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ef2e26c91b
(This used to be commit b0510b5428
)
287 lines
9.3 KiB
C
287 lines
9.3 KiB
C
/*
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Unix SMB/CIFS implementation.
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RAW_QFS_* individual test suite
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Copyright (C) Andrew Tridgell 2003
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This program is free software; you can redistribute it and/or modify
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it under the terms of the GNU General Public License as published by
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the Free Software Foundation; either version 2 of the License, or
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(at your option) any later version.
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This program is distributed in the hope that it will be useful,
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but WITHOUT ANY WARRANTY; without even the implied warranty of
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MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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GNU General Public License for more details.
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You should have received a copy of the GNU General Public License
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along with this program; if not, write to the Free Software
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Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA.
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*/
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#include "includes.h"
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static struct {
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const char *name;
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enum fsinfo_level level;
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NTSTATUS status;
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union smb_fsinfo fsinfo;
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} levels[] = {
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{"DSKATTR", RAW_QFS_DSKATTR, },
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{"ALLOCATION", RAW_QFS_ALLOCATION, },
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{"VOLUME", RAW_QFS_VOLUME, },
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{"VOLUME_INFO", RAW_QFS_VOLUME_INFO, },
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{"SIZE_INFO", RAW_QFS_SIZE_INFO, },
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{"DEVICE_INFO", RAW_QFS_DEVICE_INFO, },
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{"ATTRIBUTE_INFO", RAW_QFS_ATTRIBUTE_INFO, },
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{"VOLUME_INFORMATION", RAW_QFS_VOLUME_INFORMATION, },
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{"SIZE_INFORMATION", RAW_QFS_SIZE_INFORMATION, },
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{"DEVICE_INFORMATION", RAW_QFS_DEVICE_INFORMATION, },
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{"ATTRIBUTE_INFORMATION", RAW_QFS_ATTRIBUTE_INFORMATION, },
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{"QUOTA_INFORMATION", RAW_QFS_QUOTA_INFORMATION, },
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{"FULL_SIZE_INFORMATION", RAW_QFS_FULL_SIZE_INFORMATION, },
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{"OBJECTID_INFORMATION", RAW_QFS_OBJECTID_INFORMATION, },
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{ NULL, }
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};
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/*
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find a level in the levels[] table
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*/
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static union smb_fsinfo *find(const char *name)
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{
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int i;
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for (i=0; levels[i].name; i++) {
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if (strcmp(name, levels[i].name) == 0) {
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return &levels[i].fsinfo;
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}
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}
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return NULL;
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}
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/* local macros to make the code below more readable */
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#define VAL_EQUAL(n1, v1, n2, v2) do {if (s1->n1.out.v1 != s2->n2.out.v2) { \
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printf("%s/%s [%u] != %s/%s [%u] at %s(%d)\n", \
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#n1, #v1, (uint_t)s1->n1.out.v1, \
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#n2, #v2, (uint_t)s2->n2.out.v2, \
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__FILE__, __LINE__); \
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ret = False; \
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}} while(0)
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#define STR_EQUAL(n1, v1, n2, v2) do {if (!s1->n1.out.v1 && !s2->n2.out.v2) return True; \
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if (!s1->n1.out.v1 || !s2->n2.out.v2) return False; \
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if (strcmp(s1->n1.out.v1, s2->n2.out.v2)) { \
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printf("%s/%s [%s] != %s/%s [%s] at %s(%d)\n", \
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#n1, #v1, s1->n1.out.v1, \
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#n2, #v2, s2->n2.out.v2, \
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__FILE__, __LINE__); \
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ret = False; \
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}} while(0)
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#define STRUCT_EQUAL(n1, v1, n2, v2) do {if (memcmp(&s1->n1.out.v1,&s2->n2.out.v2,sizeof(s1->n1.out.v1))) { \
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printf("%s/%s != %s/%s at %s(%d)\n", \
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#n1, #v1, \
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#n2, #v2, \
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__FILE__, __LINE__); \
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ret = False; \
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}} while(0)
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/* used to find hints on unknown values - and to make sure
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we zero-fill */
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#define VAL_UNKNOWN(n1, v1) do {if (s1->n1.out.v1 != 0) { \
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printf("%s/%s non-zero unknown - %u (0x%x) at %s(%d)\n", \
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#n1, #v1, \
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(uint_t)s1->n1.out.v1, \
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(uint_t)s1->n1.out.v1, \
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__FILE__, __LINE__); \
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ret = False; \
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}} while(0)
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/* basic testing of all RAW_QFS_* calls
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for each call we test that it succeeds, and where possible test
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for consistency between the calls.
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Some of the consistency tests assume that the target filesystem is
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quiescent, which is sometimes hard to achieve
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*/
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BOOL torture_qfsinfo(int dummy)
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{
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struct cli_state *cli;
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int i;
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BOOL ret = True;
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int count;
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union smb_fsinfo *s1, *s2;
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TALLOC_CTX *mem_ctx;
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if (!torture_open_connection(&cli)) {
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return False;
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}
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mem_ctx = talloc_init("torture_qfsinfo");
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/* scan all the levels, pulling the results */
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for (i=0; levels[i].name; i++) {
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levels[i].fsinfo.generic.level = levels[i].level;
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levels[i].status = smb_raw_fsinfo(cli->tree, mem_ctx, &levels[i].fsinfo);
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}
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/* check for completely broken levels */
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for (count=i=0; levels[i].name; i++) {
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if (!NT_STATUS_IS_OK(levels[i].status)) {
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printf("ERROR: level %s failed - %s\n", levels[i].name, nt_errstr(levels[i].status));
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count++;
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}
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}
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if (count != 0) {
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ret = False;
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printf("%d levels failed\n", count);
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if (count > 10) {
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printf("too many level failures - giving up\n");
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goto done;
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}
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}
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/* check for correct aliases */
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s1 = find("SIZE_INFO");
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s2 = find("SIZE_INFORMATION");
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if (s1 && s2) {
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VAL_EQUAL(size_info, total_alloc_units, size_info, total_alloc_units);
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VAL_EQUAL(size_info, avail_alloc_units, size_info, avail_alloc_units);
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VAL_EQUAL(size_info, sectors_per_unit, size_info, sectors_per_unit);
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VAL_EQUAL(size_info, bytes_per_sector, size_info, bytes_per_sector);
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}
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s1 = find("DEVICE_INFO");
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s2 = find("DEVICE_INFORMATION");
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if (s1 && s2) {
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VAL_EQUAL(device_info, device_type, device_info, device_type);
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VAL_EQUAL(device_info, characteristics, device_info, characteristics);
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}
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s1 = find("VOLUME_INFO");
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s2 = find("VOLUME_INFORMATION");
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if (s1 && s2) {
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STRUCT_EQUAL(volume_info, create_time, volume_info, create_time);
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VAL_EQUAL (volume_info, serial_number, volume_info, serial_number);
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STR_EQUAL (volume_info, volume_name.s, volume_info, volume_name.s);
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printf("volume_info.volume_name = '%s'\n", s1->volume_info.out.volume_name.s);
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}
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s1 = find("ATTRIBUTE_INFO");
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s2 = find("ATTRIBUTE_INFORMATION");
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if (s1 && s2) {
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VAL_EQUAL(attribute_info, fs_attr,
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attribute_info, fs_attr);
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VAL_EQUAL(attribute_info, max_file_component_length,
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attribute_info, max_file_component_length);
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STR_EQUAL(attribute_info, fs_type.s, attribute_info, fs_type.s);
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printf("attribute_info.fs_type = '%s'\n", s1->attribute_info.out.fs_type.s);
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}
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/* check for consistent disk sizes */
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s1 = find("DSKATTR");
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s2 = find("ALLOCATION");
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if (s1 && s2) {
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double size1, size2;
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double scale = s1->dskattr.out.blocks_per_unit * s1->dskattr.out.block_size;
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size1 = 1.0 *
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s1->dskattr.out.units_total *
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s1->dskattr.out.blocks_per_unit *
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s1->dskattr.out.block_size / scale;
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size2 = 1.0 *
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s2->allocation.out.sectors_per_unit *
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s2->allocation.out.total_alloc_units *
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s2->allocation.out.bytes_per_sector / scale;
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if (ABS(size1 - size2) > 1) {
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printf("Inconsistent total size in DSKATTR and ALLOCATION - size1=%.0f size2=%.0f\n",
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size1, size2);
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ret = False;
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}
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printf("total disk = %.0f MB\n", size1*scale/1.0e6);
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}
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/* and for consistent free disk space */
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s1 = find("DSKATTR");
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s2 = find("ALLOCATION");
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if (s1 && s2) {
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double size1, size2;
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double scale = s1->dskattr.out.blocks_per_unit * s1->dskattr.out.block_size;
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size1 = 1.0 *
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s1->dskattr.out.units_free *
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s1->dskattr.out.blocks_per_unit *
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s1->dskattr.out.block_size / scale;
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size2 = 1.0 *
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s2->allocation.out.sectors_per_unit *
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s2->allocation.out.avail_alloc_units *
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s2->allocation.out.bytes_per_sector / scale;
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if (ABS(size1 - size2) > 1) {
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printf("Inconsistent avail size in DSKATTR and ALLOCATION - size1=%.0f size2=%.0f\n",
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size1, size2);
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ret = False;
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}
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printf("free disk = %.0f MB\n", size1*scale/1.0e6);
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}
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/* volume info consistency */
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s1 = find("VOLUME");
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s2 = find("VOLUME_INFO");
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if (s1 && s2) {
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VAL_EQUAL(volume, serial_number, volume_info, serial_number);
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STR_EQUAL(volume, volume_name.s, volume_info, volume_name.s);
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}
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/* disk size consistency - notice that 'avail_alloc_units' maps to the caller
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available allocation units, not the total */
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s1 = find("SIZE_INFO");
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s2 = find("FULL_SIZE_INFORMATION");
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if (s1 && s2) {
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VAL_EQUAL(size_info, total_alloc_units, full_size_information, total_alloc_units);
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VAL_EQUAL(size_info, avail_alloc_units, full_size_information, call_avail_alloc_units);
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VAL_EQUAL(size_info, sectors_per_unit, full_size_information, sectors_per_unit);
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VAL_EQUAL(size_info, bytes_per_sector, full_size_information, bytes_per_sector);
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}
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/* check for non-zero unknown fields - if we find them
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they might give us some hints */
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s1 = find("QUOTA_INFORMATION");
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if (s1) {
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VAL_UNKNOWN(quota_information, unknown[0]);
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VAL_UNKNOWN(quota_information, unknown[1]);
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VAL_UNKNOWN(quota_information, unknown[2]);
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}
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s1 = find("OBJECTID_INFORMATION");
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if (s1) {
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VAL_UNKNOWN(objectid_information, unknown[0]);
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VAL_UNKNOWN(objectid_information, unknown[1]);
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VAL_UNKNOWN(objectid_information, unknown[2]);
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VAL_UNKNOWN(objectid_information, unknown[3]);
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VAL_UNKNOWN(objectid_information, unknown[4]);
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VAL_UNKNOWN(objectid_information, unknown[5]);
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}
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#define STR_CHECK(sname, stype, field, flags) do { \
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s1 = find(sname); \
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if (s1) { \
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if (wire_bad_flags(&s1->stype.out.field, flags)) { \
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printf("(%d) incorrect string termination in %s/%s\n", \
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__LINE__, #stype, #field); \
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ret = False; \
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} \
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}} while (0)
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/* check for correct termination */
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STR_CHECK("VOLUME", volume, volume_name, 0);
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STR_CHECK("VOLUME_INFO", volume_info, volume_name, STR_UNICODE);
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STR_CHECK("VOLUME_INFORMATION", volume_info, volume_name, STR_UNICODE);
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STR_CHECK("ATTRIBUTE_INFO", attribute_info, fs_type, STR_UNICODE);
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STR_CHECK("ATTRIBUTE_INFORMATION", attribute_info, fs_type, STR_UNICODE);
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done:
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torture_close_connection(cli);
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talloc_destroy(mem_ctx);
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return ret;
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}
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