/*********************************************************************** * * * This software is part of the ast package * * Copyright (c) 1985-2007 AT&T Knowledge Ventures * * and is licensed under the * * Common Public License, Version 1.0 * * by AT&T Knowledge Ventures * * * * 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 "sfhdr.h" /* Add a new discipline to the discipline stack. Each discipline ** provides alternative I/O functions that are analogues of the ** system calls. ** ** When the application fills or flushes the stream buffer, data ** will be processed through discipline functions. A case deserving ** consideration is stacking a discipline onto a read stream. Each ** discipline operation implies buffer synchronization so the stream ** buffer should be empty. However, a read stream representing an ** unseekable device (eg, a pipe) may not be synchronizable. In that ** case, any buffered data must then be fed to the new discipline ** to preserve data processing semantics. This is done by creating ** a temporary discipline to cache such buffered data and feed ** them to the new discipline when its readf() asks for new data. ** Care must then be taken to remove this temporary discipline ** when it runs out of cached data. ** ** Written by Kiem-Phong Vo */ typedef struct _dccache_s { Sfdisc_t disc; uchar* data; uchar* endb; } Dccache_t; #if __STD_C static int _dccaexcept(Sfio_t* f, int type, Void_t* val, Sfdisc_t* disc) #else static int _dccaexcept(f,type,val,disc) Sfio_t* f; int type; Void_t* val; Sfdisc_t* disc; #endif { if(disc && type == SF_FINAL) free(disc); return 0; } #if __STD_C static ssize_t _dccaread(Sfio_t* f, Void_t* buf, size_t size, Sfdisc_t* disc) #else static ssize_t _dccaread(f, buf, size, disc) Sfio_t* f; Void_t* buf; size_t size; Sfdisc_t* disc; #endif { ssize_t sz; Sfdisc_t *prev; Dccache_t *dcca; if(!f) /* bad stream */ return -1; /* make sure that this is on the discipline stack */ for(prev = f->disc; prev; prev = prev->disc) if(prev->disc == disc) break; if(!prev) return -1; if(size <= 0) /* nothing to do */ return size; /* read from available data */ dcca = (Dccache_t*)disc; if((sz = dcca->endb - dcca->data) > (ssize_t)size) sz = (ssize_t)size; memcpy(buf, dcca->data, sz); if((dcca->data += sz) >= dcca->endb) /* free empty cache */ { prev->disc = disc->disc; free(disc); } return sz; } #if __STD_C Sfdisc_t* sfdisc(reg Sfio_t* f, reg Sfdisc_t* disc) #else Sfdisc_t* sfdisc(f,disc) reg Sfio_t* f; reg Sfdisc_t* disc; #endif { reg Sfdisc_t *d, *rdisc; reg Sfread_f oreadf; reg Sfwrite_f owritef; reg Sfseek_f oseekf; ssize_t n; reg Dccache_t *dcca = NIL(Dccache_t*); SFMTXSTART(f, NIL(Sfdisc_t*)); if((f->flags&SF_READ) && f->proc && (f->mode&SF_WRITE) ) { /* make sure in read mode to check for read-ahead data */ if(_sfmode(f,SF_READ,0) < 0) SFMTXRETURN(f, NIL(Sfdisc_t*)); } else if((f->mode&SF_RDWR) != f->mode && _sfmode(f,0,0) < 0) SFMTXRETURN(f, NIL(Sfdisc_t*)); SFLOCK(f,0); rdisc = NIL(Sfdisc_t*); /* disallow popping while there is cached data */ if(!disc && f->disc && f->disc->disc && f->disc->disc->readf == _dccaread ) goto done; /* synchronize before switching to a new discipline */ if(!(f->flags&SF_STRING)) { (void)SFSYNC(f); /* do a silent buffer synch */ if((f->mode&SF_READ) && (f->mode&SF_SYNCED) ) { f->mode &= ~SF_SYNCED; f->endb = f->next = f->endr = f->endw = f->data; } /* if there is buffered data, ask app before proceeding */ if(((f->mode&SF_WRITE) && (n = f->next-f->data) > 0) || ((f->mode&SF_READ) && (n = f->endb-f->next) > 0) ) { int rv = 0; if(rv == 0 && f->disc && f->disc->exceptf) /* ask current discipline */ { SFOPEN(f,0); rv = (*f->disc->exceptf)(f, SF_DBUFFER, &n, f->disc); SFLOCK(f,0); } if(rv == 0 && disc && disc->exceptf) /* ask discipline being pushed */ { SFOPEN(f,0); rv = (*disc->exceptf)(f, SF_DBUFFER, &n, disc); SFLOCK(f,0); } if(rv < 0) goto done; } /* trick the new discipline into processing already buffered data */ if((f->mode&SF_READ) && n > 0 && disc && disc->readf ) { if(!(dcca = (Dccache_t*)malloc(sizeof(Dccache_t)+n)) ) goto done; memclear(dcca, sizeof(Dccache_t)); dcca->disc.readf = _dccaread; dcca->disc.exceptf = _dccaexcept; /* move buffered data into the temp discipline */ dcca->data = ((uchar*)dcca) + sizeof(Dccache_t); dcca->endb = dcca->data + n; memcpy(dcca->data, f->next, n); f->endb = f->next = f->endr = f->endw = f->data; } } /* save old readf, writef, and seekf to see if stream need reinit */ #define GETDISCF(func,iof,type) \ { for(d = f->disc; d && !d->iof; d = d->disc) ; \ func = d ? d->iof : NIL(type); \ } GETDISCF(oreadf,readf,Sfread_f); GETDISCF(owritef,writef,Sfwrite_f); GETDISCF(oseekf,seekf,Sfseek_f); if(disc == SF_POPDISC) { /* popping, warn the being popped discipline */ if(!(d = f->disc) ) goto done; disc = d->disc; if(d->exceptf) { SFOPEN(f,0); if((*(d->exceptf))(f,SF_DPOP,(Void_t*)disc,d) < 0 ) goto done; SFLOCK(f,0); } f->disc = disc; rdisc = d; } else { /* pushing, warn being pushed discipline */ do { /* loop to handle the case where d may pop itself */ d = f->disc; if(d && d->exceptf) { SFOPEN(f,0); if( (*(d->exceptf))(f,SF_DPUSH,(Void_t*)disc,d) < 0 ) goto done; SFLOCK(f,0); } } while(d != f->disc); /* make sure we are not creating an infinite loop */ for(; d; d = d->disc) if(d == disc) goto done; /* set new disc */ if(dcca) /* insert the discipline with cached data */ { dcca->disc.disc = f->disc; disc->disc = &dcca->disc; } else disc->disc = f->disc; f->disc = disc; rdisc = disc; } if(!(f->flags&SF_STRING) ) { /* this stream may have to be reinitialized */ reg int reinit = 0; #define DISCF(dst,iof,type) (dst ? dst->iof : NIL(type)) #define REINIT(oiof,iof,type) \ if(!reinit) \ { for(d = f->disc; d && !d->iof; d = d->disc) ; \ if(DISCF(d,iof,type) != oiof) \ reinit = 1; \ } REINIT(oreadf,readf,Sfread_f); REINIT(owritef,writef,Sfwrite_f); REINIT(oseekf,seekf,Sfseek_f); if(reinit) { SETLOCAL(f); f->bits &= ~SF_NULL; /* turn off /dev/null handling */ if((f->bits&SF_MMAP) || (f->mode&SF_INIT)) sfsetbuf(f,NIL(Void_t*),(size_t)SF_UNBOUND); else if(f->data == f->tiny) sfsetbuf(f,NIL(Void_t*),0); else { int flags = f->flags; sfsetbuf(f,(Void_t*)f->data,f->size); f->flags |= (flags&SF_MALLOC); } } } done : SFOPEN(f,0); SFMTXRETURN(f, rdisc); }