/* * Copyright (C) 2001 Sistina Software (UK) Limited. * * This file is released under the LGPL. * */ #include #include "vgcache.h" #include "hash.h" #include "dbg_malloc.h" #include "log.h" static struct hash_table *_vghash; static struct hash_table *_pvhash; const char *all_devices = "\0"; int vgcache_init() { if (!(_vghash = hash_create(128))) return 0; if (!(_pvhash = hash_create(128))) return 0; return 1; } /* A vg_name of NULL returns all_devices */ struct list *vgcache_find(const char *vg_name) { struct vgname_entry *vgn; if (!_vghash) return NULL; if (!vg_name) vg_name = all_devices; if (!(vgn = hash_lookup(_vghash, vg_name))) return NULL; return &vgn->pvdevs; } void vgcache_del_orphan(struct device *dev) { struct pvdev_list *pvdev; if (_pvhash && ((pvdev = hash_lookup(_pvhash, dev_name(dev))))) { list_del(&pvdev->list); hash_remove(_pvhash, dev_name(pvdev->dev)); dbg_free(pvdev); } } int vgcache_add_entry(const char *vg_name, struct device *dev) { const char *pv_name; struct vgname_entry *vgn; struct pvdev_list *pvdev; struct list *pvdh, *pvdevs; if (!(pvdevs = vgcache_find(vg_name))) { if (!(vgn = dbg_malloc(sizeof(struct vgname_entry)))) { log_error("struct vgname_entry allocation failed"); return 0; } pvdevs = &vgn->pvdevs; list_init(pvdevs); if (!(vgn->vgname = dbg_strdup(vg_name))) { log_error("vgcache_add: strdup vg_name failed"); return 0; } if (!hash_insert(_vghash, vg_name, vgn)) { log_error("vgcache_add: VG hash insertion failed"); return 0; } } list_iterate(pvdh, pvdevs) { pvdev = list_item(pvdh, struct pvdev_list); if (dev == pvdev->dev) return 1; } /* Remove PV from any existing VG unless an all_devices request */ pvdev = NULL; pv_name = dev_name(dev); if (*vg_name && _pvhash && ((pvdev = hash_lookup(_pvhash, pv_name)))) { list_del(&pvdev->list); hash_remove(_pvhash, dev_name(pvdev->dev)); } /* Allocate new pvdev_list if there isn't an existing one to reuse */ if (!pvdev && !(pvdev = dbg_malloc(sizeof(struct pvdev_list)))) { log_error("struct pvdev_list allocation failed"); return 0; } pvdev->dev = dev; list_add(pvdevs, &pvdev->list); if (*vg_name && _pvhash && !hash_insert(_pvhash, pv_name, pvdev)) { log_error("vgcache_add: PV hash insertion for %s " "failed", pv_name); return 0; } return 1; } /* vg_name of "\0" is an orphan PV; NULL means only add to all_devices */ int vgcache_add(const char *vg_name, struct device *dev) { if (!_vghash && !vgcache_init()) return 0; /* If orphan PV remove it */ if (vg_name && !*vg_name) vgcache_del_orphan(dev); /* Add PV if vg_name supplied */ if (vg_name && *vg_name && !vgcache_add_entry(vg_name, dev)) return 0; /* Always add to all_devices */ return vgcache_add_entry(all_devices, dev); } void vgcache_destroy_entry(struct vgname_entry *vgn) { struct list *pvdh; struct pvdev_list *pvdev; if (vgn) { pvdh = vgn->pvdevs.n; while (pvdh != &vgn->pvdevs) { pvdev = list_item(pvdh, struct pvdev_list); pvdh = pvdh->n; dbg_free(pvdev); } dbg_free(vgn->vgname); } dbg_free(vgn); } void vgcache_del(const char *vg_name) { struct vgname_entry *vgn; if (!_vghash) return; if (!vg_name) vg_name = all_devices; if (!(vgn = hash_lookup(_vghash, vg_name))) return; hash_remove(_vghash, vg_name); vgcache_destroy_entry(vgn); } void vgcache_destroy() { if (_vghash) { hash_iterate(_vghash, (iterate_fn)vgcache_destroy_entry); hash_destroy(_vghash); _vghash = NULL; } if (_pvhash) { hash_destroy(_pvhash); _pvhash = NULL; } }