ref: 17f7f6be4e1a316c0f5f26ff70e047aece4de2bc
dir: /sys/src/cmd/ecp.c/
/* * ecp - copy a file fast (in big blocks), cope with errors, optionally verify. * * Transfers a block at a time. On error, retries one sector at a time, * and reports all errors on the retry. * Unlike dd, ecp ignores EOF, since it is sometimes reported on error. * Also unlike `dd conv=noerror,sync', ecp doesn't get stuck nor give up. * * Written by Geoff Collyer, originally to run on RSX-11M(!) in 1979. * Later simplified for UNIX and ultimately Plan 9. */ #include <u.h> #include <libc.h> #include <ctype.h> /* fundamental constants */ enum { No = 0, Yes, Noseek = 0, /* need not seek, may seek on seekable files */ Mustseek, Enone = 0, Eio, }; /* tunable parameters */ enum { Defsectsz = 512, /* default sector size */ /* 10K is a good size for HP WORM drives */ Defblksz = 16*1024, /* default block (big-transfer) size */ Mingoodblks = 3, /* after this many, go back to fast mode */ }; #define TTY "/dev/cons" /* plan 9 */ #define badsect(errno) ((errno) != Enone) /* was last transfer in error? */ /* disk address (in bytes or sectors), also type of 2nd arg. to seek */ typedef uvlong Daddr; typedef vlong Sdaddr; /* signed disk address */ typedef long Rdwrfn(int, void *, long); /* plan 9 read or write */ typedef struct { char *name; int fd; Daddr startsect; int fast; int seekable; ulong maxconerrs; /* maximum consecutive errors */ ulong conerrs; /* current consecutive errors */ Daddr congoodblks; Daddr harderrs; Daddr lasterr; /* sector #s */ Daddr lastgood; } File; /* exports */ char *argv0; /* privates */ static int reblock = No, progress = No, swizzle = No; static int reverse = No; static ulong sectsz = Defsectsz; static ulong blocksize = Defblksz; static char *buf, *vfybuf; static int blksects; /* * warning - print best error message possible and clear errno */ void warning(char *s1, char *s2) { char err[100], msg[256]; char *np, *ep = msg + sizeof msg - 1; errstr(err, sizeof err); /* save error string */ np = seprint(msg, ep, "%s: ", argv0); np = seprint(np, ep, s1, s2); errstr(err, sizeof err); /* restore error string */ seprint(np, ep, ": %r\n"); fprint(2, "%s", msg); } int eopen(char *file, int mode) { int fd = open(file, mode); if (fd < 0) sysfatal("can't open %s: %r", file); return fd; } static int /* boolean */ confirm(File *src, File *dest) { int absent, n, tty = eopen(TTY, 2); char c, junk; Dir *stp; if ((stp = dirstat(src->name)) == nil) sysfatal("no input file %s: %r", src->name); free(stp); stp = dirstat(dest->name); absent = (stp == nil); free(stp); fprint(2, "%s: copy %s to %s%s? ", argv0, src->name, dest->name, (absent? " (missing)": "")); n = read(tty, &c, 1); junk = c; if (n < 1) c = 'n'; while (n > 0 && junk != '\n') n = read(tty, &junk, 1); close(tty); if (isascii(c) && isupper(c)) c = tolower(c); return c == 'y'; } static char * sectid(File *fp, Daddr sect) { static char sectname[256]; if (fp->startsect == 0) snprint(sectname, sizeof sectname, "%s sector %llud", fp->name, sect); else snprint(sectname, sizeof sectname, "%s sector %llud (relative %llud)", fp->name, sect + fp->startsect, sect); return sectname; } static void io_expl(File *fp, char *rw, Daddr sect) /* explain an i/o error */ { /* print only first 2 bad sectors in a range, if going forward */ if (reverse || fp->conerrs == 0) { char msg[128]; snprint(msg, sizeof msg, "%s %s", rw, sectid(fp, sect)); warning("%s", msg); } else if (fp->conerrs == 1) fprint(2, "%s: ...\n", argv0); } static void repos(File *fp, Daddr sect) { if (!fp->seekable) sysfatal("%s: trying to seek on unseekable file", fp->name); if (seek(fp->fd, (sect+fp->startsect)*sectsz, 0) == -1) sysfatal("can't seek on %s: %r", fp->name); } static void rewind(File *fp) { repos(fp, 0); } /* * transfer (many) sectors. reblock input as needed. * returns Enone if no failures, others on failure with errstr set. */ static int bio(File *fp, Rdwrfn *rdwr, char *buff, Daddr stsect, int sects, int mustseek) { int xfered; ulong toread, bytes = sects * sectsz; static int reblocked = 0; if (mustseek) { if (!fp->seekable) sysfatal("%s: need to seek on unseekable file", fp->name); repos(fp, stsect); } if ((long)blocksize != blocksize || (long)bytes != bytes) sysfatal("i/o count too big: %lud", bytes); werrstr(""); xfered = (*rdwr)(fp->fd, buff, bytes); if (xfered == bytes) return Enone; /* did as we asked */ if (xfered < 0) return Eio; /* out-and-out i/o error */ /* * Kernel transferred less than asked. Shouldn't happen; * probably indicates disk driver error or trying to * transfer past the end of a disk partition. Treat as an * I/O error that reads zeros past the point of error, * unless reblocking input and this is a read. */ if (rdwr == write) return Eio; if (!reblock) { memset(buff+xfered, '\0', bytes-xfered); return Eio; /* short read */ } /* for pipes that return less than asked */ if (progress && !reblocked) { fprint(2, "%s: reblocking input\n", argv0); reblocked++; } for (toread = bytes - xfered; toread != 0; toread -= xfered) { xfered = (*rdwr)(fp->fd, buff+bytes-toread, toread); if (xfered <= 0) break; } if (xfered < 0) return Eio; /* out-and-out i/o error */ if (toread != 0) /* early EOF? */ memset(buff+bytes-toread, '\0', toread); return Enone; } /* called only after a single-sector transfer */ static int toomanyerrs(File *fp, Daddr sect) { if (sect == fp->lasterr+1) fp->conerrs++; else fp->conerrs = 0; fp->lasterr = sect; return fp->maxconerrs != 0 && fp->conerrs >= fp->maxconerrs && fp->lastgood == -1; } static void ckendrange(File *fp) { if (!reverse && fp->conerrs > 0) fprint(2, "%s: %lld: ... last bad sector in range\n", argv0, fp->lasterr); } static int transfer(File *fp, Rdwrfn *rdwr, char *buff, Daddr stsect, int sects, int mustseek) { int res = bio(fp, rdwr, buff, stsect, sects, mustseek); if (badsect(res)) { fp->fast = 0; /* read single sectors for a while */ fp->congoodblks = 0; } else fp->lastgood = stsect + sects - 1; return res; } /* * Read or write many sectors at once. * If it fails, retry the individual sectors and report errors. */ static void bigxfer(File *fp, Rdwrfn *rdwr, char *buff, Daddr stsect, int sects, int mustseek) { int i, badsects = 0, wasfast = fp->fast; char *rw = (rdwr == read? "read": "write"); if (fp->fast) { if (!badsect(transfer(fp, rdwr, buff, stsect, sects, mustseek))) return; if (progress) fprint(2, "%s: breaking up big transfer on %s error " "`%r' on %s\n", argv0, rw, sectid(fp, stsect)); } for (i = 0; i < sects; i++) if (badsect(transfer(fp, rdwr, buff+i*sectsz, stsect+i, 1, Mustseek))) { io_expl(fp, rw, stsect+i); badsects++; fp->harderrs++; if (toomanyerrs(fp, stsect+i)) sysfatal("more than %lud consecutive I/O errors", fp->maxconerrs); } else { ckendrange(fp); fp->conerrs = 0; } if (badsects == 0) { ckendrange(fp); fp->conerrs = 0; if (wasfast) fprint(2, "%s: %s error on big transfer at %s but none " "on retries!\n", argv0, rw, sectid(fp, stsect)); ++fp->congoodblks; if (fp->congoodblks >= Mingoodblks) { fprint(2, "%s: %s: back to big transfers\n", argv0, fp->name); fp->fast = 1; } } else /* * the last sector could have been in error, so the seek pointer * may need to be corrected. */ repos(fp, stsect + sects); } static void vrfyfailed(File *src, File *dest, Daddr stsect) { char *srcsect = strdup(sectid(src, stsect)); fprint(2, "%s: verify failed at %s (%s)\n", argv0, srcsect, sectid(dest, stsect)); free(srcsect); } /* * I've seen SCSI read errors that the kernel printed but then didn't * report to the program doing the read, so if a big verify fails, * break it up and verify each sector separately to isolate the bad sector(s). */ int /* error count */ verify(File *src, File *dest, char *buff, char *buft, Daddr stsect, int sectors) { int i, errors = 0; for (i = 0; i < sectors; i++) if (memcmp(buff + i*sectsz, buft + i*sectsz, sectsz) != 0) errors++; if (errors == 0) return errors; /* normal case */ if (sectors == 1) { vrfyfailed(src, dest, stsect); return errors; } /* re-read and verify each sector individually */ errors = 0; for (i = 0; i < sectors; i++) { int thissect = stsect + i; if (badsect(bio(src, read, buff, thissect, 1, Mustseek))) io_expl(src, "read", thissect); if (badsect(bio(dest, read, buft, thissect, 1, Mustseek))) io_expl(dest, "write", thissect); if (memcmp(buff, buft, sectsz) != 0) { vrfyfailed(src, dest, thissect); ++errors; } } if (errors == 0) { char *srcsect = strdup(sectid(src, stsect)); fprint(2, "%s: verification failed on big read at %s (%s) " "but not on retries!\n", argv0, srcsect, sectid(dest, stsect)); free(srcsect); } /* * the last sector of each could have been in error, so the seek * pointers may need to be corrected. */ repos(src, stsect + sectors); repos(dest, stsect + sectors); return errors; } /* * start is starting sector of proposed transfer; * nsects is the total number of sectors being copied; * maxxfr is the block size in sectors. */ int sectsleft(Daddr start, Daddr nsects, int maxxfr) { /* nsects-start is sectors to the end */ if (start + maxxfr <= nsects - 1) return maxxfr; else return nsects - start; } enum { Rotbits = 3, }; void swizzlebits(char *buff, int sects) { uchar *bp, *endbp; endbp = (uchar *)(buff+sects*sectsz); for (bp = (uchar *)buff; bp < endbp; bp++) *bp = ~(*bp>>Rotbits | *bp<<(8-Rotbits)); } /* * copy at most blksects sectors, with error retries. * stsect is relative to the start of the copy; 0 is the first sector. * to get actual sector numbers, add e.g. dest->startsect. */ static int copysects(File *src, File *dest, Daddr stsect, Daddr nsects, int mustseek) { int xfrsects = sectsleft(stsect, nsects, blksects); if (xfrsects > blksects) { fprint(2, "%s: block size of %d is too big.\n", argv0, xfrsects); exits("block size too big"); } bigxfer(src, read, buf, stsect, xfrsects, mustseek); if (swizzle) swizzlebits(buf, xfrsects); bigxfer(dest, write, buf, stsect, xfrsects, mustseek); /* give a few reassurances at the start, then every 10MB */ if (progress && (stsect < blksects*10 || stsect%(10*1024*1024/sectsz) == 0)) fprint(2, "%s: copied%s to relative sector %llud\n", argv0, (swizzle? " swizzled": ""), stsect + xfrsects - 1); return 0; } /* * verify at most blksects sectors, with error retries. * return error count. */ static int vrfysects(File *src, File *dest, Daddr stsect, Daddr nsects, int mustseek) { int xfrsects = sectsleft(stsect, nsects, blksects); if (xfrsects > blksects) { fprint(2, "%s: block size of %d is too big.\n", argv0, xfrsects); exits("block size too big"); } bigxfer(src, read, buf, stsect, xfrsects, mustseek); bigxfer(dest, read, vfybuf, stsect, xfrsects, mustseek); return verify(src, dest, buf, vfybuf, stsect, xfrsects); } static void setupfile(File *fp, int mode) { fp->fd = open(fp->name, mode); if (fp->fd < 0) sysfatal("can't open %s: %r", fp->name); fp->seekable = (seek(fp->fd, 0, 1) >= 0); if (fp->startsect != 0) rewind(fp); } static Daddr copyfile(File *src, File *dest, Daddr nsects, int plsverify) { Sdaddr stsect, vererrs = 0; Dir *stp; setupfile(src, OREAD); if ((stp = dirstat(dest->name)) == nil) { int fd = create(dest->name, ORDWR, 0666); if (fd >= 0) close(fd); } free(stp); setupfile(dest, ORDWR); if (progress) fprint(2, "%s: copying first sectors\n", argv0); if (reverse) for (stsect = (nsects/blksects)*blksects; stsect >= 0; stsect -= blksects) vererrs += copysects(src, dest, stsect, nsects, Mustseek); else { for (stsect = 0; stsect < nsects; stsect += blksects) vererrs += copysects(src, dest, stsect, nsects, Noseek); ckendrange(src); ckendrange(dest); } /* * verification is done as a separate pass rather than immediately after * writing, in part to defeat caching in clever disk controllers. * we really want to see the bits that hit the disk. */ if (plsverify) { fprint(2, "%s: copy done; verifying...\n", argv0); rewind(src); rewind(dest); for (stsect = 0; stsect < nsects; stsect += blksects) /* forward */ vererrs += vrfysects(src, dest, stsect, nsects, Noseek); if (vererrs <= 0) fprint(2, "%s: no", argv0); else fprint(2, "%s: %llud", argv0, vererrs); fprint(2, " error%s during verification\n", (vererrs != 1? "s": "")); } close(src->fd); close(dest->fd); return vererrs; } static void usage(void) { fprint(2, "usage: %s [-bcprvZ][-B blocksz][-e errs][-s sectsz]" "[-i issect][-o ossect] sectors from to\n", argv0); exits("usage"); } void initfile(File *fp) { memset(fp, 0, sizeof *fp); fp->fast = 1; fp->lasterr = -1; fp->lastgood = -1; } void main(int argc, char **argv) { int errflg = 0, plsconfirm = No, plsverify = No; long lval; File src, dest; Sdaddr sect; initfile(&src); initfile(&dest); ARGBEGIN { case 'b': reblock = Yes; break; case 'B': lval = atol(EARGF(usage())); if (lval < 0) usage(); blocksize = lval; break; case 'c': plsconfirm = Yes; break; case 'e': lval = atol(EARGF(usage())); if (lval < 0) usage(); src.maxconerrs = lval; dest.maxconerrs = lval; break; case 'i': sect = atoll(EARGF(usage())); if (sect < 0) usage(); src.startsect = sect; break; case 'o': sect = atoll(EARGF(usage())); if (sect < 0) usage(); dest.startsect = sect; break; case 'p': progress = Yes; break; case 'r': reverse = Yes; break; case 's': sectsz = atol(EARGF(usage())); if (sectsz <= 0 || sectsz % 512 != 0) usage(); break; case 'v': plsverify = Yes; break; case 'Z': swizzle = Yes; break; default: errflg++; break; } ARGEND if (errflg || argc != 3) usage(); if (blocksize <= 0 || blocksize % sectsz != 0) sysfatal("block size not a multiple of sector size"); if (!isascii(argv[0][0]) || !isdigit(argv[0][0])) { fprint(2, "%s: %s is not numeric\n", argv0, argv[0]); exits("non-numeric sector count"); } src.name = argv[1]; dest.name = argv[2]; blksects = blocksize / sectsz; if (blksects < 1) blksects = 1; buf = malloc(blocksize); vfybuf = malloc(blocksize); if (buf == nil || vfybuf == nil) sysfatal("out of memory: %r"); if (plsconfirm? confirm(&src, &dest): Yes) copyfile(&src, &dest, atoll(argv[0]), plsverify); exits(src.harderrs || dest.harderrs? "hard errors": 0); }