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view src/log.c @ 228:e2520f609094
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author | menikon <e165723@ie.u-ryukyu.ac.jp> |
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date | Fri, 24 Jan 2020 21:19:48 +0900 |
parents | 83c23a36980d |
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#include "types.h" #include "defs.h" #include "param.h" #include "spinlock.h" #include "fs.h" #include "buf.h" // Simple logging. Each system call that might write the file system // should be surrounded with begin_trans() and commit_trans() calls. // // The log holds at most one transaction at a time. Commit forces // the log (with commit record) to disk, then installs the affected // blocks to disk, then erases the log. begin_trans() ensures that // only one system call can be in a transaction; others must wait. // // Allowing only one transaction at a time means that the file // system code doesn't have to worry about the possibility of // one transaction reading a block that another one has modified, // for example an i-node block. // // Read-only system calls don't need to use transactions, though // this means that they may observe uncommitted data. I-node and // buffer locks prevent read-only calls from seeing inconsistent data. // // The log is a physical re-do log containing disk blocks. // The on-disk log format: // header block, containing sector #s for block A, B, C, ... // block A // block B // block C // ... // Log appends are synchronous. // Contents of the header block, used for both the on-disk header block // and to keep track in memory of logged sector #s before commit. struct logheader { int n; int sector[LOGSIZE]; }; struct log { struct spinlock lock; int start; int size; int busy; // a transaction is active int dev; struct logheader lh; }; struct log log; static void recover_from_log(void); void initlog(void) { struct superblock sb; if (sizeof(struct logheader) >= BSIZE) { panic("initlog: too big logheader"); } initlock(&log.lock, "log"); readsb(ROOTDEV, &sb); log.start = sb.size - sb.nlog; log.size = sb.nlog; log.dev = ROOTDEV; recover_from_log(); } // Copy committed blocks from log to their home location static void install_trans(void) { int tail; struct buf *lbuf; struct buf *dbuf; for (tail = 0; tail < log.lh.n; tail++) { lbuf = bread(log.dev, log.start+tail+1); // read log block dbuf = bread(log.dev, log.lh.sector[tail]); // read dst memmove(dbuf->data, lbuf->data, BSIZE); // copy block to dst bwrite(dbuf); // write dst to disk brelse(lbuf); brelse(dbuf); } } // Read the log header from disk into the in-memory log header static void read_head(void) { struct buf *buf; struct logheader *lh; int i; buf = bread(log.dev, log.start); lh = (struct logheader *) (buf->data); log.lh.n = lh->n; for (i = 0; i < log.lh.n; i++) { log.lh.sector[i] = lh->sector[i]; } brelse(buf); } // Write in-memory log header to disk. // This is the true point at which the // current transaction commits. static void write_head(void) { struct buf *buf; struct logheader *hb; int i; buf = bread(log.dev, log.start); hb = (struct logheader *) (buf->data); hb->n = log.lh.n; for (i = 0; i < log.lh.n; i++) { hb->sector[i] = log.lh.sector[i]; } bwrite(buf); brelse(buf); } static void recover_from_log(void) { read_head(); install_trans(); // if committed, copy from log to disk log.lh.n = 0; write_head(); // clear the log } void begin_trans(void) { acquire(&log.lock); while (log.busy) { sleep(&log, &log.lock); } log.busy = 1; release(&log.lock); } void commit_trans(void) { if (log.lh.n > 0) { write_head(); // Write header to disk -- the real commit install_trans(); // Now install writes to home locations log.lh.n = 0; write_head(); // Erase the transaction from the log } acquire(&log.lock); log.busy = 0; wakeup(&log); release(&log.lock); } // Caller has modified b->data and is done with the buffer. // Append the block to the log and record the block number, // but don't write the log header (which would commit the write). // log_write() replaces bwrite(); a typical use is: // bp = bread(...) // modify bp->data[] // log_write(bp) // brelse(bp) void log_write(struct buf *b) { struct buf *lbuf; int i; if (log.lh.n >= LOGSIZE || log.lh.n >= log.size - 1) { panic("too big a transaction"); } if (!log.busy) { panic("write outside of trans"); } for (i = 0; i < log.lh.n; i++) { if (log.lh.sector[i] == b->sector) { // log absorbtion? break; } } log.lh.sector[i] = b->sector; lbuf = bread(b->dev, log.start+i+1); memmove(lbuf->data, b->data, BSIZE); bwrite(lbuf); brelse(lbuf); if (i == log.lh.n) { log.lh.n++; } b->flags |= B_DIRTY; // XXX prevent eviction } //PAGEBREAK! // Blank page.