/* $NetBSD: sysctlgetmibinfo.c,v 1.6 2008/04/29 06:53:01 martin Exp $ */ /*- * Copyright (c) 2003,2004 The NetBSD Foundation, Inc. * All rights reserved. * * This code is derived from software contributed to The NetBSD Foundation * by Andrew Brown. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * * THIS SOFTWARE IS PROVIDED BY THE NETBSD FOUNDATION, INC. AND CONTRIBUTORS * ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED * TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR * PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE FOUNDATION OR CONTRIBUTORS * BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE * POSSIBILITY OF SUCH DAMAGE. */ #include #if defined(LIBC_SCCS) && !defined(lint) __RCSID("$NetBSD: sysctlgetmibinfo.c,v 1.6 2008/04/29 06:53:01 martin Exp $"); #endif /* LIBC_SCCS and not lint */ #include "namespace.h" #ifdef _REENTRANT #include "reentrant.h" #endif /* _REENTRANT */ #include #include #include #include #include #include #ifdef __weak_alias __weak_alias(__learn_tree,___learn_tree) __weak_alias(sysctlgetmibinfo,_sysctlgetmibinfo) #endif /* * the place where we attach stuff we learn on the fly, not * necessarily used. */ static struct sysctlnode sysctl_mibroot = { #if defined(lint) /* * lint doesn't like my initializers */ 0 #else /* !lint */ .sysctl_flags = SYSCTL_VERSION|CTLFLAG_ROOT|CTLTYPE_NODE, sysc_init_field(_sysctl_size, sizeof(struct sysctlnode)), .sysctl_name = "(root)", #endif /* !lint */ }; /* * routines to handle learning and cleanup */ static int compar(const void *, const void *); static void free_children(struct sysctlnode *); static void relearnhead(void); /* * specifically not static since sysctl(8) "borrows" it. */ int __learn_tree(int *, u_int, struct sysctlnode *); /* * for ordering nodes -- a query may or may not be given them in * numeric order */ static int compar(const void *a, const void *b) { return (((const struct sysctlnode *)a)->sysctl_num - ((const struct sysctlnode *)b)->sysctl_num); } /* * recursively nukes a branch or an entire tree from the given node */ static void free_children(struct sysctlnode *rnode) { struct sysctlnode *node; if (rnode == NULL || SYSCTL_TYPE(rnode->sysctl_flags) != CTLTYPE_NODE || rnode->sysctl_child == NULL) return; for (node = rnode->sysctl_child; node < &rnode->sysctl_child[rnode->sysctl_clen]; node++) { free_children(node); } free(rnode->sysctl_child); rnode->sysctl_child = NULL; } /* * verifies that the head of the tree in the kernel is the same as the * head of the tree we already got, integrating new stuff and removing * old stuff, if it's not. */ static void relearnhead(void) { struct sysctlnode *h, *i, *o, qnode; size_t si, so; int rc, name, nlen, olen, ni, oi, t; /* * if there's nothing there, there's no need to expend any * effort */ if (sysctl_mibroot.sysctl_child == NULL) return; /* * attempt to pull out the head of the tree, starting with the * size we have now, and looping if we need more (or less) * space */ si = 0; so = sysctl_mibroot.sysctl_clen * sizeof(struct sysctlnode); name = CTL_QUERY; memset(&qnode, 0, sizeof(qnode)); qnode.sysctl_flags = SYSCTL_VERSION; do { si = so; h = malloc(si); rc = sysctl(&name, 1, h, &so, &qnode, sizeof(qnode)); if (rc == -1 && errno != ENOMEM) return; if (si < so) free(h); } while (si < so); /* * order the new copy of the head */ nlen = so / sizeof(struct sysctlnode); qsort(h, (size_t)nlen, sizeof(struct sysctlnode), compar); /* * verify that everything is the same. if it is, we don't * need to do any more work here. */ olen = sysctl_mibroot.sysctl_clen; rc = (nlen == olen) ? 0 : 1; o = sysctl_mibroot.sysctl_child; for (ni = 0; rc == 0 && ni < nlen; ni++) { if (h[ni].sysctl_num != o[ni].sysctl_num || h[ni].sysctl_ver != o[ni].sysctl_ver) rc = 1; } if (rc == 0) { free(h); return; } /* * something changed. h will become the new head, and we need * pull over any subtrees we already have if they're the same * version. */ i = h; ni = oi = 0; while (ni < nlen && oi < olen) { /* * something was inserted or deleted */ if (SYSCTL_TYPE(i[ni].sysctl_flags) == CTLTYPE_NODE) i[ni].sysctl_child = NULL; if (i[ni].sysctl_num != o[oi].sysctl_num) { if (i[ni].sysctl_num < o[oi].sysctl_num) { ni++; } else { free_children(&o[oi]); oi++; } continue; } /* * same number, but different version, so throw away * any accumulated children */ if (i[ni].sysctl_ver != o[oi].sysctl_ver) free_children(&o[oi]); /* * this node is the same, but we only need to * move subtrees. */ else if (SYSCTL_TYPE(i[ni].sysctl_flags) == CTLTYPE_NODE) { /* * move subtree to new parent */ i[ni].sysctl_clen = o[oi].sysctl_clen; i[ni].sysctl_csize = o[oi].sysctl_csize; i[ni].sysctl_child = o[oi].sysctl_child; /* * reparent inherited subtree */ for (t = 0; i[ni].sysctl_child != NULL && t < i[ni].sysctl_clen; t++) i[ni].sysctl_child[t].sysctl_parent = &i[ni]; } ni++; oi++; } /* * left over new nodes need to have empty subtrees cleared */ while (ni < nlen) { if (SYSCTL_TYPE(i[ni].sysctl_flags) == CTLTYPE_NODE) i[ni].sysctl_child = NULL; ni++; } /* * left over old nodes need to be cleaned out */ while (oi < olen) { free_children(&o[oi]); oi++; } /* * pop new head in */ sysctl_mibroot.sysctl_clen = nlen; sysctl_mibroot.sysctl_csize = nlen; sysctl_mibroot.sysctl_child = h; free(o); } /* * sucks in the children at a given level and attaches it to the tree. */ int __learn_tree(int *name, u_int namelen, struct sysctlnode *pnode) { struct sysctlnode qnode; int rc; size_t sz; if (pnode == NULL) pnode = &sysctl_mibroot; if (SYSCTL_TYPE(pnode->sysctl_flags) != CTLTYPE_NODE) { errno = EINVAL; return (-1); } if (pnode->sysctl_child != NULL) return (0); if (pnode->sysctl_clen == 0) sz = SYSCTL_DEFSIZE * sizeof(struct sysctlnode); else sz = pnode->sysctl_clen * sizeof(struct sysctlnode); pnode->sysctl_child = malloc(sz); if (pnode->sysctl_child == NULL) return (-1); name[namelen] = CTL_QUERY; pnode->sysctl_clen = 0; pnode->sysctl_csize = 0; memset(&qnode, 0, sizeof(qnode)); qnode.sysctl_flags = SYSCTL_VERSION; rc = sysctl(name, namelen + 1, pnode->sysctl_child, &sz, &qnode, sizeof(qnode)); if (sz == 0) { free(pnode->sysctl_child); pnode->sysctl_child = NULL; return (rc); } if (rc) { free(pnode->sysctl_child); pnode->sysctl_child = NULL; if ((sz % sizeof(struct sysctlnode)) != 0) errno = EINVAL; if (errno != ENOMEM) return (rc); } if (pnode->sysctl_child == NULL) { pnode->sysctl_child = malloc(sz); if (pnode->sysctl_child == NULL) return (-1); rc = sysctl(name, namelen + 1, pnode->sysctl_child, &sz, &qnode, sizeof(qnode)); if (rc) { free(pnode->sysctl_child); pnode->sysctl_child = NULL; return (rc); } } /* * how many did we get? */ pnode->sysctl_clen = sz / sizeof(struct sysctlnode); pnode->sysctl_csize = sz / sizeof(struct sysctlnode); if (pnode->sysctl_clen * sizeof(struct sysctlnode) != sz) { free(pnode->sysctl_child); pnode->sysctl_child = NULL; errno = EINVAL; return (-1); } /* * you know, the kernel doesn't really keep them in any * particular order...just like entries in a directory */ qsort(pnode->sysctl_child, pnode->sysctl_clen, sizeof(struct sysctlnode), compar); /* * rearrange parent<->child linkage */ for (rc = 0; rc < pnode->sysctl_clen; rc++) { pnode->sysctl_child[rc].sysctl_parent = pnode; if (SYSCTL_TYPE(pnode->sysctl_child[rc].sysctl_flags) == CTLTYPE_NODE) { /* * these nodes may have children, but we * haven't discovered that yet. */ pnode->sysctl_child[rc].sysctl_child = NULL; } pnode->sysctl_child[rc].sysctl_desc = NULL; } return (0); } /* * that's "given name" as a string, the integer form of the name fit * to be passed to sysctl(), "canonicalized name" (optional), and a * pointer to the length of the integer form. oh, and then a pointer * to the node, in case you (the caller) care. you can leave them all * NULL except for gname, though that might be rather pointless, * unless all you wanna do is verify that a given name is acceptable. * * returns either 0 (everything was fine) or -1 and sets errno * accordingly. if errno is set to EAGAIN, we detected a change to * the mib while parsing, and you should try again. in the case of an * invalid node name, cname will be set to contain the offending name. */ #ifdef _REENTRANT static mutex_t sysctl_mutex = MUTEX_INITIALIZER; static int sysctlgetmibinfo_unlocked(const char *, int *, u_int *, char *, size_t *, struct sysctlnode **, int); #endif /* __REENTRANT */ int sysctlgetmibinfo(const char *gname, int *iname, u_int *namelenp, char *cname, size_t *csz, struct sysctlnode **rnode, int v) #ifdef _REENTRANT { int rc; mutex_lock(&sysctl_mutex); rc = sysctlgetmibinfo_unlocked(gname, iname, namelenp, cname, csz, rnode, v); mutex_unlock(&sysctl_mutex); return (rc); } static int sysctlgetmibinfo_unlocked(const char *gname, int *iname, u_int *namelenp, char *cname, size_t *csz, struct sysctlnode **rnode, int v) #endif /* _REENTRANT */ { struct sysctlnode *pnode, *node; int name[CTL_MAXNAME], ni, n, haven; u_int nl; intmax_t q; char sep[2], token[SYSCTL_NAMELEN], pname[SYSCTL_NAMELEN * CTL_MAXNAME + CTL_MAXNAME]; const char *piece, *dot; char *t; size_t l; if (rnode != NULL) { if (*rnode == NULL) { /* XXX later deal with dealing back a sub version */ if (v != SYSCTL_VERSION) return (EINVAL); pnode = &sysctl_mibroot; } else { /* this is just someone being silly */ if (SYSCTL_VERS((*rnode)->sysctl_flags) != v) return (EINVAL); /* XXX later deal with other people's trees */ if (SYSCTL_VERS((*rnode)->sysctl_flags) != SYSCTL_VERSION) return (EINVAL); pnode = *rnode; } } else pnode = &sysctl_mibroot; if (pnode == &sysctl_mibroot) relearnhead(); nl = ni = 0; token[0] = '\0'; pname[0] = '\0'; node = NULL; /* * default to using '.' as the separator, but allow '/' as * well, and then allow a leading separator */ if ((dot = strpbrk(gname, "./")) == NULL) sep[0] = '.'; else sep[0] = dot[0]; sep[1] = '\0'; if (gname[0] == sep[0]) { strlcat(pname, sep, sizeof(pname)); gname++; } #define COPY_OUT_DATA(t, c, cs, nlp, l) do { \ if ((c) != NULL && (cs) != NULL) \ *(cs) = strlcpy((c), (t), *(cs)); \ else if ((cs) != NULL) \ *(cs) = strlen(t) + 1; \ if ((nlp) != NULL) \ *(nlp) = (l); \ } while (/*CONSTCOND*/0) piece = gname; while (piece != NULL && *piece != '\0') { /* * what was i looking for? */ dot = strchr(piece, sep[0]); if (dot == NULL) { l = strlcpy(token, piece, sizeof(token)); if (l > sizeof(token)) { COPY_OUT_DATA(piece, cname, csz, namelenp, nl); errno = ENAMETOOLONG; return (-1); } } else if (dot - piece > sizeof(token) - 1) { COPY_OUT_DATA(token, cname, csz, namelenp, nl); errno = ENAMETOOLONG; return (-1); } else { strncpy(token, piece, (size_t)(dot - piece)); token[dot - piece] = '\0'; } /* * i wonder if this "token" is an integer? */ errno = 0; q = strtoimax(token, &t, 0); n = (int)q; if (errno != 0 || *t != '\0') haven = 0; else if (q < INT_MIN || q > UINT_MAX) haven = 0; else haven = 1; /* * make sure i have something to look at */ if (SYSCTL_TYPE(pnode->sysctl_flags) != CTLTYPE_NODE) { if (haven && nl > 0) { strlcat(pname, sep, sizeof(pname)); goto just_numbers; } COPY_OUT_DATA(token, cname, csz, namelenp, nl); errno = ENOTDIR; return (-1); } if (pnode->sysctl_child == NULL) { if (__learn_tree(name, nl, pnode) == -1) { COPY_OUT_DATA(token, cname, csz, namelenp, nl); return (-1); } } node = pnode->sysctl_child; if (node == NULL) { COPY_OUT_DATA(token, cname, csz, namelenp, nl); errno = ENOENT; return (-1); } /* * now...is it there? */ for (ni = 0; ni < pnode->sysctl_clen; ni++) if ((haven && ((n == node[ni].sysctl_num) || (node[ni].sysctl_flags & CTLFLAG_ANYNUMBER))) || strcmp(token, node[ni].sysctl_name) == 0) break; if (ni >= pnode->sysctl_clen) { COPY_OUT_DATA(token, cname, csz, namelenp, nl); errno = ENOENT; return (-1); } /* * ah...it is. */ pnode = &node[ni]; if (nl > 0) strlcat(pname, sep, sizeof(pname)); if (haven && n != pnode->sysctl_num) { just_numbers: strlcat(pname, token, sizeof(pname)); name[nl] = n; } else { strlcat(pname, pnode->sysctl_name, sizeof(pname)); name[nl] = pnode->sysctl_num; } piece = (dot != NULL) ? dot + 1 : NULL; nl++; if (nl == CTL_MAXNAME) { COPY_OUT_DATA(token, cname, csz, namelenp, nl); errno = ERANGE; return (-1); } } if (nl == 0) { if (namelenp != NULL) *namelenp = 0; errno = EINVAL; return (-1); } COPY_OUT_DATA(pname, cname, csz, namelenp, nl); if (iname != NULL && namelenp != NULL) memcpy(iname, &name[0], MIN(nl, *namelenp) * sizeof(int)); if (namelenp != NULL) *namelenp = nl; if (rnode != NULL) { if (*rnode != NULL) /* * they gave us a private tree to work in, so * we give back a pointer into that private * tree */ *rnode = pnode; else { /* * they gave us a place to put the node data, * so give them a copy */ *rnode = malloc(sizeof(struct sysctlnode)); if (*rnode != NULL) { **rnode = *pnode; (*rnode)->sysctl_child = NULL; (*rnode)->sysctl_parent = NULL; } } } return (0); }