels[i].name; i++) {
if (NT_STATUS_IS_OK(levels[i].fname_status) &&
strcmp(name, levels[i].name) == 0 &&
!levels[i].only_handles) {
return &levels[i].fname_finfo;
}
}
return NULL;
}
/* local macros to make the code below more readable */
#define VAL_EQUAL(n1, v1, n2, v2) do {if (s1->n1.out.v1 != s2->n2.out.v2) { \
printf("%s/%s [%u] != %s/%s [%u] at %s(%d)\n", \
#n1, #v1, (uint_t)s1->n1.out.v1, \
#n2, #v2, (uint_t)s2->n2.out.v2, \
__FILE__, __LINE__); \
ret = False; \
}} while(0)
#define STR_EQUAL(n1, v1, n2, v2) do {if (strcmp_safe(s1->n1.out.v1.s, s2->n2.out.v2.s) || \
s1->n1.out.v1.private_length != s2->n2.out.v2.private_length) { \
printf("%s/%s [%s/%d] != %s/%s [%s/%d] at %s(%d)\n", \
#n1, #v1, s1->n1.out.v1.s, s1->n1.out.v1.private_length, \
#n2, #v2, s2->n2.out.v2.s, s2->n2.out.v2.private_length, \
__FILE__, __LINE__); \
ret = False; \
}} while(0)
#define STRUCT_EQUAL(n1, v1, n2, v2) do {if (memcmp(&s1->n1.out.v1,&s2->n2.out.v2,sizeof(s1->n1.out.v1))) { \
printf("%s/%s != %s/%s at %s(%d)\n", \
#n1, #v1, \
#n2, #v2, \
__FILE__, __LINE__); \
ret = False; \
}} while(0)
/* used to find hints on unknown values - and to make sure
we zero-fill */
#if 0 /* unused */
#define VAL_UNKNOWN(n1, v1) do {if (s1->n1.out.v1 != 0) { \
printf("%s/%s non-zero unknown - %u (0x%x) at %s(%d)\n", \
#n1, #v1, \
(uint_t)s1->n1.out.v1, \
(uint_t)s1->n1.out.v1, \
__FILE__, __LINE__); \
ret = False; \
}} while(0)
#endif
/* basic testing of all RAW_FILEINFO_* calls
for each call we test that it succeeds, and where possible test
for consistency between the calls.
*/
BOOL torture_raw_qfileinfo(struct torture_context *torture)
{
struct smbcli_state *cli;
int i;
BOOL ret = True;
int count;
union smb_fileinfo *s1, *s2;
TALLOC_CTX *mem_ctx;
int fnum;
const char *fname = "\\torture_qfileinfo.txt";
NTTIME correct_time;
uint64_t correct_size;
uint32_t correct_attrib;
const char *correct_name;
BOOL skip_streams = False;
if (!torture_open_connection(&cli, 0)) {
return False;
}
mem_ctx = talloc_init("torture_qfileinfo");
fnum = create_complex_file(cli, mem_ctx, fname);
if (fnum == -1) {
printf("ERROR: open of %s failed (%s)\n", fname, smbcli_errstr(cli->tree));
ret = False;
goto done;
}
/* scan all the fileinfo and pathinfo levels */
for (i=0; levels[i].name; i++) {
if (!levels[i].only_paths) {
levels[i].fnum_finfo.generic.level = levels[i].level;
levels[i].fnum_finfo.generic.in.file.fnum = fnum;
levels[i].fnum_status = smb_raw_fileinfo(cli->tree, mem_ctx,
&levels[i].fnum_finfo);
}
if (!levels[i].only_handles) {
levels[i].fname_finfo.generic.level = levels[i].level;
levels[i].fname_finfo.generic.in.file.path = talloc_strdup(mem_ctx, fname);
levels[i].fname_status = smb_raw_pathinfo(cli->tree, mem_ctx,
&levels[i].fname_finfo);
}
}
/* check for completely broken levels */
for (count=i=0; levels[i].name; i++) {
uint32_t cap = cli->transport->negotiate.capabilities;
/* see if this server claims to support this level */
if ((cap & levels[i].capability_mask) != levels[i].capability_mask) {
continue;
}
if (!levels[i].only_paths && !NT_STATUS_IS_OK(levels[i].fnum_status)) {
printf("ERROR: level %s failed - %s\n",
levels[i].name, nt_errstr(levels[i].fnum_status));
count++;
}
if (!levels[i].only_handles && !NT_STATUS_IS_OK(levels[i].fname_status)) {
printf("ERROR: level %s failed - %s\n",
levels[i].name, nt_errstr(levels[i].fname_status));
count++;
}
}
if (count != 0) {
ret = False;
printf("%d levels failed\n", count);
if (count > 35) {
printf("too many level failures - giving up\n");
goto done;
}
}
/* see if we can do streams */
s1 = fnum_find("STREAM_INFO");
if (!s1 || s1->stream_info.out.num_streams == 0) {
printf("STREAM_INFO broken (%d) - skipping streams checks\n",
s1 ? s1->stream_info.out.num_streams : -1);
skip_streams = True;
}
/* this code is incredibly repititive but doesn't lend itself to loops, so
we use lots of macros to make it less painful */
/* first off we check the levels that are supposed to be aliases. It will be quite rare for
this code to fail, but we need to check it for completeness */
#define ALIAS_CHECK(sname1, sname2) \
do { \
s1 = fnum_find(sname1); s2 = fnum_find(sname2); \
if (s1 && s2) { INFO_CHECK } \
s1 = fname_find(sname1); s2 = fname_find(sname2); \
if (s1 && s2) { INFO_CHECK } \
s1 = fnum_find(sname1); s2 = fname_find(sname2); \
if (s1 && s2) { INFO_CHECK } \
} while (0)
#define INFO_CHECK \
STRUCT_EQUAL(basic_info, create_time, basic_info, create_time); \
STRUCT_EQUAL(basic_info, access_time, basic_info, access_time); \
STRUCT_EQUAL(basic_info, write_time, basic_info, write_time); \
STRUCT_EQUAL(basic_info, change_time, basic_info, change_time); \
VAL_EQUAL (basic_info, attrib, basic_info, attrib);
ALIAS_CHECK("BASIC_INFO", "BASIC_INFORMATION");
#undef INFO_CHECK
#define INFO_CHECK \
VAL_EQUAL(standard_info, alloc_size, standard_info, alloc_size); \
VAL_EQUAL(standard_info, size, standard_info, size); \
VAL_EQUAL(standard_info, nlink, standard_info, nlink); \
VAL_EQUAL(standard_info, delete_pending, standard_info, delete_pending); \
VAL_EQUAL(standard_info, directory, standard_info, directory);
ALIAS_CHECK("STANDARD_INFO", "STANDARD_INFORMATION");
#undef INFO_CHECK
#define INFO_CHECK \
VAL_EQUAL(ea_info, ea_size, ea_info, ea_size);
ALIAS_CHECK("EA_INFO", "EA_INFORMATION");
#undef INFO_CHECK
#define INFO_CHECK \
STR_EQUAL(name_info, fname, name_info, fname);
ALIAS_CHECK("NAME_INFO", "NAME_INFORMATION");
#undef INFO_CHECK
#define INFO_CHECK \
STRUCT_EQUAL(all_info, create_time, all_info, create_time); \
STRUCT_EQUAL(all_info, access_time, all_info, access_time); \
STRUCT_EQUAL(all_info, write_time, all_info, write_time); \
STRUCT_EQUAL(all_info, change_time, all_info, change_time); \
VAL_EQUAL(all_info, attrib, all_info, attrib); \
VAL_EQUAL(all_info, alloc_size, all_info, alloc_size); \
VAL_EQUAL(all_info, size, all_info, size); \
VAL_EQUAL(all_info, nlink, all_info, nlink); \
VAL_EQUAL(all_info, delete_pending, all_info, delete_pending); \
VAL_EQUAL(all_info, directory, all_info, directory); \
VAL_EQUAL(all_info, ea_size, all_info, ea_size); \
STR_EQUAL(all_info, fname, all_info, fname);
ALIAS_CHECK("ALL_INFO", "ALL_INFORMATION");
#undef INFO_CHECK
#define INFO_CHECK \
VAL_EQUAL(compression_info, compressed_size,compression_info, compressed_size); \
VAL_EQUAL(compression_info, format, compression_info, format); \
VAL_EQUAL(compression_info, unit_shift, compression_info, unit_shift); \
VAL_EQUAL(compression_info, chunk_shift, compression_info, chunk_shift); \
VAL_EQUAL(compression_info, cluster_shift, compression_info, cluster_shift);
ALIAS_CHECK("COMPRESSION_INFO", "COMPRESSION_INFORMATION");
#undef INFO_CHECK
#define INFO_CHECK \
STR_EQUAL(alt_name_info, fname, alt_name_info, fname);
ALIAS_CHECK("ALT_NAME_INFO", "ALT_NAME_INFORMATION");
#define TIME_CHECK_NT(sname, stype, tfield) do { \
s1 = fnum_find(sname); \
if (s1 && memcmp(&s1->stype.out.tfield, &correct_time, sizeof(correct_time)) != 0) { \
printf("(%d) handle %s/%s incorrect - %s should be %s\n", __LINE__, #stype, #tfield, \
nt_time_string(mem_ctx, s1->stype.out.tfield), \
nt_time_string(mem_ctx, correct_time)); \
ret = False; \
} \
s1 = fname_find(sname); \
if (s1 && memcmp(&s1->stype.out.tfield, &correct_time, sizeof(correct_time)) != 0) { \
printf("(%d) path %s/%s incorrect - %s should be %s\n", __LINE__, #stype, #tfield, \
nt_time_string(mem_ctx, s1->stype.out.tfield), \
nt_time_string(mem_ctx, correct_time)); \
ret = False; \
}} while (0)
#define TIME_CHECK_DOS(sname, stype, tfield) do { \
s1 = fnum_find(sname); \
if (s1 && dos_nt_time_cmp(s1->stype.out.tfield, correct_time) != 0) { \
printf("(%d) handle %s/%s incorrect - %s should be %s\n", __LINE__, #stype, #tfield, \
timestring(mem_ctx, s1->stype.out.tfield), \
nt_time_string(mem_ctx, correct_time)); \
ret = False; \
} \
s1 = fname_find(sname); \
if (s1 && dos_nt_time_cmp(s1->stype.out.tfield, correct_time) != 0) { \
printf("(%d) path %s/%s incorrect - %s should be %s\n", __LINE__, #stype, #tfield, \
timestring(mem_ctx, s1->stype.out.tfield), \
nt_time_string(mem_ctx, correct_time)); \
ret = False; \
}} while (0)
#if 0 /* unused */
#define TIME_CHECK_UNX(sname, stype, tfield) do { \
s1 = fnum_find(sname); \
if (s1 && unx_nt_time_cmp(s1->stype.out.tfield, correct_time) != 0) { \
printf("(%d) handle %s/%s incorrect - %s should be %s\n", __LINE__, #stype, #tfield, \
timestring(mem_ctx, s1->stype.out.tfield), \
nt_time_string(mem_ctx, correct_time)); \
ret = False; \
} \
s1 = fname_find(sname); \
if (s1 && unx_nt_time_cmp(s1->stype.out.tfield, correct_time) != 0) { \
printf("(%d) path %s/%s incorrect - %s should be %s\n", __LINE__, #stype, #tfield, \
timestring(mem_ctx, s1->stype.out.tfield), \
nt_time_string(mem_ctx, correct_time)); \
ret = False; \
}} while (0)
#endif
/* now check that all the times that are supposed to be equal are correct */
s1 = fnum_find("BASIC_INFO");
correct_time = s1->basic_info.out.create_time;
printf("create_time: %s\n", nt_time_string(mem_ctx, correct_time));
TIME_CHECK_NT ("BASIC_INFO", basic_info, create_time);
TIME_CHECK_NT ("BASIC_INFORMATION", basic_info, create_time);
TIME_CHECK_DOS("GETATTRE", getattre, create_time);
TIME_CHECK_DOS("STANDARD", standard, create_time);
TIME_CHECK_DOS("EA_SIZE", ea_size, create_time);
TIME_CHECK_NT ("ALL_INFO", all_info, create_time);
TIME_CHECK_NT ("NETWORK_OPEN_INFORMATION", network_open_information, create_time);
s1 = fnum_find("BASIC_INFO");
correct_time = s1->basic_info.out.access_time;
printf("access_time: %s\n", nt_time_string(mem_ctx, correct_time));
TIME_CHECK_NT ("BASIC_INFO", basic_info, access_time);
TIME_CHECK_NT ("BASIC_INFORMATION", basic_info, access_time);
TIME_CHECK_DOS("GETATTRE", getattre, access_time);
TIME_CHECK_DOS("STANDARD", standard, access_time);
TIME_CHECK_DOS("EA_SIZE", ea_size, access_time);
TIME_CHECK_NT ("ALL_INFO", all_info, access_time);
TIME_CHECK_NT ("NETWORK_OPEN_INFORMATION", network_open_information, access_time);
s1 = fnum_find("BASIC_INFO");
correct_time = s1->basic_info.out.write_time;
printf("write_time : %s\n", nt_time_string(mem_ctx, correct_time));
TIME_CHECK_NT ("BASIC_INFO", basic_info, write_time);
TIME_CHECK_NT ("BASIC_INFORMATION", basic_info, write_time);
TIME_CHECK_DOS("GETATTR", getattr, write_time);
TIME_CHECK_DOS("GETATTRE", getattre, write_time);
TIME_CHECK_DOS("STANDARD", standard, write_time);
TIME_CHECK_DOS("EA_SIZE", ea_size, write_time);
TIME_CHECK_NT ("ALL_INFO", all_info, write_time);
TIME_CHECK_NT ("NETWORK_OPEN_INFORMATION", network_open_information, write_time);
s1 = fnum_find("BASIC_INFO");
correct_time = s1->basic_info.out.change_time;
printf("change_time: %s\n", nt_time_string(mem_ctx, correct_time));
TIME_CHECK_NT ("BASIC_INFO", basic_info, change_time);
TIME_CHECK_NT ("BASIC_INFORMATION", basic_info, change_time);
TIME_CHECK_NT ("ALL_INFO", all_info, change_time);
TIME_CHECK_NT ("NETWORK_OPEN_INFORMATION", network_open_information, change_time);
#define SIZE_CHECK(sname, stype, tfield) do { \
s1 = fnum_find(sname); \
if (s1 && s1->stype.out.tfield != correct_size) { \
printf("(%d) handle %s/%s incorrect - %u should be %u\n", __LINE__, #stype, #tfield, \
(uint_t)s1->stype.out.tfield, \
(uint_t)correct_size); \
ret = False; \
} \
s1 = fname_find(sname); \
if (s1 && s1->stype.out.tfield != correct_size) { \
printf("(%d) path %s/%s incorrect - %u should be %u\n", __LINE__, #stype, #tfield, \
(uint_t)s1->stype.out.tfield, \
(uint_t)correct_size); \
ret = False; \
}} while (0)
s1 = fnum_find("STANDARD_INFO");
correct_size = s1->standard_info.out.size;
printf("size: %u\n", (uint_t)correct_size);
SIZE_CHECK("GETATTR", getattr, size);
SIZE_CHECK("GETATTRE", getattre, size);
SIZE_CHECK("STANDARD", standard, size);
SIZE_CHECK("EA_SIZE", ea_size, size);
SIZE_CHECK("STANDARD_INFO", standard_info, size);
SIZE_CHECK("STANDARD_INFORMATION", standard_info, size);
SIZE_CHECK("ALL_INFO", all_info, size);
SIZE_CHECK("ALL_INFORMATION", all_info, size);
SIZE_CHECK("COMPRESSION_INFO", compression_info, compressed_size);
SIZE_CHECK("COMPRESSION_INFORMATION", compression_info, compressed_size);
SIZE_CHECK("NETWORK_OPEN_INFORMATION", network_open_information, size);
if (!skip_streams) {
SIZE_CHECK("STREAM_INFO", stream_info, streams[0].size);
SIZE_CHECK("STREAM_INFORMATION", stream_info, streams[0].size);
}
s1 = fnum_find("STANDARD_INFO");
correct_size = s1->standard_info.out.alloc_size;
printf("alloc_size: %u\n", (uint_t)correct_size);
SIZE_CHECK("GETATTRE", getattre, alloc_size);
SIZE_CHECK("STANDARD", standard, alloc_size);
SIZE_CHECK("EA_SIZE", ea_size, alloc_size);
SIZE_CHECK("STANDARD_INFO", standard_info, alloc_size);
SIZE_CHECK("STANDARD_INFORMATION", standard_info, alloc_size);
SIZE_CHECK("ALL_INFO", all_info, alloc_size);
SIZE_CHECK("ALL_INFORMATION", all_info, alloc_size);
SIZE_CHECK("NETWORK_OPEN_INFORMATION", network_open_information, alloc_size);
if (!skip_streams) {
SIZE_CHECK("STREAM_INFO", stream_info, streams[0].alloc_size);
SIZE_CHECK("STREAM_INFORMATION", stream_info, streams[0].alloc_size);
}
#define ATTRIB_CHECK(sname, stype, tfield) do { \
s1 = fnum_find(sname); \
if (s1 && s1->stype.out.tfield != correct_attrib) { \
printf("(%d) handle %s/%s incorrect - 0x%x should be 0x%x\n", __LINE__, #stype, #tfield, \
(uint_t)s1->stype.out.tfield, \
(uint_t)correct_attrib); \
ret = False; \
} \
s1 = fname_find(sname); \
if (s1 && s1->stype.out.tfield != correct_attrib) { \
printf("(%d) path %s/%s incorrect - 0x%x should be 0x%x\n", __LINE__, #stype, #tfield, \
(uint_t)s1->stype.out.tfield, \
(uint_t)correct_attrib); \
ret = False; \
}} while (0)
s1 = fnum_find("BASIC_INFO");
correct_attrib = s1->basic_info.out.attrib;
printf("attrib: 0x%x\n", (uint_t)correct_attrib);
ATTRIB_CHECK("GETATTR", getattr, attrib);
ATTRIB_CHECK("GETATTRE", getattre, attrib);
ATTRIB_CHECK("STANDARD", standard, attrib);
ATTRIB_CHECK("BASIC_INFO", basic_info, attrib);
ATTRIB_CHECK("BASIC_INFORMATION", basic_info, attrib);
ATTRIB_CHECK("EA_SIZE", ea_size, attrib);
ATTRIB_CHECK("ALL_INFO", all_info, attrib);
ATTRIB_CHECK("ALL_INFORMATION", all_info, attrib);
ATTRIB_CHECK("NETWORK_OPEN_INFORMATION", network_open_information, attrib);
ATTRIB_CHECK("ATTRIBUTE_TAG_INFORMATION", attribute_tag_information, attrib);
correct_name = fname;
printf("name: %s\n", correct_name);
#define NAME_CHECK(sname, stype, tfield, flags) do { \
s1 = fnum_find(sname); \
if (s1 && (strcmp_safe(s1->stype.out.tfield.s, correct_name) != 0 || \
wire_bad_flags(&s1->stype.out.tfield, flags, cli))) { \
printf("(%d) handle %s/%s incorrect - '%s/%d'\n", __LINE__, #stype, #tfield, \
s1->stype.out.tfield.s, s1->stype.out.tfield.private_length); \
ret = False; \
} \
s1 = fname_find(sname); \
if (s1 && (strcmp_safe(s1->stype.out.tfield.s, correct_name) != 0 || \
wire_bad_flags(&s1->stype.out.tfield, flags, cli))) { \
printf("(%d) path %s/%s incorrect - '%s/%d'\n", __LINE__, #stype, #tfield, \
s1->stype.out.tfield.s, s1->stype.out.tfield.private_length); \
ret = False; \
}} while (0)
NAME_CHECK("NAME_INFO", name_info, fname, STR_UNICODE);
NAME_CHECK("NAME_INFORMATION", name_info, fname, STR_UNICODE);
/* the ALL_INFO file name is the full path on the filesystem */
s1 = fnum_find("ALL_INFO");
if (s1 && !s1->all_info.out.fname.s) {
printf("ALL_INFO didn't give a filename\n");
ret = False;
}
if (s1 && s1->all_info.out.fname.s) {
char *p = strrchr(s1->all_info.out.fname.s, '\\');
if (!p) {
printf("Not a full path in all_info/fname? - '%s'\n",
s1->all_info.out.fname.s);
ret = False;
} else {
if (strcmp_safe(correct_name, p) != 0) {
printf("incorrect basename in all_info/fname - '%s'\n",
s1->all_info.out.fname.s);
ret = False;
}
}
if (wire_bad_flags(&s1->all_info.out.fname, STR_UNICODE, cli)) {
printf("Should not null terminate all_info/fname\n");
ret = False;
}
}
s1 = fnum_find("ALT_NAME_INFO");
correct_name = s1->alt_name_info.out.fname.s;
printf("alt_name: %s\n", correct_name);
NAME_CHECK("ALT_NAME_INFO", alt_name_info, fname, STR_UNICODE);
NAME_CHECK("ALT_NAME_INFORMATION", alt_name_info, fname, STR_UNICODE);
/* and make sure we can open by alternate name */
smbcli_close(cli->tree, fnum);
fnum = smbcli_nt_create_full(cli->tree, correct_name, 0,
SEC_RIGHTS_FILE_ALL,
FILE_ATTRIBUTE_NORMAL,
NTCREATEX_SHARE_ACCESS_DELETE|
NTCREATEX_SHARE_ACCESS_READ|
NTCREATEX_SHARE_ACCESS_WRITE,
NTCREATEX_DISP_OVERWRITE_IF,
0, 0);
if (fnum == -1) {
printf("Unable to open by alt_name - %s\n", smbcli_errstr(cli->tree));
ret = False;
}
if (!skip_streams) {
correct_name = "::$DATA";
printf("stream_name: %s\n", correct_name);
NAME_CHECK("STREAM_INFO", stream_info, streams[0].stream_name, STR_UNICODE);
NAME_CHECK("STREAM_INFORMATION", stream_info, streams[0].stream_name, STR_UNICODE);
}
/* make sure the EAs look right */
s1 = fnum_find("ALL_EAS");
s2 = fnum_find("ALL_INFO");
if (s1) {
for (i=0;i<s1->all_eas.out.num_eas;i++) {
printf(" flags=%d %s=%*.*s\n",
s1->all_eas.out.eas[i].flags,
s1->all_eas.out.eas[i].name.s,
(int)s1->all_eas.out.eas[i].value.length,
(int)s1->all_eas.out.eas[i].value.length,
s1->all_eas.out.eas[i].value.data);
}
}
if (s1 && s2) {
if (s1->all_eas.out.num_eas == 0) {
if (s2->all_info.out.ea_size != 0) {
printf("ERROR: num_eas==0 but fnum all_info.out.ea_size == %d\n",
s2->all_info.out.ea_size);
}
} else {
if (s2->all_info.out.ea_size !=
ea_list_size(s1->all_eas.out.num_eas, s1->all_eas.out.eas)) {
printf("ERROR: ea_list_size=%d != fnum all_info.out.ea_size=%d\n",
(int)ea_list_size(s1->all_eas.out.num_eas, s1->all_eas.out.eas),
(int)s2->all_info.out.ea_size);
}
}
}
s2 = fname_find("ALL_EAS");
if (s2) {
VAL_EQUAL(all_eas, num_eas, all_eas, num_eas);
for (i=0;i<s1->all_eas.out.num_eas;i++) {
VAL_EQUAL(all_eas, eas[i].flags, all_eas, eas[i].flags);
STR_EQUAL(all_eas, eas[i].name, all_eas, eas[i].name);
VAL_EQUAL(all_eas, eas[i].value.length, all_eas, eas[i].value.length);
}
}
#define VAL_CHECK(sname1, stype1, tfield1, sname2, stype2, tfield2) do { \
s1 = fnum_find(sname1); s2 = fnum_find(sname2); \
if (s1 && s2 && s1->stype1.out.tfield1 != s2->stype2.out.tfield2) { \
printf("(%d) handle %s/%s != %s/%s - 0x%x vs 0x%x\n", __LINE__, \
#stype1, #tfield1, #stype2, #tfield2, \
s1->stype1.out.tfield1, s2->stype2.out.tfield2); \
ret = False; \
} \
s1 = fname_find(sname1); s2 = fname_find(sname2); \
if (s1 && s2 && s1->stype1.out.tfield1 != s2->stype2.out.tfield2) { \
printf("(%d) path %s/%s != %s/%s - 0x%x vs 0x%x\n", __LINE__, \
#stype1, #tfield1, #stype2, #tfield2, \
s1->stype1.out.tfield1, s2->stype2.out.tfield2); \
ret = False; \
} \
s1 = fnum_find(sname1); s2 = fname_find(sname2); \
if (s1 && s2 && s1->stype1.out.tfield1 != s2->stype2.out.tfield2) { \
printf("(%d) handle %s/%s != path %s/%s - 0x%x vs 0x%x\n", __LINE__, \
#stype1, #tfield1, #stype2, #tfield2, \
s1->stype1.out.tfield1, s2->stype2.out.tfield2); \
ret = False; \
} \
s1 = fname_find(sname1); s2 = fnum_find(sname2); \
if (s1 && s2 && s1->stype1.out.tfield1 != s2->stype2.out.tfield2) { \
printf("(%d) path %s/%s != handle %s/%s - 0x%x vs 0x%x\n", __LINE__, \
#stype1, #tfield1, #stype2, #tfield2, \
s1->stype1.out.tfield1, s2->stype2.out.tfield2); \
ret = False; \
}} while (0)
VAL_CHECK("STANDARD_INFO", standard_info, delete_pending,
"ALL_INFO", all_info, delete_pending);
VAL_CHECK("STANDARD_INFO", standard_info, directory,
"ALL_INFO", all_info, directory);
VAL_CHECK("STANDARD_INFO", standard_info, nlink,
"ALL_INFO", all_info, nlink);
VAL_CHECK("EA_INFO", ea_info, ea_size,
"ALL_INFO", all_info, ea_size);
VAL_CHECK("EA_SIZE", ea_size, ea_size,
"ALL_INFO", all_info, ea_size);
#define NAME_PATH_CHECK(sname, stype, field) do { \
s1 = fname_find(sname); s2 = fnum_find(sname); \
if (s1 && s2) { \
VAL_EQUAL(stype, field, stype, field); \
} \
} while (0)
s1 = fnum_find("INTERNAL_INFORMATION");
if (s1) {
printf("file_id=%.0f\n", (double)s1->internal_information.out.file_id);
}
NAME_PATH_CHECK("INTERNAL_INFORMATION", internal_information, file_id);
NAME_PATH_CHECK("POSITION_INFORMATION", position_information, position);
if (s1 && s2) {
printf("fnum pos = %.0f, fname pos = %.0f\n",
(double)s2->position_information.out.position,
(double)s1->position_information.out.position );
}
NAME_PATH_CHECK("MODE_INFORMATION", mode_information, mode);
NAME_PATH_CHECK("ALIGNMENT_INFORMATION", alignment_information, alignment_requirement);
NAME_PATH_CHECK("ATTRIBUTE_TAG_INFORMATION", attribute_tag_information, attrib);
NAME_PATH_CHECK("ATTRIBUTE_TAG_INFORMATION", attribute_tag_information, reparse_tag);
#if 0
/* these are expected to differ */
NAME_PATH_CHECK("ACCESS_INFORMATION", access_information, access_flags);
#endif
#if 0 /* unused */
#define UNKNOWN_CHECK(sname, stype, tfield) do { \
s1 = fnum_find(sname); \
if (s1 && s1->stype.out.tfield != 0) { \
printf("(%d) handle %s/%s unknown != 0 (0x%x)\n", __LINE__, \
#stype, #tfield, \
(uint_t)s1->stype.out.tfield); \
} \
s1 = fname_find(sname); \
if (s1 && s1->stype.out.tfield != 0) { \
printf("(%d) path %s/%s unknown != 0 (0x%x)\n", __LINE__, \
#stype, #tfield, \
(uint_t)s1->stype.out.tfield); \
}} while (0)
#endif
/* now get a bit fancier .... */
/* when we set the delete disposition then the link count should drop
to 0 and delete_pending should be 1 */
done:
smbcli_close(cli->tree, fnum);
smbcli_unlink(cli->tree, fname);
torture_close_connection(cli);
talloc_free(mem_ctx);
return ret;
}
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