/*- * Copyright (c) 1992, 1993, 1994 * The Regents of the University of California. All rights reserved. * Copyright (c) 1992, 1993, 1994, 1995, 1996 * Keith Bostic. All rights reserved. * * See the LICENSE file for redistribution information. */ #include "config.h" #include #include #include #include #include #include #include #include #include #include #include #include #include "common.h" /* * The log consists of records, each containing a type byte and a variable * length byte string, as follows: * * LOG_CURSOR_INIT MARK * LOG_CURSOR_END MARK * LOG_LINE_APPEND recno_t char * * LOG_LINE_DELETE recno_t char * * LOG_LINE_INSERT recno_t char * * LOG_LINE_RESET_F recno_t char * * LOG_LINE_RESET_B recno_t char * * LOG_MARK LMARK * * We do before image physical logging. This means that the editor layer * MAY NOT modify records in place, even if simply deleting or overwriting * characters. Since the smallest unit of logging is a line, we're using * up lots of space. This may eventually have to be reduced, probably by * doing logical logging, which is a much cooler database phrase. * * The implementation of the historic vi 'u' command, using roll-forward and * roll-back, is simple. Each set of changes has a LOG_CURSOR_INIT record, * followed by a number of other records, followed by a LOG_CURSOR_END record. * LOG_LINE_RESET records come in pairs. The first is a LOG_LINE_RESET_B * record, and is the line before the change. The second is LOG_LINE_RESET_F, * and is the line after the change. Roll-back is done by backing up to the * first LOG_CURSOR_INIT record before a change. Roll-forward is done in a * similar fashion. * * The 'U' command is implemented by rolling backward to a LOG_CURSOR_END * record for a line different from the current one. It should be noted that * this means that a subsequent 'u' command will make a change based on the * new position of the log's cursor. This is okay, and, in fact, historic vi * behaved that way. */ static int log_cursor1(SCR *, int); static void log_err(SCR *, char *, int); #if defined(DEBUG) && 0 static void log_trace(SCR *, char *, recno_t, u_char *); #endif static int apply_with(int (*)(SCR *, recno_t, CHAR_T *, size_t), SCR *, recno_t, u_char *, size_t); /* Try and restart the log on failure, i.e. if we run out of memory. */ #define LOG_ERR do { \ log_err(sp, __FILE__, __LINE__); \ return (1); \ } while (0) /* offset of CHAR_T string in log needs to be aligned on some systems * because it is passed to db_set as a string */ typedef struct { char data[sizeof(u_char) /* type */ + sizeof(recno_t)]; CHAR_T str[1]; } log_t; #define CHAR_T_OFFSET ((char *)(((log_t*)0)->str) - (char *)0) /* * log_init -- * Initialize the logging subsystem. * * PUBLIC: int log_init(SCR *, EXF *); */ int log_init(SCR *sp, EXF *ep) { /* * !!! * ep MAY NOT BE THE SAME AS sp->ep, DON'T USE THE LATTER. * * Initialize the buffer. The logging subsystem has its own * buffers because the global ones are almost by definition * going to be in use when the log runs. */ ep->l_lp = NULL; ep->l_len = 0; ep->l_cursor.lno = 1; /* XXX Any valid recno. */ ep->l_cursor.cno = 0; ep->l_high = ep->l_cur = 1; ep->log = dbopen(NULL, O_CREAT | O_NONBLOCK | O_RDWR, S_IRUSR | S_IWUSR, DB_RECNO, NULL); if (ep->log == NULL) { msgq(sp, M_SYSERR, "009|Log file"); F_SET(ep, F_NOLOG); return (1); } return (0); } /* * log_end -- * Close the logging subsystem. * * PUBLIC: int log_end(SCR *, EXF *); */ int log_end(SCR *sp, EXF *ep) { /* * !!! * ep MAY NOT BE THE SAME AS sp->ep, DON'T USE THE LATTER. */ if (ep->log != NULL) { (void)(ep->log->close)(ep->log); ep->log = NULL; } free(ep->l_lp); ep->l_lp = NULL; ep->l_len = 0; ep->l_cursor.lno = 1; /* XXX Any valid recno. */ ep->l_cursor.cno = 0; ep->l_high = ep->l_cur = 1; return (0); } /* * log_cursor -- * Log the current cursor position, starting an event. * * PUBLIC: int log_cursor(SCR *); */ int log_cursor(SCR *sp) { EXF *ep; ep = sp->ep; if (F_ISSET(ep, F_NOLOG)) return (0); /* * If any changes were made since the last cursor init, * put out the ending cursor record. */ if (ep->l_cursor.lno == OOBLNO) { ep->l_cursor.lno = sp->lno; ep->l_cursor.cno = sp->cno; return (log_cursor1(sp, LOG_CURSOR_END)); } ep->l_cursor.lno = sp->lno; ep->l_cursor.cno = sp->cno; return (0); } /* * log_cursor1 -- * Actually push a cursor record out. */ static int log_cursor1(SCR *sp, int type) { DBT data, key; EXF *ep; ep = sp->ep; BINC_RETC(sp, ep->l_lp, ep->l_len, sizeof(u_char) + sizeof(MARK)); ep->l_lp[0] = type; memmove(ep->l_lp + sizeof(u_char), &ep->l_cursor, sizeof(MARK)); key.data = &ep->l_cur; key.size = sizeof(recno_t); data.data = ep->l_lp; data.size = sizeof(u_char) + sizeof(MARK); if (ep->log->put(ep->log, &key, &data, 0) == -1) LOG_ERR; #if defined(DEBUG) && 0 TRACE(sp, "%lu: %s: %u/%u\n", ep->l_cur, type == LOG_CURSOR_INIT ? "log_cursor_init" : "log_cursor_end", sp->lno, sp->cno); #endif /* Reset high water mark. */ ep->l_high = ++ep->l_cur; return (0); } /* * log_line -- * Log a line change. * * PUBLIC: int log_line(SCR *, recno_t, u_int); */ int log_line(SCR *sp, recno_t lno, u_int action) { DBT data, key; EXF *ep; size_t len; CHAR_T *lp; recno_t lcur; ep = sp->ep; if (F_ISSET(ep, F_NOLOG)) return (0); /* * XXX * * Kluge for vi. Clear the EXF undo flag so that the * next 'u' command does a roll-back, regardless. */ F_CLR(ep, F_UNDO); /* Put out one initial cursor record per set of changes. */ if (ep->l_cursor.lno != OOBLNO) { if (log_cursor1(sp, LOG_CURSOR_INIT)) return (1); ep->l_cursor.lno = OOBLNO; } /* * Put out the changes. If it's a LOG_LINE_RESET_B call, it's a * special case, avoid the caches. Also, if it fails and it's * line 1, it just means that the user started with an empty file, * so fake an empty length line. */ if (action == LOG_LINE_RESET_B) { if (db_get(sp, lno, DBG_NOCACHE, &lp, &len)) { if (lno != 1) { db_err(sp, lno); return (1); } len = 0; lp = L(""); } } else if (db_get(sp, lno, DBG_FATAL, &lp, &len)) return (1); BINC_RETC(sp, ep->l_lp, ep->l_len, len * sizeof(CHAR_T) + CHAR_T_OFFSET); ep->l_lp[0] = action; memmove(ep->l_lp + sizeof(u_char), &lno, sizeof(recno_t)); memmove(ep->l_lp + CHAR_T_OFFSET, lp, len * sizeof(CHAR_T)); lcur = ep->l_cur; key.data = &lcur; key.size = sizeof(recno_t); data.data = ep->l_lp; data.size = len * sizeof(CHAR_T) + CHAR_T_OFFSET; if (ep->log->put(ep->log, &key, &data, 0) == -1) LOG_ERR; #if defined(DEBUG) && 0 switch (action) { case LOG_LINE_APPEND: TRACE(sp, "%lu: log_line: append: %lu {%u}\n", ep->l_cur, lno, len); break; case LOG_LINE_DELETE: TRACE(sp, "%lu: log_line: delete: %lu {%u}\n", ep->l_cur, lno, len); break; case LOG_LINE_INSERT: TRACE(sp, "%lu: log_line: insert: %lu {%u}\n", ep->l_cur, lno, len); break; case LOG_LINE_RESET_F: TRACE(sp, "%lu: log_line: reset_f: %lu {%u}\n", ep->l_cur, lno, len); break; case LOG_LINE_RESET_B: TRACE(sp, "%lu: log_line: reset_b: %lu {%u}\n", ep->l_cur, lno, len); break; } #endif /* Reset high water mark. */ ep->l_high = ++ep->l_cur; return (0); } /* * log_mark -- * Log a mark position. For the log to work, we assume that there * aren't any operations that just put out a log record -- this * would mean that undo operations would only reset marks, and not * cause any other change. * * PUBLIC: int log_mark(SCR *, LMARK *); */ int log_mark(SCR *sp, LMARK *lmp) { DBT data, key; EXF *ep; ep = sp->ep; if (F_ISSET(ep, F_NOLOG)) return (0); /* Put out one initial cursor record per set of changes. */ if (ep->l_cursor.lno != OOBLNO) { if (log_cursor1(sp, LOG_CURSOR_INIT)) return (1); ep->l_cursor.lno = OOBLNO; } BINC_RETC(sp, ep->l_lp, ep->l_len, sizeof(u_char) + sizeof(LMARK)); ep->l_lp[0] = LOG_MARK; memmove(ep->l_lp + sizeof(u_char), lmp, sizeof(LMARK)); key.data = &ep->l_cur; key.size = sizeof(recno_t); data.data = ep->l_lp; data.size = sizeof(u_char) + sizeof(LMARK); if (ep->log->put(ep->log, &key, &data, 0) == -1) LOG_ERR; #if defined(DEBUG) && 0 TRACE(sp, "%lu: mark %c: %lu/%u\n", ep->l_cur, lmp->name, lmp->lno, lmp->cno); #endif /* Reset high water mark. */ ep->l_high = ++ep->l_cur; return (0); } /* * Log_backward -- * Roll the log backward one operation. * * PUBLIC: int log_backward(SCR *, MARK *); */ int log_backward(SCR *sp, MARK *rp) { DBT key, data; EXF *ep; LMARK lm; MARK m; recno_t lno; int didop; u_char *p; ep = sp->ep; if (F_ISSET(ep, F_NOLOG)) { msgq(sp, M_ERR, "010|Logging not being performed, undo not possible"); return (1); } if (ep->l_cur == 1) { msgq(sp, M_BERR, "011|No changes to undo"); return (1); } F_SET(ep, F_NOLOG); /* Turn off logging. */ key.data = &ep->l_cur; /* Initialize db request. */ key.size = sizeof(recno_t); for (didop = 0;;) { --ep->l_cur; if (ep->log->get(ep->log, &key, &data, 0)) LOG_ERR; #if defined(DEBUG) && 0 log_trace(sp, "log_backward", ep->l_cur, data.data); #endif switch (*(p = (u_char *)data.data)) { case LOG_CURSOR_INIT: if (didop) { memmove(rp, p + sizeof(u_char), sizeof(MARK)); F_CLR(ep, F_NOLOG); return (0); } break; case LOG_CURSOR_END: break; case LOG_LINE_APPEND: case LOG_LINE_INSERT: didop = 1; memmove(&lno, p + sizeof(u_char), sizeof(recno_t)); if (db_delete(sp, lno)) goto err; ++sp->rptlines[L_DELETED]; break; case LOG_LINE_DELETE: didop = 1; memmove(&lno, p + sizeof(u_char), sizeof(recno_t)); if (apply_with(db_insert, sp, lno, p + CHAR_T_OFFSET, data.size - CHAR_T_OFFSET)) goto err; ++sp->rptlines[L_ADDED]; break; case LOG_LINE_RESET_F: break; case LOG_LINE_RESET_B: didop = 1; memmove(&lno, p + sizeof(u_char), sizeof(recno_t)); if (apply_with(db_set, sp, lno, p + CHAR_T_OFFSET, data.size - CHAR_T_OFFSET)) goto err; if (sp->rptlchange != lno) { sp->rptlchange = lno; ++sp->rptlines[L_CHANGED]; } break; case LOG_MARK: didop = 1; memmove(&lm, p + sizeof(u_char), sizeof(LMARK)); m.lno = lm.lno; m.cno = lm.cno; if (mark_set(sp, lm.name, &m, 0)) goto err; break; default: abort(); } } err: F_CLR(ep, F_NOLOG); return (1); } /* * Log_setline -- * Reset the line to its original appearance. * * XXX * There's a bug in this code due to our not logging cursor movements * unless a change was made. If you do a change, move off the line, * then move back on and do a 'U', the line will be restored to the way * it was before the original change. * * PUBLIC: int log_setline(SCR *); */ int log_setline(SCR *sp) { DBT key, data; EXF *ep; LMARK lm; MARK m; recno_t lno; u_char *p; ep = sp->ep; if (F_ISSET(ep, F_NOLOG)) { msgq(sp, M_ERR, "012|Logging not being performed, undo not possible"); return (1); } if (ep->l_cur == 1) return (1); F_SET(ep, F_NOLOG); /* Turn off logging. */ key.data = &ep->l_cur; /* Initialize db request. */ key.size = sizeof(recno_t); for (;;) { --ep->l_cur; if (ep->log->get(ep->log, &key, &data, 0)) LOG_ERR; #if defined(DEBUG) && 0 log_trace(sp, "log_setline", ep->l_cur, data.data); #endif switch (*(p = (u_char *)data.data)) { case LOG_CURSOR_INIT: memmove(&m, p + sizeof(u_char), sizeof(MARK)); if (m.lno != sp->lno || ep->l_cur == 1) { F_CLR(ep, F_NOLOG); return (0); } break; case LOG_CURSOR_END: memmove(&m, p + sizeof(u_char), sizeof(MARK)); if (m.lno != sp->lno) { ++ep->l_cur; F_CLR(ep, F_NOLOG); return (0); } break; case LOG_LINE_APPEND: case LOG_LINE_INSERT: case LOG_LINE_DELETE: case LOG_LINE_RESET_F: break; case LOG_LINE_RESET_B: memmove(&lno, p + sizeof(u_char), sizeof(recno_t)); if (lno == sp->lno && apply_with(db_set, sp, lno, p + CHAR_T_OFFSET, data.size - CHAR_T_OFFSET)) goto err; if (sp->rptlchange != lno) { sp->rptlchange = lno; ++sp->rptlines[L_CHANGED]; } case LOG_MARK: memmove(&lm, p + sizeof(u_char), sizeof(LMARK)); m.lno = lm.lno; m.cno = lm.cno; if (mark_set(sp, lm.name, &m, 0)) goto err; break; default: abort(); } } err: F_CLR(ep, F_NOLOG); return (1); } /* * Log_forward -- * Roll the log forward one operation. * * PUBLIC: int log_forward(SCR *, MARK *); */ int log_forward(SCR *sp, MARK *rp) { DBT key, data; EXF *ep; LMARK lm; MARK m; recno_t lno; int didop; u_char *p; ep = sp->ep; if (F_ISSET(ep, F_NOLOG)) { msgq(sp, M_ERR, "013|Logging not being performed, roll-forward not possible"); return (1); } if (ep->l_cur == ep->l_high) { msgq(sp, M_BERR, "014|No changes to re-do"); return (1); } F_SET(ep, F_NOLOG); /* Turn off logging. */ key.data = &ep->l_cur; /* Initialize db request. */ key.size = sizeof(recno_t); for (didop = 0;;) { ++ep->l_cur; if (ep->log->get(ep->log, &key, &data, 0)) LOG_ERR; #if defined(DEBUG) && 0 log_trace(sp, "log_forward", ep->l_cur, data.data); #endif switch (*(p = (u_char *)data.data)) { case LOG_CURSOR_END: if (didop) { ++ep->l_cur; memmove(rp, p + sizeof(u_char), sizeof(MARK)); F_CLR(ep, F_NOLOG); return (0); } break; case LOG_CURSOR_INIT: break; case LOG_LINE_APPEND: case LOG_LINE_INSERT: didop = 1; memmove(&lno, p + sizeof(u_char), sizeof(recno_t)); if (apply_with(db_insert, sp, lno, p + CHAR_T_OFFSET, data.size - CHAR_T_OFFSET)) goto err; ++sp->rptlines[L_ADDED]; break; case LOG_LINE_DELETE: didop = 1; memmove(&lno, p + sizeof(u_char), sizeof(recno_t)); if (db_delete(sp, lno)) goto err; ++sp->rptlines[L_DELETED]; break; case LOG_LINE_RESET_B: break; case LOG_LINE_RESET_F: didop = 1; memmove(&lno, p + sizeof(u_char), sizeof(recno_t)); if (apply_with(db_set, sp, lno, p + CHAR_T_OFFSET, data.size - CHAR_T_OFFSET)) goto err; if (sp->rptlchange != lno) { sp->rptlchange = lno; ++sp->rptlines[L_CHANGED]; } break; case LOG_MARK: didop = 1; memmove(&lm, p + sizeof(u_char), sizeof(LMARK)); m.lno = lm.lno; m.cno = lm.cno; if (mark_set(sp, lm.name, &m, 0)) goto err; break; default: abort(); } } err: F_CLR(ep, F_NOLOG); return (1); } /* * log_err -- * Try and restart the log on failure, i.e. if we run out of memory. */ static void log_err(SCR *sp, char *file, int line) { EXF *ep; msgq(sp, M_SYSERR, "015|%s/%d: log put error", basename(file), line); ep = sp->ep; (void)ep->log->close(ep->log); if (!log_init(sp, ep)) msgq(sp, M_ERR, "267|Log restarted"); } #if defined(DEBUG) && 0 static void log_trace(SCR *sp, char *msg, recno_t rno, u_char *p) { LMARK lm; MARK m; recno_t lno; switch (*p) { case LOG_CURSOR_INIT: memmove(&m, p + sizeof(u_char), sizeof(MARK)); TRACE(sp, "%lu: %s: C_INIT: %u/%u\n", rno, msg, m.lno, m.cno); break; case LOG_CURSOR_END: memmove(&m, p + sizeof(u_char), sizeof(MARK)); TRACE(sp, "%lu: %s: C_END: %u/%u\n", rno, msg, m.lno, m.cno); break; case LOG_LINE_APPEND: memmove(&lno, p + sizeof(u_char), sizeof(recno_t)); TRACE(sp, "%lu: %s: APPEND: %lu\n", rno, msg, lno); break; case LOG_LINE_INSERT: memmove(&lno, p + sizeof(u_char), sizeof(recno_t)); TRACE(sp, "%lu: %s: INSERT: %lu\n", rno, msg, lno); break; case LOG_LINE_DELETE: memmove(&lno, p + sizeof(u_char), sizeof(recno_t)); TRACE(sp, "%lu: %s: DELETE: %lu\n", rno, msg, lno); break; case LOG_LINE_RESET_F: memmove(&lno, p + sizeof(u_char), sizeof(recno_t)); TRACE(sp, "%lu: %s: RESET_F: %lu\n", rno, msg, lno); break; case LOG_LINE_RESET_B: memmove(&lno, p + sizeof(u_char), sizeof(recno_t)); TRACE(sp, "%lu: %s: RESET_B: %lu\n", rno, msg, lno); break; case LOG_MARK: memmove(&lm, p + sizeof(u_char), sizeof(LMARK)); TRACE(sp, "%lu: %s: MARK: %u/%u\n", rno, msg, lm.lno, lm.cno); break; default: abort(); } } #endif /* * apply_with -- * Apply a realigned line from the log db to the file db. */ static int apply_with(int (*db_func)(SCR *, recno_t, CHAR_T *, size_t), SCR *sp, recno_t lno, u_char *p, size_t len) { #ifdef USE_WIDECHAR static size_t blen; static u_char *bp; if (!is_aligned(p, sizeof(unsigned long))) { if (len > blen) { blen = p2roundup(MAX(len, 512)); REALLOC(sp, bp, u_char *, blen); if (bp == NULL) return (1); } memmove(bp, p, len); p = bp; } #endif return db_func(sp, lno, (CHAR_T *)p, len / sizeof(CHAR_T)); }