ref: 83246e296ea433b65b9d295b5e08fedd39ff1ab7
dir: /liblogfs/log.c/
#include "logfsos.h" #include "logfs.h" #include "local.h" #include "fcall.h" void logfsflashaddr2spo(LogfsServer *server, u32 flashaddr, long *seq, int *page, int *offset) { LogfsLowLevel *ll = server->ll; flashaddr &= ~LogAddr; *offset = flashaddr & ((1 << ll->l2pagesize) - 1); flashaddr >>= ll->l2pagesize; *page = flashaddr & ((1 << ll->l2pagesperblock) - 1); flashaddr >>= ll->l2pagesperblock; *seq = flashaddr; } u32 logfsspo2flashaddr(LogfsServer *server, long seq, int page, int offset) { //print("logfsspo2flashaddr(%ld, %d, %d)\n", seq, page, offset); return (((seq << server->ll->l2pagesperblock) + page) << server->ll->l2pagesize) + offset; } void logfsflashaddr2o(LogfsServer *server, u32 flashaddr, int *offset) { LogfsLowLevel *ll = server->ll; flashaddr &= ~LogAddr; *offset = flashaddr & ((1 << ll->l2pagesize) - 1); } char * logfslogsegmentnew(LogfsServer *server, int gen, LogSegment **segp) { LogSegment *seg; seg = logfsrealloc(nil, sizeof(LogSegment) + (server->ll->blocks - 1) * sizeof(long)); if(seg == nil) return Enomem; seg->pagebuf = logfsrealloc(nil, 1 << server->ll->l2pagesize); if(seg->pagebuf == nil) { logfsfreemem(seg); return Enomem; } seg->curpage = -1; seg->curblockindex = -1; seg->gen = gen; *segp = seg; return nil; } void logfslogsegmentfree(LogSegment **segp) { LogSegment *seg = *segp; if(seg) { logfsfreemem(seg->pagebuf); logfsfreemem(seg); *segp = nil; } } char * logfslogsegmentflush(LogfsServer *server, int active) { LogSegment *seg; seg = active ? server->activelog : server->sweptlog; if(seg == nil) return nil; if(seg->curpage >= 0 && seg->nbytes) { char *errmsg; LogfsLowLevel *ll = server->ll; int pagesize = 1 << ll->l2pagesize; //print("curblockindex %ld curpage %d nbytes %d\n", seg->curblockindex, seg->curpage, seg->nbytes); if(seg->nbytes < pagesize) seg->pagebuf[seg->nbytes++] = LogfsLogTend; memset(seg->pagebuf + seg->nbytes, 0xff, pagesize - seg->nbytes); for(;;) { errmsg = (*ll->writepage)(ll, seg->pagebuf, seg->blockmap[seg->curblockindex], seg->curpage); if(errmsg == nil) break; if(strcmp(errmsg, Eio) != 0) return errmsg; errmsg = logfsserverreplacelogblock(server, seg, seg->curblockindex); if(errmsg) return errmsg; } seg->curpage++; if(seg->curpage == (1 << ll->l2pagesperblock)) seg->curpage = -1; seg->nbytes = 0; } return nil; } static char * logspace(LogfsServer *server, int active, int takearisk, int nbytes, uchar **where, u32 *flashaddr) { char *errmsg; LogfsLowLevel *ll = server->ll; int pagesize = 1 << ll->l2pagesize; LogSegment *seg; if(nbytes > pagesize) return logfselogmsgtoobig; retry: seg = active ? server->activelog : server->sweptlog; for(;;) { //print("curpage %d nbytes %d\n", seg->curpage, seg->nbytes); if(seg->curpage >= 0) { if(seg->nbytes + nbytes < pagesize) break; errmsg = logfslogsegmentflush(server, active); if(errmsg) return errmsg; } if(seg->curpage < 0) { long block; long path; block = logfsfindfreeblock(ll, active ? (takearisk ? AllocReasonLogExtend : AllocReasonDataExtend) : AllocReasonTransfer); if(block < 0) { if(active) { int didsomething; errmsg = logfsserverlogsweep(server, 0, &didsomething); if(errmsg) return errmsg; if(didsomething) goto retry; } return logfselogfull; } seg->blockmap[++seg->curblockindex] = block; path = mklogpath(seg->curblockindex, seg->gen, 0); (*ll->setblocktag)(ll, block, LogfsTlog); (*ll->setblockpath)(ll, block, path); seg->curpage = 0; #ifdef FUTURE /* TODO - do we need one of these if the underlying system supports erase counting? */ seg->pagebuf[0] = LogfsLogTstart; PBIT16(seg->pagebuf + 1, 8); PBIT32(seg->pagebuf + 3, path); /* TODO duplicate information */ PBIT32(seg->pagebuf + 7, 0); /* TODO don't have this - discuss with forsyth */ seg->nbytes = 11; #else seg->nbytes = 0; #endif } } *where = seg->pagebuf + seg->nbytes; if(flashaddr) *flashaddr = logfsspo2flashaddr(server, seg->curblockindex, seg->curpage, seg->nbytes); seg->nbytes += nbytes; return nil; } static void logdirty(LogfsServer *server, int active) { if(active) server->activelog->dirty = 1; else server->sweptlog->dirty = 1; } char * logfslogbytes(LogfsServer *server, int active, uchar *msg, uint size) { char *errmsg; uchar *p; errmsg = logspace(server, active, 0, size, &p, nil); if(errmsg) return errmsg; memmove(p, msg, size); logdirty(server, active); return nil; } char * logfslog(LogfsServer *server, int active, LogMessage *s) { uint size = logfssizeS2M(s); char *errmsg; uchar *p; int takearisk; if(server->trace > 1) { print("%c<< ", active ? 'A' : 'S'); logfsdumpS(s); print("\n"); } if(active) { switch(s->type) { case LogfsLogTremove: case LogfsLogTtrunc: takearisk = 1; break; default: takearisk = 0; } } else takearisk = 0; errmsg = logspace(server, active, takearisk, size, &p, nil); if(errmsg) return errmsg; if(logfsconvS2M(s, p, size) != size) return "bad conversion"; logdirty(server, active); return nil; } int lognicesizeforwrite(LogfsServer *server, int active, u32 count, int muidlen) { int rawspace; LogSegment *seg; if(count > LogDataLimit) return 0; seg = active ? server->activelog : server->sweptlog; if(seg->curpage < 0) return LogDataLimit; rawspace = (1 << server->ll->l2pagesize) - seg->nbytes; if(rawspace < 5 * 4 + 2 + muidlen + 1) return LogDataLimit; return 5 * 4 + 2 + muidlen - rawspace; } char * logfslogwrite(LogfsServer *server, int active, u32 path, u32 offset, int count, u32 mtime, u32 cvers, char *muid, uchar *data, u32 *flashaddr) { /* 'w' size[2] path[4] offset[4] count[2] mtime[4] cvers[4] muid[s] flashaddr[4] [data[n]] */ LogMessage s; uint size; char *errmsg; uchar *p; u32 faddr; uint asize; s.type = LogfsLogTwrite; s.path = path; s.u.write.offset = offset; s.u.write.count = count; s.u.write.mtime = mtime; s.u.write.cvers = cvers; s.u.write.muid = muid; s.u.write.data = data; size = logfssizeS2M(&s); errmsg = logspace(server, active, 0, size, &p, &faddr); if(errmsg) return errmsg; if(data) *flashaddr = (faddr + size - count) | LogAddr; s.u.write.flashaddr = *flashaddr; if(server->trace > 1) { print("%c<< ", active ? 'A' : 'S'); logfsdumpS(&s); print("\n"); } if((asize = logfsconvS2M(&s, p, size)) != size) { print("expected %d actual %d\n", size, asize); return "bad conversion"; } logdirty(server, active); return nil; }