NetBSD/sbin/raidctl/rf_configure.c

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/* $NetBSD: rf_configure.c,v 1.20 2004/10/26 19:52:21 oster Exp $ */
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/*
* Copyright (c) 1995 Carnegie-Mellon University.
* All rights reserved.
*
* Author: Mark Holland
*
* Permission to use, copy, modify and distribute this software and
* its documentation is hereby granted, provided that both the copyright
* notice and this permission notice appear in all copies of the
* software, derivative works or modified versions, and any portions
* thereof, and that both notices appear in supporting documentation.
*
* CARNEGIE MELLON ALLOWS FREE USE OF THIS SOFTWARE IN ITS "AS IS"
* CONDITION. CARNEGIE MELLON DISCLAIMS ANY LIABILITY OF ANY KIND
* FOR ANY DAMAGES WHATSOEVER RESULTING FROM THE USE OF THIS SOFTWARE.
*
* Carnegie Mellon requests users of this software to return to
*
* Software Distribution Coordinator or Software.Distribution@CS.CMU.EDU
* School of Computer Science
* Carnegie Mellon University
* Pittsburgh PA 15213-3890
*
* any improvements or extensions that they make and grant Carnegie the
* rights to redistribute these changes.
*/
/***************************************************************
*
* rf_configure.c -- code related to configuring the raidframe system
*
* configuration is complicated by the fact that we want the same
* driver to work both in the kernel and at user level. In the
* kernel, we can't read the configuration file, so we configure
* by running a user-level program that reads the config file,
* creates a data structure describing the configuration and
* passes it into the kernel via an ioctl. Since we want the config
* code to be common between the two versions of the driver, we
* configure using the same two-step process when running at
* user level. Of course, at user level, the config structure is
* passed directly to the config routine, rather than via ioctl.
*
* This file is not compiled into the kernel, so we have no
* need for KERNEL ifdefs.
*
**************************************************************/
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#include <sys/cdefs.h>
#ifndef lint
__RCSID("$NetBSD: rf_configure.c,v 1.20 2004/10/26 19:52:21 oster Exp $");
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#endif
#include <stdio.h>
#include <stdlib.h>
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#include <errno.h>
#include <strings.h>
#include <sys/types.h>
#include <sys/stat.h>
#include <dev/raidframe/raidframevar.h>
#include <dev/raidframe/raidframeio.h>
#include "rf_configure.h"
RF_LayoutSW_t *rf_GetLayout(RF_ParityConfig_t parityConfig);
char *rf_find_non_white(char *p);
char *rf_find_white(char *p);
#define RF_MIN(a,b) (((a) < (b)) ? (a) : (b))
#define RF_ERRORMSG(s) printf((s))
#define RF_ERRORMSG1(s,a) printf((s),(a))
#define RF_ERRORMSG2(s,a,b) printf((s),(a),(b))
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/*
* XXX we include this here so we don't need to drag rf_debugMem.c into
* the picture... This is userland, afterall...
*/
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/*
* XXX sucky hack to override the defn. of RF_Malloc as given in
* rf_debugMem.c... but I *really* don't want (nor need) to link with
* that file here in userland.. GO
*/
#undef RF_Malloc
#define RF_Malloc(_p_, _size_, _cast_) \
{ \
_p_ = _cast_ malloc((u_long)_size_); \
bzero((char *)_p_, _size_); \
}
int distSpareYes = 1;
int distSpareNo = 0;
/* The mapsw[] table below contains all the various RAID types that might
be supported by the kernel. The actual supported types are found
in sys/dev/raidframe/rf_layout.c. */
static RF_LayoutSW_t mapsw[] = {
/* parity declustering */
{'T', "Parity declustering",
rf_MakeLayoutSpecificDeclustered, &distSpareNo},
/* parity declustering with distributed sparing */
{'D', "Distributed sparing parity declustering",
rf_MakeLayoutSpecificDeclustered, &distSpareYes},
/* declustered P+Q */
{'Q', "Declustered P+Q",
rf_MakeLayoutSpecificDeclustered, &distSpareNo},
/* RAID 5 with rotated sparing */
{'R', "RAID Level 5 rotated sparing", rf_MakeLayoutSpecificNULL, NULL},
/* Chained Declustering */
{'C', "Chained Declustering", rf_MakeLayoutSpecificNULL, NULL},
/* Interleaved Declustering */
{'I', "Interleaved Declustering", rf_MakeLayoutSpecificNULL, NULL},
/* RAID level 0 */
{'0', "RAID Level 0", rf_MakeLayoutSpecificNULL, NULL},
/* RAID level 1 */
{'1', "RAID Level 1", rf_MakeLayoutSpecificNULL, NULL},
/* RAID level 4 */
{'4', "RAID Level 4", rf_MakeLayoutSpecificNULL, NULL},
/* RAID level 5 */
{'5', "RAID Level 5", rf_MakeLayoutSpecificNULL, NULL},
/* Evenodd */
{'E', "EvenOdd", rf_MakeLayoutSpecificNULL, NULL},
/* Declustered Evenodd */
{'e', "Declustered EvenOdd",
rf_MakeLayoutSpecificDeclustered, &distSpareNo},
/* parity logging */
{'L', "Parity logging", rf_MakeLayoutSpecificNULL, NULL},
/* end-of-list marker */
{'\0', NULL, NULL, NULL}
};
RF_LayoutSW_t *
rf_GetLayout(RF_ParityConfig_t parityConfig)
{
RF_LayoutSW_t *p;
/* look up the specific layout */
for (p = &mapsw[0]; p->parityConfig; p++)
if (p->parityConfig == parityConfig)
break;
if (!p->parityConfig)
return (NULL);
return (p);
}
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static int rf_search_file_for_start_of(const char *string, char *buf,
int len, FILE * fp);
static int rf_get_next_nonblank_line(char *buf, int len, FILE * fp,
const char *errmsg);
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/*
* called from user level to read the configuration file and create
* a configuration control structure. This is used in the user-level
* version of the driver, and in the user-level program that configures
* the system via ioctl.
*/
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int
rf_MakeConfig(configname, cfgPtr)
char *configname;
RF_Config_t *cfgPtr;
{
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int numscanned, val, r, c, retcode, aa, bb, cc;
char buf[256], buf1[256], *cp;
RF_LayoutSW_t *lp;
FILE *fp;
bzero((char *) cfgPtr, sizeof(RF_Config_t));
fp = fopen(configname, "r");
if (!fp) {
printf("Can't open config file %s\n", configname);
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return (-1);
}
rewind(fp);
if (rf_search_file_for_start_of("array", buf, 256, fp)) {
printf("Unable to find start of \"array\" params in config file %s\n", configname);
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retcode = -1;
goto out;
}
rf_get_next_nonblank_line(buf, 256, fp, "Config file error (\"array\" section): unable to get numRow and numCol\n");
/*
* wackiness with aa, bb, cc to get around size problems on
* different platforms
*/
numscanned = sscanf(buf, "%d %d %d", &aa, &bb, &cc);
if (numscanned != 3) {
printf("Config file error (\"array\" section): unable to get numRow, numCol, numSpare\n");
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retcode = -1;
goto out;
}
cfgPtr->numRow = (RF_RowCol_t) aa;
cfgPtr->numCol = (RF_RowCol_t) bb;
cfgPtr->numSpare = (RF_RowCol_t) cc;
/* debug section is optional */
for (c = 0; c < RF_MAXDBGV; c++)
cfgPtr->debugVars[c][0] = '\0';
rewind(fp);
if (!rf_search_file_for_start_of("debug", buf, 256, fp)) {
for (c = 0; c < RF_MAXDBGV; c++) {
if (rf_get_next_nonblank_line(buf, 256, fp, NULL))
break;
cp = rf_find_non_white(buf);
if (!strncmp(cp, "START", strlen("START")))
break;
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(void) strlcpy(&cfgPtr->debugVars[c][0], cp,
sizeof(cfgPtr->debugVars[c]));
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}
}
rewind(fp);
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strlcpy(cfgPtr->diskQueueType, "fifo", sizeof(cfgPtr->diskQueueType));
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cfgPtr->maxOutstandingDiskReqs = 1;
/* scan the file for the block related to disk queues */
if (rf_search_file_for_start_of("queue", buf, 256, fp)) {
RF_ERRORMSG2("[No disk queue discipline specified in config file %s. Using %s.]\n", configname, cfgPtr->diskQueueType);
} else {
if (rf_get_next_nonblank_line(buf, 256, fp, NULL)) {
RF_ERRORMSG2("[No disk queue discipline specified in config file %s. Using %s.]\n", configname, cfgPtr->diskQueueType);
}
}
/* the queue specifier line contains two entries: 1st char of first
* word specifies queue to be used 2nd word specifies max num reqs
* that can be outstanding on the disk itself (typically 1) */
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if (sscanf(buf, "%255s %d", buf1, &val) != 2) {
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RF_ERRORMSG1("Can't determine queue type and/or max outstanding reqs from line: %s", buf);
RF_ERRORMSG2("Using %s-%d\n", cfgPtr->diskQueueType, cfgPtr->maxOutstandingDiskReqs);
} else {
char *ch;
bcopy(buf1, cfgPtr->diskQueueType,
RF_MIN(sizeof(cfgPtr->diskQueueType), strlen(buf1) + 1));
for (ch = buf1; *ch; ch++) {
if (*ch == ' ') {
*ch = '\0';
break;
}
}
cfgPtr->maxOutstandingDiskReqs = val;
}
rewind(fp);
if (rf_search_file_for_start_of("disks", buf, 256, fp)) {
RF_ERRORMSG1("Can't find \"disks\" section in config file %s\n", configname);
retcode = -1;
goto out;
}
for (r = 0; r < cfgPtr->numRow; r++) {
for (c = 0; c < cfgPtr->numCol; c++) {
if (rf_get_next_nonblank_line(
&cfgPtr->devnames[r][c][0], 50, fp, NULL)) {
RF_ERRORMSG2("Config file error: unable to get device file for disk at row %d col %d\n", r, c);
retcode = -1;
goto out;
}
}
}
/* "spare" section is optional */
rewind(fp);
if (rf_search_file_for_start_of("spare", buf, 256, fp))
cfgPtr->numSpare = 0;
for (c = 0; c < cfgPtr->numSpare; c++) {
if (rf_get_next_nonblank_line(&cfgPtr->spare_names[c][0],
256, fp, NULL)) {
RF_ERRORMSG1("Config file error: unable to get device file for spare disk %d\n", c);
retcode = -1;
goto out;
}
}
/* scan the file for the block related to layout */
rewind(fp);
if (rf_search_file_for_start_of("layout", buf, 256, fp)) {
RF_ERRORMSG1("Can't find \"layout\" section in configuration file %s\n", configname);
retcode = -1;
goto out;
}
if (rf_get_next_nonblank_line(buf, 256, fp, NULL)) {
RF_ERRORMSG("Config file error (\"layout\" section): unable to find common layout param line\n");
retcode = -1;
goto out;
}
c = sscanf(buf, "%d %d %d %c", &aa, &bb, &cc, &cfgPtr->parityConfig);
cfgPtr->sectPerSU = (RF_SectorNum_t) aa;
cfgPtr->SUsPerPU = (RF_StripeNum_t) bb;
cfgPtr->SUsPerRU = (RF_StripeNum_t) cc;
if (c != 4) {
RF_ERRORMSG("Unable to scan common layout line\n");
retcode = -1;
goto out;
}
lp = rf_GetLayout(cfgPtr->parityConfig);
if (lp == NULL) {
RF_ERRORMSG1("Unknown parity config '%c'\n",
cfgPtr->parityConfig);
retcode = -1;
goto out;
}
retcode = lp->MakeLayoutSpecific(fp, cfgPtr, lp->makeLayoutSpecificArg);
out:
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fclose(fp);
if (retcode < 0)
retcode = errno = EINVAL;
else
errno = retcode;
return (retcode);
}
/* used in architectures such as RAID0 where there is no layout-specific
* information to be passed into the configuration code.
*/
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int
rf_MakeLayoutSpecificNULL(fp, cfgPtr, ignored)
FILE *fp;
RF_Config_t *cfgPtr;
void *ignored;
{
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cfgPtr->layoutSpecificSize = 0;
cfgPtr->layoutSpecific = NULL;
return (0);
}
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int
rf_MakeLayoutSpecificDeclustered(configfp, cfgPtr, arg)
FILE *configfp;
RF_Config_t *cfgPtr;
void *arg;
{
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int b, v, k, r, lambda, norotate, i, val, distSpare;
char *cfgBuf, *bdfile, *p, *smname;
char buf[256], smbuf[256];
FILE *fp;
distSpare = *((int *) arg);
/* get the block design file name */
if (rf_get_next_nonblank_line(buf, 256, configfp,
"Can't find block design file name in config file\n"))
return (EINVAL);
bdfile = rf_find_non_white(buf);
if (bdfile[strlen(bdfile) - 1] == '\n') {
/* strip newline char */
bdfile[strlen(bdfile) - 1] = '\0';
}
/* open bd file, check validity of configuration */
if ((fp = fopen(bdfile, "r")) == NULL) {
RF_ERRORMSG1("RAID: config error: Can't open layout table file %s\n", bdfile);
return (EINVAL);
}
if (fgets(buf, 256, fp) == NULL) {
RF_ERRORMSG1("RAID: config error: Can't read layout from layout table file %s\n", bdfile);
return (EINVAL);
}
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i = sscanf(buf, "%u %u %u %u %u %u", &b, &v, &k, &r, &lambda, &norotate);
if (i == 5)
norotate = 0; /* no-rotate flag is optional */
else if (i != 6) {
RF_ERRORMSG("Unable to parse header line in block design file\n");
return (EINVAL);
}
/* set the sparemap directory. In the in-kernel version, there's a
* daemon that's responsible for finding the sparemaps */
if (distSpare) {
if (rf_get_next_nonblank_line(smbuf, 256, configfp,
"Can't find sparemap file name in config file\n"))
return (EINVAL);
smname = rf_find_non_white(smbuf);
if (smname[strlen(smname) - 1] == '\n') {
/* strip newline char */
smname[strlen(smname) - 1] = '\0';
}
} else {
smbuf[0] = '\0';
smname = smbuf;
}
/* allocate a buffer to hold the configuration info */
cfgPtr->layoutSpecificSize = RF_SPAREMAP_NAME_LEN +
6 * sizeof(int) + b * k;
/* can't use RF_Malloc here b/c debugMem module not yet init'd */
cfgBuf = (char *) malloc(cfgPtr->layoutSpecificSize);
cfgPtr->layoutSpecific = (void *) cfgBuf;
p = cfgBuf;
/* install name of sparemap file */
for (i = 0; smname[i]; i++)
*p++ = smname[i];
/* pad with zeros */
while (i < RF_SPAREMAP_NAME_LEN) {
*p++ = '\0';
i++;
}
/*
* fill in the buffer with the block design parameters
* and then the block design itself
*/
*((int *) p) = b;
p += sizeof(int);
*((int *) p) = v;
p += sizeof(int);
*((int *) p) = k;
p += sizeof(int);
*((int *) p) = r;
p += sizeof(int);
*((int *) p) = lambda;
p += sizeof(int);
*((int *) p) = norotate;
p += sizeof(int);
while (fscanf(fp, "%d", &val) == 1)
*p++ = (char) val;
fclose(fp);
if (p - cfgBuf != cfgPtr->layoutSpecificSize) {
RF_ERRORMSG2("Size mismatch creating layout specific data: is %d sb %d bytes\n", (int) (p - cfgBuf), (int) (6 * sizeof(int) + b * k));
return (EINVAL);
}
return (0);
}
/****************************************************************************
*
* utilities
*
***************************************************************************/
/* finds a non-white character in the line */
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char *
rf_find_non_white(char *p)
{
for (; *p != '\0' && (*p == ' ' || *p == '\t'); p++);
return (p);
}
/* finds a white character in the line */
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char *
rf_find_white(char *p)
{
for (; *p != '\0' && (*p != ' ' && *p != '\t'); p++);
return (p);
}
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/*
* searches a file for a line that says "START string", where string is
* specified as a parameter
*/
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static int
rf_search_file_for_start_of(string, buf, len, fp)
const char *string;
char *buf;
int len;
FILE *fp;
{
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char *p;
while (1) {
if (fgets(buf, len, fp) == NULL)
return (-1);
p = rf_find_non_white(buf);
if (!strncmp(p, "START", strlen("START"))) {
p = rf_find_white(p);
p = rf_find_non_white(p);
if (!strncmp(p, string, strlen(string)))
return (0);
}
}
}
/* reads from file fp into buf until it finds an interesting line */
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int
rf_get_next_nonblank_line(buf, len, fp, errmsg)
char *buf;
int len;
FILE *fp;
const char *errmsg;
{
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char *p;
int l;
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while (fgets(buf, len, fp) != NULL) {
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p = rf_find_non_white(buf);
if (*p == '\n' || *p == '\0' || *p == '#')
continue;
l = strlen(buf)-1;
while (l>=0 && (buf[l]==' ' || buf[l]=='\n')) {
buf[l]='\0';
l--;
}
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return (0);
}
if (errmsg)
RF_ERRORMSG1("%s", errmsg);
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return (1);
}
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/*
* Allocates an array for the spare table, and initializes it from a file.
* In the user-level version, this is called when recon is initiated.
* When/if I move recon into the kernel, there'll be a daemon that does
* an ioctl into raidframe which will block until a spare table is needed.
* When it returns, it will read a spare table from the file system,
* pass it into the kernel via a different ioctl, and then block again
* on the original ioctl.
*
* This is specific to the declustered layout, but doesn't belong in
* rf_decluster.c because it uses stuff that can't be compiled into
* the kernel, and it needs to be compiled into the user-level sparemap daemon.
*
*/
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void *
rf_ReadSpareTable(req, fname)
RF_SparetWait_t *req;
char *fname;
{
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int i, j, numFound, linecount, tableNum, tupleNum,
spareDisk, spareBlkOffset;
char buf[1024], targString[100], errString[100];
RF_SpareTableEntry_t **table;
FILE *fp;
/* allocate and initialize the table */
RF_Malloc(table,
req->TablesPerSpareRegion * sizeof(RF_SpareTableEntry_t *),
(RF_SpareTableEntry_t **));
for (i = 0; i < req->TablesPerSpareRegion; i++) {
RF_Malloc(table[i],
req->BlocksPerTable * sizeof(RF_SpareTableEntry_t),
(RF_SpareTableEntry_t *));
for (j = 0; j < req->BlocksPerTable; j++)
table[i][j].spareDisk =
table[i][j].spareBlockOffsetInSUs = -1;
}
/* 2. open sparemap file, sanity check */
if ((fp = fopen(fname, "r")) == NULL) {
fprintf(stderr,
"rf_ReadSpareTable: Can't open sparemap file %s\n", fname);
return (NULL);
}
if (rf_get_next_nonblank_line(buf, 1024, fp,
"Invalid sparemap file: can't find header line\n"))
return (NULL);
if (buf[strlen(buf) - 1] == '\n')
buf[strlen(buf) - 1] = '\0';
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snprintf(targString, sizeof(targString), "fdisk %d\n", req->fcol);
snprintf(errString, sizeof(errString),
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"Invalid sparemap file: can't find \"fdisk %d\" line\n",
req->fcol);
while (1) {
rf_get_next_nonblank_line(buf, 1024, fp, errString);
if (!strncmp(buf, targString, strlen(targString)))
break;
}
/* no more blank lines or comments allowed now */
linecount = req->TablesPerSpareRegion * req->TableDepthInPUs;
for (i = 0; i < linecount; i++) {
numFound = fscanf(fp, " %d %d %d %d", &tableNum, &tupleNum,
&spareDisk, &spareBlkOffset);
if (numFound != 4) {
fprintf(stderr, "Sparemap file prematurely exhausted after %d of %d lines\n", i, linecount);
return (NULL);
}
table[tableNum][tupleNum].spareDisk = spareDisk;
table[tableNum][tupleNum].spareBlockOffsetInSUs =
spareBlkOffset * req->SUsPerPU;
}
fclose(fp);
return ((void *) table);
}