/*********************************************************************** * * * This software is part of the ast package * * Copyright (c) 1985-2010 AT&T Intellectual Property * * and is licensed under the * * Common Public License, Version 1.0 * * by AT&T Intellectual Property * * * * A copy of the License is available at * * http://www.opensource.org/licenses/cpl1.0.txt * * (with md5 checksum 059e8cd6165cb4c31e351f2b69388fd9) * * * * Information and Software Systems Research * * AT&T Research * * Florham Park NJ * * * * Glenn Fowler * * David Korn * * Phong Vo * * * ***********************************************************************/ #include "sfdchdr.h" /* Discipline to make an unseekable read stream seekable ** ** sfraise(f,SFSK_DISCARD,0) discards previous seek data ** but seeks from current offset on still allowed ** ** Written by Kiem-Phong Vo, kpv@research.att.com, 03/18/1998. */ typedef struct _skable_s { Sfdisc_t disc; /* sfio discipline */ Sfio_t* shadow; /* to shadow data */ Sfoff_t discard;/* sfseek(f,-1,SEEK_SET) discarded data */ Sfoff_t extent; /* shadow extent */ int eof; /* if eof has been reached */ } Seek_t; #if __STD_C static ssize_t skwrite(Sfio_t* f, const Void_t* buf, size_t n, Sfdisc_t* disc) #else static ssize_t skwrite(f, buf, n, disc) Sfio_t* f; /* stream involved */ Void_t* buf; /* buffer to read into */ size_t n; /* number of bytes to read */ Sfdisc_t* disc; /* discipline */ #endif { return (ssize_t)(-1); } #if __STD_C static ssize_t skread(Sfio_t* f, Void_t* buf, size_t n, Sfdisc_t* disc) #else static ssize_t skread(f, buf, n, disc) Sfio_t* f; /* stream involved */ Void_t* buf; /* buffer to read into */ size_t n; /* number of bytes to read */ Sfdisc_t* disc; /* discipline */ #endif { Seek_t* sk; Sfio_t* sf; Sfoff_t addr; ssize_t r, w, p; sk = (Seek_t*)disc; sf = sk->shadow; if(sk->eof) return sfread(sf,buf,n); addr = sfseek(sf,(Sfoff_t)0,SEEK_CUR); if(addr+n <= sk->extent) return sfread(sf,buf,n); if((r = (ssize_t)(sk->extent-addr)) > 0) { if((w = sfread(sf,buf,r)) != r) return w; buf = (char*)buf + r; n -= r; } /* do a raw read */ if((w = sfrd(f,buf,n,disc)) <= 0) { sk->eof = 1; w = 0; } else { if((p = sfwrite(sf,buf,w)) != w) sk->eof = 1; if(p > 0) sk->extent += p; } return r+w; } #if __STD_C static Sfoff_t skseek(Sfio_t* f, Sfoff_t addr, int type, Sfdisc_t* disc) #else static Sfoff_t skseek(f, addr, type, disc) Sfio_t* f; Sfoff_t addr; int type; Sfdisc_t* disc; #endif { Seek_t* sk; Sfio_t* sf; char buf[SF_BUFSIZE]; ssize_t r, w; sk = (Seek_t*)disc; sf = sk->shadow; switch (type) { case SEEK_SET: addr -= sk->discard; break; case SEEK_CUR: addr += sftell(sf); break; case SEEK_END: addr += sk->extent; break; default: return -1; } if(addr < 0) return (Sfoff_t)(-1); else if(addr > sk->extent) { if(sk->eof) return (Sfoff_t)(-1); /* read enough to reach the seek point */ while(addr > sk->extent) { if(addr > sk->extent+sizeof(buf) ) w = sizeof(buf); else w = (int)(addr-sk->extent); if((r = sfrd(f,buf,w,disc)) <= 0) w = r-1; else if((w = sfwrite(sf,buf,r)) > 0) sk->extent += w; if(w != r) { sk->eof = 1; break; } } if(addr > sk->extent) return (Sfoff_t)(-1); } return sfseek(sf,addr,SEEK_SET) + sk->discard; } /* on close, remove the discipline */ #if __STD_C static int skexcept(Sfio_t* f, int type, Void_t* data, Sfdisc_t* disc) #else static int skexcept(f,type,data,disc) Sfio_t* f; int type; Void_t* data; Sfdisc_t* disc; #endif { Seek_t* sk; sk = (Seek_t*)disc; switch (type) { case SF_FINAL: case SF_DPOP: sfclose(sk->shadow); free(disc); break; case SFSK_DISCARD: sk->eof = 0; sk->discard += sk->extent; sk->extent = 0; sfseek(sk->shadow,(Sfoff_t)0,SEEK_SET); break; } return 0; } #if __STD_C int sfdcseekable(Sfio_t* f) #else int sfdcseekable(f) Sfio_t* f; #endif { reg Seek_t* sk; /* see if already seekable */ if(sfseek(f,(Sfoff_t)0,SEEK_CUR) >= 0) return 0; if(!(sk = (Seek_t*)malloc(sizeof(Seek_t))) ) return -1; memset(sk, 0, sizeof(*sk)); sk->disc.readf = skread; sk->disc.writef = skwrite; sk->disc.seekf = skseek; sk->disc.exceptf = skexcept; sk->shadow = sftmp(SF_BUFSIZE); sk->discard = 0; sk->extent = 0; sk->eof = 0; if(sfdisc(f, (Sfdisc_t*)sk) != (Sfdisc_t*)sk) { sfclose(sk->shadow); free(sk); return -1; } return 0; }