/* * db_gdbm.c - bindings for gdbm * * This file is part of zsh, the Z shell. * * Copyright (c) 2008 Clint Adams * All rights reserved. * * Modifications copyright (c) 2017 Sebastian Gniazdowski * All rights reserved. * * Permission is hereby granted, without written agreement and without * license or royalty fees, to use, copy, modify, and distribute this * software and to distribute modified versions of this software for any * purpose, provided that the above copyright notice and the following * two paragraphs appear in all copies of this software. * * In no event shall Clint Adams or the Zsh Development * Group be liable to any party for direct, indirect, special, incidental, or * consequential damages arising out of the use of this software and its * documentation, even if Peter Stephenson, Sven Wischnowsky and the Zsh * Development Group have been advised of the possibility of such damage. * * Clint Adams and the Zsh Development Group * specifically disclaim any warranties, including, but not limited to, the * implied warranties of merchantability and fitness for a particular purpose. * The software provided hereunder is on an "as is" basis, and Peter * Stephenson, Sven Wischnowsky and the Zsh Development Group have no * obligation to provide maintenance, support, updates, enhancements, or * modifications. * */ #include "db_gdbm.mdh" #include "db_gdbm.pro" #ifndef PM_UPTODATE #define PM_UPTODATE (1<<19) /* Parameter has up-to-date data (e.g. loaded from DB) */ #endif static Param createhash( char *name, int flags ); static int append_tied_name( const char *name ); static int remove_tied_name( const char *name ); static char *unmetafy_zalloc(const char *to_copy, int *new_len); static void myfreeparamnode(HashNode hn); static int no_database_action = 0; /* * Make sure we have all the bits I'm using for memory mapping, otherwise * I don't know what I'm doing. */ #if defined(HAVE_GDBM_H) && defined(HAVE_GDBM_OPEN) #include static char *backtype = "db/gdbm"; /* * Longer GSU structure, to carry GDBM_FILE of owning * database. Every parameter (hash value) receives GSU * pointer and thus also receives GDBM_FILE - this way * parameters can access proper database. * * Main HashTable parameter has the same instance of * the custom GSU struct in u.hash->tmpdata field. * When database is closed, `dbf` field is set to NULL * and hash values know to not access database when * being unset (total purge at zuntie). * * When database closing is ended, custom GSU struct * is freed. Only new ztie creates new custom GSU * struct instance. */ struct gsu_scalar_ext { struct gsu_scalar std; /* Size of three pointers */ GDBM_FILE dbf; char *dbfile_path; }; /* Source structure - will be copied to allocated one, * with `dbf` filled. `dbf` allocation <-> gsu allocation. */ static const struct gsu_scalar_ext gdbm_gsu_ext = { { gdbmgetfn, gdbmsetfn, gdbmunsetfn }, 0, 0 }; /**/ static const struct gsu_hash gdbm_hash_gsu = { hashgetfn, gdbmhashsetfn, gdbmhashunsetfn }; static struct builtin bintab[] = { BUILTIN("ztie", 0, bin_ztie, 1, -1, 0, "d:f:r", NULL), BUILTIN("zuntie", 0, bin_zuntie, 1, -1, 0, "u", NULL), BUILTIN("zgdbmpath", 0, bin_zgdbmpath, 1, -1, 0, "", NULL), }; #define ROARRPARAMDEF(name, var) \ { name, PM_ARRAY | PM_READONLY, (void *) var, NULL, NULL, NULL, NULL } /* Holds names of all tied parameters */ static char **zgdbm_tied; static struct paramdef patab[] = { ROARRPARAMDEF( "zgdbm_tied", &zgdbm_tied ), }; /**/ static int bin_ztie(char *nam, char **args, Options ops, UNUSED(int func)) { struct gsu_scalar_ext *dbf_carrier; char *resource_name, *pmname; GDBM_FILE dbf = NULL; int read_write = GDBM_SYNC, pmflags = PM_REMOVABLE; Param tied_param; if(!OPT_ISSET(ops,'d')) { zwarnnam(nam, "you must pass `-d %s'", backtype); return 1; } if(!OPT_ISSET(ops,'f')) { zwarnnam(nam, "you must pass `-f' with a filename", NULL); return 1; } if (OPT_ISSET(ops,'r')) { read_write |= GDBM_READER; pmflags |= PM_READONLY; } else { read_write |= GDBM_WRCREAT; } /* Here should be a lookup of the backend type against * a registry, if generam DB mechanism is to be added */ if (strcmp(OPT_ARG(ops, 'd'), backtype) != 0) { zwarnnam(nam, "unsupported backend type `%s'", OPT_ARG(ops, 'd')); return 1; } resource_name = OPT_ARG(ops, 'f'); pmname = *args; if ((tied_param = (Param)paramtab->getnode(paramtab, pmname)) && !(tied_param->node.flags & PM_UNSET)) { /* * Unset any existing parameter. Note there's no implicit * "local" here, but if the existing parameter is local * then new parameter will be also local without following * unset. * * We need to do this before attempting to open the DB * in case this variable is already tied to a DB. * * This can fail if the variable is readonly or restricted. * We could call unsetparam() and check errflag instead * of the return status. */ if (unsetparam_pm(tied_param, 0, 1)) return 1; } gdbm_errno=0; dbf = gdbm_open(resource_name, 0, read_write, 0666, 0); if(dbf == NULL) { zwarnnam(nam, "error opening database file %s (%s)", resource_name, gdbm_strerror(gdbm_errno)); return 1; } if (!(tied_param = createhash(pmname, pmflags))) { zwarnnam(nam, "cannot create the requested parameter %s", pmname); gdbm_close(dbf); return 1; } tied_param->gsu.h = &gdbm_hash_gsu; /* Allocate parameter sub-gsu, fill dbf field. * dbf allocation is 1 to 1 accompanied by * gsu_scalar_ext allocation. */ dbf_carrier = (struct gsu_scalar_ext *) zalloc(sizeof(struct gsu_scalar_ext)); dbf_carrier->std = gdbm_gsu_ext.std; dbf_carrier->dbf = dbf; tied_param->u.hash->tmpdata = (void *)dbf_carrier; /* Fill also file path field */ if (*resource_name != '/') { /* Code copied from check_autoload() */ resource_name = zhtricat(metafy(zgetcwd(), -1, META_HEAPDUP), "/", resource_name); resource_name = xsymlink(resource_name, 1); } dbf_carrier->dbfile_path = ztrdup(resource_name); addmodulefd(gdbm_fdesc(dbf), FDT_INTERNAL); append_tied_name(pmname); return 0; } /**/ static int bin_zuntie(char *nam, char **args, Options ops, UNUSED(int func)) { Param pm; char *pmname; int ret = 0; for (pmname = *args; *args++; pmname = *args) { pm = (Param) paramtab->getnode(paramtab, pmname); if(!pm) { zwarnnam(nam, "cannot untie %s", pmname); ret = 1; continue; } if (pm->gsu.h != &gdbm_hash_gsu) { zwarnnam(nam, "not a tied gdbm hash: %s", pmname); ret = 1; continue; } queue_signals(); if (OPT_ISSET(ops,'u')) { pm->node.flags &= ~PM_READONLY; } if (unsetparam_pm(pm, 0, 1)) { /* assume already reported */ ret = 1; } unqueue_signals(); } return ret; } /**/ static int bin_zgdbmpath(char *nam, char **args, UNUSED(Options ops), UNUSED(int func)) { Param pm; char *pmname; pmname = *args; if (!pmname) { zwarnnam(nam, "parameter name (whose path is to be written to $REPLY) is required"); return 1; } pm = (Param) paramtab->getnode(paramtab, pmname); if(!pm) { zwarnnam(nam, "no such parameter: %s", pmname); return 1; } if (pm->gsu.h != &gdbm_hash_gsu) { zwarnnam(nam, "not a tied gdbm parameter: %s", pmname); return 1; } /* Paranoia, it *will* be always set */ if (((struct gsu_scalar_ext *)pm->u.hash->tmpdata)->dbfile_path) { setsparam("REPLY", ztrdup(((struct gsu_scalar_ext *)pm->u.hash->tmpdata)->dbfile_path)); } else { setsparam("REPLY", ztrdup("")); } return 0; } /* * The param is actual param in hash – always, because * getgdbmnode creates every new key seen. However, it * might be not PM_UPTODATE - which means that database * wasn't yet queried. * * It will be left in this state if database doesn't * contain such key. That might be a drawback, maybe * setting to empty value has sense. */ /**/ static char * gdbmgetfn(Param pm) { datum key, content; int ret, umlen; char *umkey; GDBM_FILE dbf; /* Key already retrieved? There is no sense of asking the * database again, because: * - there can be only multiple readers * - so, no writer + reader use is allowed * * Thus: * - if we are writers, we for sure have newest copy of data * - if we are readers, we for sure have newest copy of data */ if ( pm->node.flags & PM_UPTODATE ) { return pm->u.str ? pm->u.str : ""; } /* Unmetafy key. GDBM fits nice into this * process, as it uses length of data */ umlen = 0; umkey = unmetafy_zalloc(pm->node.nam,¨en); key.dptr = umkey; key.dsize = umlen; dbf = ((struct gsu_scalar_ext *)pm->gsu.s)->dbf; if((ret = gdbm_exists(dbf, key))) { /* We have data – store it, return it */ pm->node.flags |= PM_UPTODATE; content = gdbm_fetch(dbf, key); /* Ensure there's no leak */ if (pm->u.str) { zsfree(pm->u.str); pm->u.str = NULL; } /* Metafy returned data. All fits - metafy * can obtain data length to avoid using \0 */ pm->u.str = metafy(content.dptr, content.dsize, META_DUP); /* gdbm allocates with malloc */ free(content.dptr); /* Free key */ zfree(umkey, umlen+1); /* Can return pointer, correctly saved inside hash */ return pm->u.str; } else { pm->node.flags |= PM_DEFAULTED; } /* Free key */ zfree(umkey, umlen+1); return ""; } /**/ static void gdbmsetfn(Param pm, char *val) { datum key, content; GDBM_FILE dbf; /* Set is done on parameter and on database. * See the allowed workers / readers comment * at gdbmgetfn() */ /* Parameter */ if (pm->u.str) { zsfree(pm->u.str); pm->u.str = NULL; pm->node.flags &= ~(PM_UPTODATE); } if (val) { pm->u.str = val; pm->node.flags |= PM_UPTODATE; } /* Database */ dbf = ((struct gsu_scalar_ext *)pm->gsu.s)->dbf; if (dbf && no_database_action == 0) { int umlen = 0; char *umkey = unmetafy_zalloc(pm->node.nam,¨en); key.dptr = umkey; key.dsize = umlen; if (val) { /* Unmetafy with exact zalloc size */ char *umval = unmetafy_zalloc(val,¨en); /* Store */ content.dptr = umval; content.dsize = umlen; (void)gdbm_store(dbf, key, content, GDBM_REPLACE); /* Free */ zfree(umval, umlen+1); } else { (void)gdbm_delete(dbf, key); } /* Free key */ zfree(umkey, key.dsize+1); } } /**/ static void gdbmunsetfn(Param pm, UNUSED(int um)) { /* Set with NULL */ gdbmsetfn(pm, NULL); } /**/ static HashNode getgdbmnode(HashTable ht, const char *name) { HashNode hn = gethashnode2( ht, name ); Param val_pm = (Param) hn; /* Entry for key doesn't exist? Create it now, * it will be interfacing between the database * and Zsh - through special gdbm_gsu. So, any * seen key results in new interfacing parameter. * * Previous code was returning heap arena Param * that wasn't actually added to the hash. It was * plainly name / database-key holder. Here we * add the Param to its hash, it is not PM_UPTODATE. * It will be loaded from database *and filled* * or left in that state if the database doesn't * contain it. * * No heap arena memory is used, memory usage is * now limited - by number of distinct keys seen, * not by number of key *uses*. * */ if ( ! val_pm ) { val_pm = (Param) zshcalloc( sizeof (*val_pm) ); val_pm->node.flags = PM_SCALAR | PM_HASHELEM; /* no PM_UPTODATE */ val_pm->gsu.s = (GsuScalar) ht->tmpdata; ht->addnode( ht, ztrdup( name ), val_pm ); /* sets pm->node.nam */ } return (HashNode) val_pm; } /**/ static void scangdbmkeys(HashTable ht, ScanFunc func, int flags) { datum key, prev_key; GDBM_FILE dbf = ((struct gsu_scalar_ext *)ht->tmpdata)->dbf; /* Iterate keys adding them to hash, so * we have Param to use in `func` */ key = gdbm_firstkey(dbf); while(key.dptr) { /* This returns database-interfacing Param, * it will return u.str or first fetch data * if not PM_UPTODATE (newly created) */ char *zkey = metafy(key.dptr, key.dsize, META_DUP); HashNode hn = getgdbmnode(ht, zkey); zsfree( zkey ); func(hn, flags); /* Iterate - no problem as interfacing Param * will do at most only fetches, not stores */ prev_key = key; key = gdbm_nextkey(dbf, key); free(prev_key.dptr); } } /* * Replace database with new hash */ /**/ static void gdbmhashsetfn(Param pm, HashTable ht) { int i; HashNode hn; GDBM_FILE dbf; datum key, content; if (!pm->u.hash || pm->u.hash == ht) return; if (!(dbf = ((struct gsu_scalar_ext *)pm->u.hash->tmpdata)->dbf)) return; key = gdbm_firstkey(dbf); while (key.dptr) { queue_signals(); (void)gdbm_delete(dbf, key); free(key.dptr); unqueue_signals(); key = gdbm_firstkey(dbf); } /* Just deleted everything, clean up if no new data. * User can also reorganize via gdbmtool. */ if (!ht || ht->hsize == 0) { (void)gdbm_reorganize(dbf); } no_database_action = 1; emptyhashtable(pm->u.hash); no_database_action = 0; if (!ht) return; /* Put new strings into database, waiting * for their interfacing-Params to be created */ for (i = 0; i < ht->hsize; i++) { for (hn = ht->nodes[i]; hn; hn = hn->next) { struct value v; int umlen = 0; char *umkey, *umval; v.isarr = v.flags = v.start = 0; v.end = -1; v.arr = NULL; v.pm = (Param) hn; /* Unmetafy key */ umkey = unmetafy_zalloc(v.pm->node.nam,¨en); key.dptr = umkey; key.dsize = umlen; queue_signals(); /* Unmetafy */ umval = unmetafy_zalloc(getstrvalue(&v),¨en); /* Store */ content.dptr = umval; content.dsize = umlen; (void)gdbm_store(dbf, key, content, GDBM_REPLACE); /* Free - unmetafy_zalloc allocates * exact required space + 1 null byte */ zfree(umval, content.dsize+1); zfree(umkey, key.dsize+1); unqueue_signals(); } } /* We reuse our hash, the input is to be deleted */ deleteparamtable(ht); } /**/ static void gdbmuntie(Param pm) { GDBM_FILE dbf = ((struct gsu_scalar_ext *)pm->u.hash->tmpdata)->dbf; HashTable ht = pm->u.hash; if (dbf) { /* paranoia */ fdtable[gdbm_fdesc(dbf)] = FDT_UNUSED; gdbm_close(dbf); /* Let hash fields know there's no backend */ ((struct gsu_scalar_ext *)ht->tmpdata)->dbf = NULL; /* Remove from list of tied parameters */ remove_tied_name(pm->node.nam); } /* for completeness ... createspecialhash() should have an inverse */ ht->getnode = ht->getnode2 = gethashnode2; ht->scantab = NULL; pm->node.flags &= ~(PM_SPECIAL|PM_READONLY); pm->gsu.h = &stdhash_gsu; } /**/ static void gdbmhashunsetfn(Param pm, UNUSED(int exp)) { struct gsu_scalar_ext * gsu_ext; gdbmuntie(pm); /* Remember custom GSU structure assigned to * u.hash->tmpdata before hash gets deleted */ gsu_ext = pm->u.hash->tmpdata; /* Uses normal unsetter (because gdbmuntie is called above). * Will delete all owned field-parameters and also hashtable. */ pm->gsu.h->setfn(pm, NULL); /* Don't need custom GSU structure with its * GDBM_FILE pointer anymore */ zsfree( gsu_ext->dbfile_path ); zfree( gsu_ext, sizeof(struct gsu_scalar_ext)); pm->node.flags |= PM_UNSET; } static struct features module_features = { bintab, sizeof(bintab)/sizeof(*bintab), NULL, 0, NULL, 0, patab, sizeof(patab)/sizeof(*patab), 0 }; /**/ int setup_(UNUSED(Module m)) { return 0; } /**/ int features_(Module m, char ***features) { *features = featuresarray(m, &module_features); return 0; } /**/ int enables_(Module m, int **enables) { return handlefeatures(m, &module_features, enables); } /**/ int boot_(UNUSED(Module m)) { zgdbm_tied = zshcalloc((1) * sizeof(char *)); return 0; } /**/ int cleanup_(Module m) { /* This frees `zgdbm_tied` */ return setfeatureenables(m, &module_features, NULL); } /**/ int finish_(UNUSED(Module m)) { return 0; } /********************* * Utility functions * *********************/ static Param createhash( char *name, int flags ) { Param pm; HashTable ht; pm = createparam(name, flags | PM_SPECIAL | PM_HASHED); if (!pm) { return NULL; } if (pm->old) pm->level = locallevel; /* This creates standard hash. */ ht = pm->u.hash = newparamtable(17, name); if (!pm->u.hash) { paramtab->removenode(paramtab, name); paramtab->freenode(&pm->node); zwarnnam(name, "out of memory when allocating hash"); return NULL; } /* Does free Param (unsetfn is called) */ ht->freenode = myfreeparamnode; /* These provide special features */ ht->getnode = ht->getnode2 = getgdbmnode; ht->scantab = scangdbmkeys; return pm; } /* * Adds parameter name to `zgdbm_tied` */ static int append_tied_name( const char *name ) { int old_len = arrlen(zgdbm_tied); char **new_zgdbm_tied = zshcalloc( (old_len+2) * sizeof(char *)); /* Copy */ char **p = zgdbm_tied; char **dst = new_zgdbm_tied; while (*p) { *dst++ = *p++; } /* Append new one */ *dst = ztrdup(name); /* Substitute, free old one */ zfree(zgdbm_tied, sizeof(char *) * (old_len + 1)); zgdbm_tied = new_zgdbm_tied; return 0; } /* * Removes parameter name from `zgdbm_tied` */ static int remove_tied_name( const char *name ) { int old_len = arrlen(zgdbm_tied); int new_len; /* Two stage, to always have arrlen() == zfree-size - 1. * Could do allocation and revert when `not found`, but * what would be better about that. */ /* Find one to remove */ char **p = zgdbm_tied; while (*p) { if (0==strcmp(name,*p)) { break; } p++; } if (*p) zsfree(*p); /* Copy x+1 to x */ while (*p) { *p=*(p+1); p++; } /* Second stage. Size changed? Only old_size-1 * change is possible, but.. paranoia way */ new_len = arrlen(zgdbm_tied); if (new_len != old_len) { char **dst; char **new_zgdbm_tied = zshcalloc((new_len+1) * sizeof(char *)); /* Copy */ p = zgdbm_tied; dst = new_zgdbm_tied; while (*p) { *dst++ = *p++; } *dst = NULL; /* Substitute, free old one */ zfree(zgdbm_tied, sizeof(char *) * (old_len + 1)); zgdbm_tied = new_zgdbm_tied; } return 0; } /* * Unmetafy that: * - duplicates buffer to work on it, * - does zalloc of exact size for the new string, * - restores work buffer to original content, to restore strlen */ static char * unmetafy_zalloc(const char *to_copy, int *new_len) { char *work, *to_return; int my_new_len = 0; work = ztrdup(to_copy); work = unmetafy(work,&my_new_len); if (new_len) *new_len = my_new_len; /* This string can be correctly zsfree()-d */ to_return = (char *) zalloc((my_new_len+1)*sizeof(char)); memcpy(to_return, work, sizeof(char)*my_new_len); /* memcpy handles $'\0' */ to_return[my_new_len]='\0'; /* Restore original strlen and correctly free */ strcpy(work, to_copy); zsfree(work); return to_return; } static void myfreeparamnode(HashNode hn) { Param pm = (Param) hn; /* Upstream: The second argument of unsetfn() is used by modules to * differentiate "exp"licit unset from implicit unset, as when * a parameter is going out of scope. It's not clear which * of these applies here, but passing 1 has always worked. */ /* if (delunset) */ pm->gsu.s->unsetfn(pm, 1); zsfree(pm->node.nam); /* If this variable was tied by the user, ename was ztrdup'd */ if (!(pm->node.flags & PM_SPECIAL) && pm->ename) { zsfree(pm->ename); pm->ename = NULL; } zfree(pm, sizeof(struct param)); } #else # error no gdbm #endif /* have gdbm */