From mboxrd@z Thu Jan 1 00:00:00 1970 Return-Path: Received: from mx1.redhat.com ([209.132.183.28]:20975 "EHLO mx1.redhat.com" rhost-flags-OK-OK-OK-OK) by vger.kernel.org with ESMTP id S935289AbdDFOlr (ORCPT ); Thu, 6 Apr 2017 10:41:47 -0400 From: Jan Tulak Subject: [RFC PATCH 1/2] mkfs: unify numeric types of main variables in main() Date: Thu, 6 Apr 2017 16:41:38 +0200 Message-Id: <20170406144139.20284-1-jtulak@redhat.com> Sender: linux-xfs-owner@vger.kernel.org List-ID: List-Id: xfs To: linux-xfs@vger.kernel.org Cc: mcgrof@kernel.org, sandeen@sandeen.net, Jan Tulak Followup of my "[xfsprogs] Do we need so many data types for user input?" email. In the past, when mkfs was first written, it used atoi and similar calls, so the variables were ints. However, the situation moved since then and in course of the time, mkfs began to use other types too. Clean and unify it. We don't need negative values anywhere in the code and some numbers has to be 64bit. Thus, uint64 is the best candidate as the target type. This patch changes variables declared at the beginning of main() + block/sectorsize, making only minimal changes. The following patch cleans some now-unnecessary type casts. It would be nice to change types in some of the structures too, but this might lead to changes outside of mkfs, so I'm skipping them for this moment to keep it simple. Signed-off-by: Jan Tulak --- mkfs/xfs_mkfs.c | 184 ++++++++++++++++++++++++++++---------------------------- 1 file changed, 92 insertions(+), 92 deletions(-) diff --git a/mkfs/xfs_mkfs.c b/mkfs/xfs_mkfs.c index 5aac4d1b..71382f70 100644 --- a/mkfs/xfs_mkfs.c +++ b/mkfs/xfs_mkfs.c @@ -39,8 +39,8 @@ static int ispow2(unsigned int i); * The configured block and sector sizes are defined as global variables so * that they don't need to be passed to functions that require them. */ -unsigned int blocksize; -unsigned int sectorsize; +__uint64_t blocksize; +__uint64_t sectorsize; #define MAX_SUBOPTS 16 #define SUBOPT_NEEDS_VAL (-1LL) @@ -742,9 +742,9 @@ calc_stripe_factors( int dsectsz, int lsu, int lsectsz, - int *dsunit, - int *dswidth, - int *lsunit) + __uint64_t *dsunit, + __uint64_t *dswidth, + __uint64_t *lsunit) { /* Handle data sunit/swidth options */ if ((*dsunit && !*dswidth) || (!*dsunit && *dswidth)) { @@ -769,32 +769,32 @@ calc_stripe_factors( usage(); } - *dsunit = (int)BTOBBT(dsu); + *dsunit = BTOBBT(dsu); *dswidth = *dsunit * dsw; } if (*dsunit && (*dswidth % *dsunit != 0)) { fprintf(stderr, - _("data stripe width (%d) must be a multiple of the " - "data stripe unit (%d)\n"), *dswidth, *dsunit); + _("data stripe width (%lu) must be a multiple of the " + "data stripe unit (%lu)\n"), *dswidth, *dsunit); usage(); } /* Handle log sunit options */ if (lsu) - *lsunit = (int)BTOBBT(lsu); + *lsunit = BTOBBT(lsu); /* verify if lsu/lsunit is a multiple block size */ if (lsu % blocksize != 0) { fprintf(stderr, -_("log stripe unit (%d) must be a multiple of the block size (%d)\n"), +_("log stripe unit (%d) must be a multiple of the block size (%lu)\n"), lsu, blocksize); exit(1); } if ((BBTOB(*lsunit) % blocksize != 0)) { fprintf(stderr, -_("log stripe unit (%d) must be a multiple of the block size (%d)\n"), +_("log stripe unit (%lu) must be a multiple of the block size (%lu)\n"), BBTOB(*lsunit), blocksize); exit(1); } @@ -917,7 +917,7 @@ fixup_internal_log_stripe( int sunit, xfs_rfsblock_t *logblocks, int blocklog, - int *lalign) + __uint64_t *lalign) { if ((logstart % sunit) != 0) { logstart = ((logstart + (sunit - 1))/sunit) * sunit; @@ -1405,70 +1405,70 @@ main( __uint64_t agsize; xfs_alloc_rec_t *arec; struct xfs_btree_block *block; - int blflag; - int blocklog; - int bsflag; - int bsize; + __uint64_t blflag; + __uint64_t blocklog; + __uint64_t bsflag; + __uint64_t bsize; xfs_buf_t *buf; - int c; - int daflag; - int dasize; + __uint64_t c; + __uint64_t daflag; + __uint64_t dasize; xfs_rfsblock_t dblocks; char *dfile; - int dirblocklog; - int dirblocksize; + __uint64_t dirblocklog; + __uint64_t dirblocksize; char *dsize; - int dsu; - int dsw; - int dsunit; - int dswidth; - int force_overwrite; + __uint64_t dsu; + __uint64_t dsw; + __uint64_t dsunit; + __uint64_t dswidth; + __uint64_t force_overwrite; struct fsxattr fsx; - int ilflag; - int imaxpct; - int imflag; - int inodelog; - int inopblock; - int ipflag; - int isflag; - int isize; + __uint64_t ilflag; + __uint64_t imaxpct; + __uint64_t imflag; + __uint64_t inodelog; + __uint64_t inopblock; + __uint64_t ipflag; + __uint64_t isflag; + __uint64_t isize; char *label = NULL; - int laflag; - int lalign; - int ldflag; - int liflag; + __uint64_t laflag; + __uint64_t lalign; + __uint64_t ldflag; + __uint64_t liflag; xfs_agnumber_t logagno; xfs_rfsblock_t logblocks; char *logfile; - int loginternal; + __uint64_t loginternal; char *logsize; xfs_fsblock_t logstart; - int lvflag; - int lsflag; - int lsuflag; - int lsunitflag; - int lsectorlog; - int lsectorsize; - int lslflag; - int lssflag; - int lsu; - int lsunit; - int min_logblocks; + __uint64_t lvflag; + __uint64_t lsflag; + __uint64_t lsuflag; + __uint64_t lsunitflag; + __uint64_t lsectorlog; + __uint64_t lsectorsize; + __uint64_t lslflag; + __uint64_t lssflag; + __uint64_t lsu; + __uint64_t lsunit; + __uint64_t min_logblocks; xfs_mount_t *mp; xfs_mount_t mbuf; xfs_extlen_t nbmblocks; - int nlflag; - int nodsflag; - int norsflag; + __uint64_t nlflag; + __uint64_t nodsflag; + __uint64_t norsflag; xfs_alloc_rec_t *nrec; - int nsflag; - int nvflag; - int Nflag; - int discard = 1; + __uint64_t nsflag; + __uint64_t nvflag; + __uint64_t Nflag; + __uint64_t discard = 1; char *p; char *protofile; char *protostring; - int qflag; + __uint64_t qflag; xfs_rfsblock_t rtblocks; xfs_extlen_t rtextblocks; xfs_rtblock_t rtextents; @@ -1476,13 +1476,13 @@ main( char *rtfile; char *rtsize; xfs_sb_t *sbp; - int sectorlog; + __uint64_t sectorlog; __uint64_t sector_mask; - int slflag; - int ssflag; + __uint64_t slflag; + __uint64_t ssflag; __uint64_t tmp_agsize; uuid_t uuid; - int worst_freelist; + __uint64_t worst_freelist; libxfs_init_t xi; struct fs_topology ft; struct sb_feat_args sb_feat = { @@ -1946,7 +1946,7 @@ main( blocksize = 1 << XFS_DFL_BLOCKSIZE_LOG; } if (blocksize < XFS_MIN_BLOCKSIZE || blocksize > XFS_MAX_BLOCKSIZE) { - fprintf(stderr, _("illegal block size %d\n"), blocksize); + fprintf(stderr, _("illegal block size %lu\n"), blocksize); usage(); } if (sb_feat.crcs_enabled && blocksize < XFS_MIN_CRC_BLOCKSIZE) { @@ -2010,7 +2010,7 @@ _("Minimum block size for CRC enabled filesystems is %d bytes.\n"), if ((blocksize < sectorsize) && (blocksize >= ft.lsectorsize)) { fprintf(stderr, -_("specified blocksize %d is less than device physical sector size %d\n"), +_("specified blocksize %lu is less than device physical sector size %d\n"), blocksize, ft.psectorsize); fprintf(stderr, _("switching to logical sector size %d\n"), @@ -2031,21 +2031,21 @@ _("switching to logical sector size %d\n"), if (sectorsize < XFS_MIN_SECTORSIZE || sectorsize > XFS_MAX_SECTORSIZE || sectorsize > blocksize) { if (ssflag) - fprintf(stderr, _("illegal sector size %d\n"), sectorsize); + fprintf(stderr, _("illegal sector size %lu\n"), sectorsize); else fprintf(stderr, -_("block size %d cannot be smaller than logical sector size %d\n"), +_("block size %lu cannot be smaller than logical sector size %d\n"), blocksize, ft.lsectorsize); usage(); } if (sectorsize < ft.lsectorsize) { - fprintf(stderr, _("illegal sector size %d; hw sector is %d\n"), + fprintf(stderr, _("illegal sector size %lu; hw sector is %d\n"), sectorsize, ft.lsectorsize); usage(); } if (lsectorsize < XFS_MIN_SECTORSIZE || lsectorsize > XFS_MAX_SECTORSIZE || lsectorsize > blocksize) { - fprintf(stderr, _("illegal log sector size %d\n"), lsectorsize); + fprintf(stderr, _("illegal log sector size %lu\n"), lsectorsize); usage(); } else if (lsectorsize > XFS_MIN_SECTORSIZE && !lsu && !lsunit) { lsu = blocksize; @@ -2151,7 +2151,7 @@ _("rmapbt not supported with realtime devices\n")); if (nsflag || nlflag) { if (dirblocksize < blocksize || dirblocksize > XFS_MAX_BLOCKSIZE) { - fprintf(stderr, _("illegal directory block size %d\n"), + fprintf(stderr, _("illegal directory block size %lu\n"), dirblocksize); usage(); } @@ -2177,7 +2177,7 @@ _("rmapbt not supported with realtime devices\n")); dblocks = (xfs_rfsblock_t)(dbytes >> blocklog); if (dbytes % blocksize) fprintf(stderr, _("warning: " - "data length %lld not a multiple of %d, truncated to %lld\n"), + "data length %lld not a multiple of %lu, truncated to %lld\n"), (long long)dbytes, blocksize, (long long)(dblocks << blocklog)); } @@ -2209,7 +2209,7 @@ _("rmapbt not supported with realtime devices\n")); logblocks = (xfs_rfsblock_t)(logbytes >> blocklog); if (logbytes % blocksize) fprintf(stderr, - _("warning: log length %lld not a multiple of %d, truncated to %lld\n"), + _("warning: log length %lld not a multiple of %lu, truncated to %lld\n"), (long long)logbytes, blocksize, (long long)(logblocks << blocklog)); } @@ -2226,7 +2226,7 @@ _("rmapbt not supported with realtime devices\n")); rtblocks = (xfs_rfsblock_t)(rtbytes >> blocklog); if (rtbytes % blocksize) fprintf(stderr, - _("warning: rt length %lld not a multiple of %d, truncated to %lld\n"), + _("warning: rt length %lld not a multiple of %lu, truncated to %lld\n"), (long long)rtbytes, blocksize, (long long)(rtblocks << blocklog)); } @@ -2239,7 +2239,7 @@ _("rmapbt not supported with realtime devices\n")); rtextbytes = getnum(rtextsize, &ropts, R_EXTSIZE); if (rtextbytes % blocksize) { fprintf(stderr, - _("illegal rt extent size %lld, not a multiple of %d\n"), + _("illegal rt extent size %lld, not a multiple of %lu\n"), (long long)rtextbytes, blocksize); usage(); } @@ -2282,16 +2282,16 @@ _("rmapbt not supported with realtime devices\n")); isize > XFS_DINODE_MAX_SIZE) { int maxsz; - fprintf(stderr, _("illegal inode size %d\n"), isize); + fprintf(stderr, _("illegal inode size %lu\n"), isize); maxsz = MIN(blocksize / XFS_MIN_INODE_PERBLOCK, XFS_DINODE_MAX_SIZE); if (XFS_DINODE_MIN_SIZE == maxsz) fprintf(stderr, - _("allowable inode size with %d byte blocks is %d\n"), + _("allowable inode size with %lu byte blocks is %d\n"), blocksize, XFS_DINODE_MIN_SIZE); else fprintf(stderr, - _("allowable inode size with %d byte blocks is between %d and %d\n"), + _("allowable inode size with %lu byte blocks is between %d and %d\n"), blocksize, XFS_DINODE_MIN_SIZE, maxsz); exit(1); } @@ -2395,19 +2395,19 @@ _("rmapbt not supported with realtime devices\n")); if (xi.dbsize > sectorsize) { fprintf(stderr, _( -"Warning: the data subvolume sector size %u is less than the sector size \n\ +"Warning: the data subvolume sector size %lu is less than the sector size \n\ reported by the device (%u).\n"), sectorsize, xi.dbsize); } if (!loginternal && xi.lbsize > lsectorsize) { fprintf(stderr, _( -"Warning: the log subvolume sector size %u is less than the sector size\n\ +"Warning: the log subvolume sector size %lu is less than the sector size\n\ reported by the device (%u).\n"), lsectorsize, xi.lbsize); } if (rtsize && xi.rtsize > 0 && xi.rtbsize > sectorsize) { fprintf(stderr, _( -"Warning: the realtime subvolume sector size %u is less than the sector size\n\ +"Warning: the realtime subvolume sector size %lu is less than the sector size\n\ reported by the device (%u).\n"), sectorsize, xi.rtbsize); } @@ -2437,14 +2437,14 @@ reported by the device (%u).\n"), if (dsunit) { if (ft.dsunit && ft.dsunit != dsunit) { fprintf(stderr, - _("%s: Specified data stripe unit %d " + _("%s: Specified data stripe unit %lu " "is not the same as the volume stripe " "unit %d\n"), progname, dsunit, ft.dsunit); } if (ft.dswidth && ft.dswidth != dswidth) { fprintf(stderr, - _("%s: Specified data stripe width %d " + _("%s: Specified data stripe width %lu " "is not the same as the volume stripe " "width %d\n"), progname, dswidth, ft.dswidth); @@ -2462,7 +2462,7 @@ reported by the device (%u).\n"), */ if (agsize % blocksize) { fprintf(stderr, - _("agsize (%lld) not a multiple of fs blk size (%d)\n"), + _("agsize (%lld) not a multiple of fs blk size (%lu)\n"), (long long)agsize, blocksize); usage(); } @@ -2512,7 +2512,7 @@ reported by the device (%u).\n"), (dblocks % agsize != 0); if (dasize) fprintf(stderr, - _("agsize rounded to %lld, swidth = %d\n"), + _("agsize rounded to %lld, swidth = %lu\n"), (long long)agsize, dswidth); } else { if (nodsflag) { @@ -2569,8 +2569,8 @@ an AG size that is one stripe unit smaller, for example %llu.\n"), dsunit = dswidth = 0; else { fprintf(stderr, - _("%s: Stripe unit(%d) or stripe width(%d) is " - "not a multiple of the block size(%d)\n"), + _("%s: Stripe unit(%lu) or stripe width(%lu) is " + "not a multiple of the block size(%lu)\n"), progname, BBTOB(dsunit), BBTOB(dswidth), blocksize); exit(1); @@ -2610,7 +2610,7 @@ an AG size that is one stripe unit smaller, for example %llu.\n"), /* Warn only if specified on commandline */ if (lsuflag || lsunitflag) { fprintf(stderr, - _("log stripe unit (%d bytes) is too large (maximum is 256KiB)\n"), + _("log stripe unit (%lu bytes) is too large (maximum is 256KiB)\n"), (lsunit * blocksize)); fprintf(stderr, _("log stripe unit adjusted to 32KiB\n")); @@ -2755,14 +2755,14 @@ _("size %s specified for log subvolume is too large, maximum is %lld blocks\n"), if (!qflag || Nflag) { printf(_( - "meta-data=%-22s isize=%-6d agcount=%lld, agsize=%lld blks\n" - " =%-22s sectsz=%-5u attr=%u, projid32bit=%u\n" + "meta-data=%-22s isize=%-6lu agcount=%lld, agsize=%lld blks\n" + " =%-22s sectsz=%-5lu attr=%u, projid32bit=%u\n" " =%-22s crc=%-8u finobt=%u, sparse=%u, rmapbt=%u, reflink=%u\n" - "data =%-22s bsize=%-6u blocks=%llu, imaxpct=%u\n" - " =%-22s sunit=%-6u swidth=%u blks\n" - "naming =version %-14u bsize=%-6u ascii-ci=%d ftype=%d\n" + "data =%-22s bsize=%-6lu blocks=%llu, imaxpct=%lu\n" + " =%-22s sunit=%-6lu swidth=%lu blks\n" + "naming =version %-14u bsize=%-6lu ascii-ci=%d ftype=%d\n" "log =%-22s bsize=%-6d blocks=%lld, version=%d\n" - " =%-22s sectsz=%-5u sunit=%d blks, lazy-count=%d\n" + " =%-22s sectsz=%-5lu sunit=%lu blks, lazy-count=%d\n" "realtime =%-22s extsz=%-6d blocks=%lld, rtextents=%lld\n"), dfile, isize, (long long)agcount, (long long)agsize, "", sectorsize, sb_feat.attr_version, -- 2.12.1