#include #include #include /* defines GFP_KERNEL */ #include #include #include #include #include #include #include #include #include /* * Originally by Anonymous (as far as I know...) * Linux version by Bas Laarhoven * 0.99.14 version by Jon Tombs , * Heavily modified by Bjorn Ekwall May 1994 (C) * Rewritten by Richard Henderson Dec 1996 * * This source is covered by the GNU GPL, the same as all kernel sources. */ #ifdef CONFIG_MODULES /* a *big* #ifdef block... */ extern struct module_symbol __start___ksymtab[]; extern struct module_symbol __stop___ksymtab[]; extern const struct exception_table_entry __start___ex_table[]; extern const struct exception_table_entry __stop___ex_table[]; static struct module kernel_module = { sizeof(struct module), /* size_of_struct */ NULL, /* next */ "", /* name */ 0, /* size */ 1, /* usecount */ MOD_RUNNING, /* flags */ 0, /* nsyms -- to filled in in init_modules */ 0, /* ndeps */ __start___ksymtab, /* syms */ NULL, /* deps */ NULL, /* refs */ NULL, /* init */ NULL, /* cleanup */ __start___ex_table, /* ex_table_start */ __stop___ex_table, /* ex_table_end */ /* Rest are NULL */ }; struct module *module_list = &kernel_module; static long get_mod_name(const char *user_name, char **buf); static void put_mod_name(char *buf); static struct module *find_module(const char *name); static void free_module(struct module *); /* * Called at boot time */ void init_modules(void) { kernel_module.nsyms = __stop___ksymtab - __start___ksymtab; #ifdef __alpha__ __asm__("stq $29,%0" : "=m"(kernel_module.gp)); #endif } /* * Copy the name of a module from user space. */ static inline long get_mod_name(const char *user_name, char **buf) { unsigned long page; long retval; if ((unsigned long)user_name >= TASK_SIZE && get_fs () != KERNEL_DS) return -EFAULT; page = __get_free_page(GFP_KERNEL); if (!page) return -ENOMEM; retval = strncpy_from_user((char *)page, user_name, PAGE_SIZE); if (retval > 0) { if (retval < PAGE_SIZE) { *buf = (char *)page; return retval; } retval = -ENAMETOOLONG; } else if (!retval) retval = -EINVAL; free_page(page); return retval; } static inline void put_mod_name(char *buf) { free_page((unsigned long)buf); } /* * Allocate space for a module. */ asmlinkage unsigned long sys_create_module(const char *name_user, size_t size) { char *name; long namelen, error; struct module *mod; lock_kernel(); if (!suser()) { error = -EPERM; goto err0; } if ((namelen = get_mod_name(name_user, &name)) < 0) { error = namelen; goto err0; } if (size < sizeof(struct module)+namelen) { error = -EINVAL; goto err1; } if (find_module(name) != NULL) { error = -EEXIST; goto err1; } if ((mod = (struct module *)module_map(size)) == NULL) { error = -ENOMEM; goto err1; } memset(mod, 0, sizeof(*mod)); mod->size_of_struct = sizeof(*mod); mod->next = module_list; mod->name = (char *)(mod + 1); mod->size = size; memcpy((char*)(mod+1), name, namelen+1); put_mod_name(name); module_list = mod; /* link it in */ error = (long) mod; goto err0; err1: put_mod_name(name); err0: unlock_kernel(); return error; } /* * Initialize a module. */ asmlinkage int sys_init_module(const char *name_user, struct module *mod_user) { struct module mod_tmp, *mod; char *name, *n_name; long namelen, n_namelen, i, error = -EPERM; unsigned long mod_user_size; struct module_ref *dep; lock_kernel(); if (!suser()) goto err0; if ((namelen = get_mod_name(name_user, &name)) < 0) { error = namelen; goto err0; } if ((mod = find_module(name)) == NULL) { error = -ENOENT; goto err1; } /* Check module header size. We allow a bit of slop over the size we are familiar with to cope with a version of insmod for a newer kernel. But don't over do it. */ if ((error = get_user(mod_user_size, &mod_user->size_of_struct)) != 0) goto err1; if (mod_user_size < (unsigned long)&((struct module *)0L)->persist_start || mod_user_size > sizeof(struct module) + 16*sizeof(void*)) { printk(KERN_ERR "init_module: Invalid module header size.\n" KERN_ERR "A new version of the modutils is likely " "needed.\n"); error = -EINVAL; goto err1; } /* Hold the current contents while we play with the user's idea of righteousness. */ mod_tmp = *mod; error = copy_from_user(mod, mod_user, sizeof(struct module)); if (error) { error = -EFAULT; goto err2; } /* Sanity check the size of the module. */ error = -EINVAL; if (mod->size > mod_tmp.size) { printk(KERN_ERR "init_module: Size of initialized module " "exceeds size of created module.\n"); goto err2; } /* Make sure all interesting pointers are sane. */ #define bound(p, n, m) ((unsigned long)(p) >= (unsigned long)(m+1) && \ (unsigned long)((p)+(n)) <= (unsigned long)(m) + (m)->size) if (!bound(mod->name, namelen, mod)) { printk(KERN_ERR "init_module: mod->name out of bounds.\n"); goto err2; } if (mod->nsyms && !bound(mod->syms, mod->nsyms, mod)) { printk(KERN_ERR "init_module: mod->syms out of bounds.\n"); goto err2; } if (mod->ndeps && !bound(mod->deps, mod->ndeps, mod)) { printk(KERN_ERR "init_module: mod->deps out of bounds.\n"); goto err2; } if (mod->init && !bound(mod->init, 0, mod)) { printk(KERN_ERR "init_module: mod->init out of bounds.\n"); goto err2; } if (mod->cleanup && !bound(mod->cleanup, 0, mod)) { printk(KERN_ERR "init_module: mod->cleanup out of bounds.\n"); goto err2; } if (mod->ex_table_start > mod->ex_table_end || (mod->ex_table_start && !((unsigned long)mod->ex_table_start >= (unsigned long)(mod+1) && ((unsigned long)mod->ex_table_end < (unsigned long)mod + mod->size))) || (((unsigned long)mod->ex_table_start - (unsigned long)mod->ex_table_end) % sizeof(struct exception_table_entry))) { printk(KERN_ERR "init_module: mod->ex_table_* invalid.\n"); goto err2; } if (mod->flags & ~MOD_AUTOCLEAN) { printk(KERN_ERR "init_module: mod->flags invalid.\n"); goto err2; } #ifdef __alpha__ if (!bound(mod->gp - 0x8000, 0, mod)) { printk(KERN_ERR "init_module: mod->gp out of bounds.\n"); goto err2; } #endif if (mod_member_present(mod, can_unload) && mod->can_unload && !bound(mod->can_unload, 0, mod)) { printk(KERN_ERR "init_module: mod->can_unload out of bounds.\n"); goto err2; } #undef bound /* Check that the user isn't doing something silly with the name. */ if ((n_namelen = get_mod_name(mod->name - (unsigned long)mod + (unsigned long)mod_user, &n_name)) < 0) { error = n_namelen; goto err2; } if (namelen != n_namelen || strcmp(n_name, mod_tmp.name) != 0) { printk(KERN_ERR "init_module: changed module name to " "`%s' from `%s'\n", n_name, mod_tmp.name); goto err3; } /* On some machines it is necessary to do something here to make the I and D caches consistent. */ flush_icache_range((unsigned long)mod, (unsigned long)mod + mod->size); /* Ok, that's about all the sanity we can stomach; copy the rest. */ if (copy_from_user(mod+1, mod_user+1, mod->size-sizeof(*mod))) { error = -EFAULT; goto err3; } /* Update module references. */ mod->next = mod_tmp.next; mod->refs = NULL; for (i = 0, dep = mod->deps; i < mod->ndeps; ++i, ++dep) { struct module *o, *d = dep->dep; /* Make sure the indicated dependancies are really modules. */ if (d == mod) { printk(KERN_ERR "init_module: self-referential " "dependancy in mod->deps.\n"); goto err3; } for (o = module_list; o != &kernel_module; o = o->next) if (o == d) goto found_dep; printk(KERN_ERR "init_module: found dependancy that is " "(no longer?) a module.\n"); goto err3; found_dep: dep->ref = mod; dep->next_ref = d->refs; d->refs = dep; /* Being referenced by a dependant module counts as a use as far as kerneld is concerned. */ d->flags |= MOD_USED_ONCE; } /* Free our temporary memory. */ put_mod_name(n_name); put_mod_name(name); /* Initialize the module. */ mod->usecount = 1; if (mod->init && mod->init() != 0) { mod->usecount = 0; error = -EBUSY; goto err0; } mod->usecount--; /* And set it running. */ mod->flags |= MOD_RUNNING; error = 0; goto err0; err3: put_mod_name(n_name); err2: *mod = mod_tmp; err1: put_mod_name(name); err0: unlock_kernel(); return error; } asmlinkage int sys_delete_module(const char *name_user) { struct module *mod, *next; char *name; long error = -EPERM; lock_kernel(); if (!suser()) goto out; if (name_user) { if ((error = get_mod_name(name_user, &name)) < 0) goto out; if (error == 0) { error = -EINVAL; put_mod_name(name); goto out; } error = -ENOENT; if ((mod = find_module(name)) == NULL) { put_mod_name(name); goto out; } put_mod_name(name); error = -EBUSY; if (mod->refs != NULL || __MOD_IN_USE(mod)) goto out; free_module(mod); error = 0; goto out; } /* Do automatic reaping */ for (mod = module_list; mod != &kernel_module; mod = next) { next = mod->next; if (mod->refs == NULL && ((mod->flags & (MOD_AUTOCLEAN|MOD_RUNNING|MOD_DELETED|MOD_USED_ONCE)) == (MOD_AUTOCLEAN|MOD_RUNNING|MOD_USED_ONCE)) && !__MOD_IN_USE(mod)) { if (mod->flags & MOD_VISITED) mod->flags &= ~MOD_VISITED; else free_module(mod); } } error = 0; out: unlock_kernel(); return error; } /* Query various bits about modules. */ static int qm_modules(char *buf, size_t bufsize, size_t *ret) { struct module *mod; size_t nmod, space, len; nmod = space = 0; for (mod=module_list; mod != &kernel_module; mod=mod->next, ++nmod) { len = strlen(mod->name)+1; if (len > bufsize) goto calc_space_needed; if (copy_to_user(buf, mod->name, len)) return -EFAULT; buf += len; bufsize -= len; space += len; } if (put_user(nmod, ret)) return -EFAULT; else return 0; calc_space_needed: space += len; while ((mod = mod->next) != &kernel_module) space += strlen(mod->name)+1; if (put_user(space, ret)) return -EFAULT; else return -ENOSPC; } static int qm_deps(struct module *mod, char *buf, size_t bufsize, size_t *ret) { size_t i, space, len; if (mod == &kernel_module) return -EINVAL; if ((mod->flags & (MOD_RUNNING | MOD_DELETED)) != MOD_RUNNING) if (put_user(0, ret)) return -EFAULT; else return 0; space = 0; for (i = 0; i < mod->ndeps; ++i) { const char *dep_name = mod->deps[i].dep->name; len = strlen(dep_name)+1; if (len > bufsize) goto calc_space_needed; if (copy_to_user(buf, dep_name, len)) return -EFAULT; buf += len; bufsize -= len; space += len; } if (put_user(i, ret)) return -EFAULT; else return 0; calc_space_needed: space += len; while (++i < mod->ndeps) space += strlen(mod->deps[i].dep->name)+1; if (put_user(space, ret)) return -EFAULT; else return -ENOSPC; } static int qm_refs(struct module *mod, char *buf, size_t bufsize, size_t *ret) { size_t nrefs, space, len; struct module_ref *ref; if (mod == &kernel_module) return -EINVAL; if ((mod->flags & (MOD_RUNNING | MOD_DELETED)) != MOD_RUNNING) if (put_user(0, ret)) return -EFAULT; else return 0; space = 0; for (nrefs = 0, ref = mod->refs; ref ; ++nrefs, ref = ref->next_ref) { const char *ref_name = ref->ref->name; len = strlen(ref_name)+1; if (len > bufsize) goto calc_space_needed; if (copy_to_user(buf, ref_name, len)) return -EFAULT; buf += len; bufsize -= len; space += len; } if (put_user(nrefs, ret)) return -EFAULT; else return 0; calc_space_needed: space += len; while ((ref = ref->next_ref) != NULL) space += strlen(ref->ref->name)+1; if (put_user(space, ret)) return -EFAULT; else return -ENOSPC; } static int qm_symbols(struct module *mod, char *buf, size_t bufsize, size_t *ret) { size_t i, space, len; struct module_symbol *s; char *strings; unsigned long *vals; if ((mod->flags & (MOD_RUNNING | MOD_DELETED)) != MOD_RUNNING) if (put_user(0, ret)) return -EFAULT; else return 0; space = mod->nsyms * 2*sizeof(void *); i = len = 0; s = mod->syms; if (space > bufsize) goto calc_space_needed; if (!access_ok(VERIFY_WRITE, buf, space)) return -EFAULT; bufsize -= space; vals = (unsigned long *)buf; strings = buf+space; for (; i < mod->nsyms ; ++i, ++s, vals += 2) { len = strlen(s->name)+1; if (len > bufsize) goto calc_space_needed; if (copy_to_user(strings, s->name, len) || __put_user(s->value, vals+0) || __put_user(space, vals+1)) return -EFAULT; strings += len; bufsize -= len; space += len; } if (put_user(i, ret)) return -EFAULT; else return 0; calc_space_needed: for (; i < mod->nsyms; ++i, ++s) space += strlen(s->name)+1; if (put_user(space, ret)) return -EFAULT; else return -ENOSPC; } static int qm_info(struct module *mod, char *buf, size_t bufsize, size_t *ret) { int error = 0; if (mod == &kernel_module) return -EINVAL; if (sizeof(struct module_info) <= bufsize) { struct module_info info; info.addr = (unsigned long)mod; info.size = mod->size; info.flags = mod->flags; info.usecount = (mod_member_present(mod, can_unload) && mod->can_unload ? -1 : mod->usecount); if (copy_to_user(buf, &info, sizeof(struct module_info))) return -EFAULT; } else error = -ENOSPC; if (put_user(sizeof(struct module_info), ret)) return -EFAULT; return error; } asmlinkage int sys_query_module(const char *name_user, int which, char *buf, size_t bufsize, size_t *ret) { struct module *mod; int err; lock_kernel(); if (name_user == NULL) mod = &kernel_module; else { long namelen; char *name; if ((namelen = get_mod_name(name_user, &name)) < 0) { err = namelen; goto out; } err = -ENOENT; if (namelen == 0) mod = &kernel_module; else if ((mod = find_module(name)) == NULL) { put_mod_name(name); goto out; } put_mod_name(name); } switch (which) { case 0: err = 0; break; case QM_MODULES: err = qm_modules(buf, bufsize, ret); break; case QM_DEPS: err = qm_deps(mod, buf, bufsize, ret); break; case QM_REFS: err = qm_refs(mod, buf, bufsize, ret); break; case QM_SYMBOLS: err = qm_symbols(mod, buf, bufsize, ret); break; case QM_INFO: err = qm_info(mod, buf, bufsize, ret); break; default: err = -EINVAL; break; } out: unlock_kernel(); return err; } /* * Copy the kernel symbol table to user space. If the argument is * NULL, just return the size of the table. * * This call is obsolete. New programs should use query_module+QM_SYMBOLS * which does not arbitrarily limit the length of symbols. */ asmlinkage int sys_get_kernel_syms(struct kernel_sym *table) { struct module *mod; int i; struct kernel_sym ksym; lock_kernel(); for (mod = module_list, i = 0; mod; mod = mod->next) { /* include the count for the module name! */ i += mod->nsyms + 1; } if (table == NULL) goto out; /* So that we don't give the user our stack content */ memset (&ksym, 0, sizeof (ksym)); for (mod = module_list, i = 0; mod; mod = mod->next) { struct module_symbol *msym; unsigned int j; if ((mod->flags & (MOD_RUNNING|MOD_DELETED)) != MOD_RUNNING) continue; /* magic: write module info as a pseudo symbol */ ksym.value = (unsigned long)mod; ksym.name[0] = '#'; strncpy(ksym.name+1, mod->name, sizeof(ksym.name)-1); ksym.name[sizeof(ksym.name)-1] = '\0'; if (copy_to_user(table, &ksym, sizeof(ksym)) != 0) goto out; ++i, ++table; if (mod->nsyms == 0) continue; for (j = 0, msym = mod->syms; j < mod->nsyms; ++j, ++msym) { ksym.value = msym->value; strncpy(ksym.name, msym->name, sizeof(ksym.name)); ksym.name[sizeof(ksym.name)-1] = '\0'; if (copy_to_user(table, &ksym, sizeof(ksym)) != 0) goto out; ++i, ++table; } } out: unlock_kernel(); return i; } /* * Look for a module by name, ignoring modules marked for deletion. */ static struct module * find_module(const char *name) { struct module *mod; for (mod = module_list; mod ; mod = mod->next) { if (mod->flags & MOD_DELETED) continue; if (!strcmp(mod->name, name)) break; } return mod; } /* * Free the given module. */ static void free_module(struct module *mod) { struct module_ref *dep; unsigned i; /* Let the module clean up. */ mod->flags |= MOD_DELETED; if (mod->flags & MOD_RUNNING) { mod->cleanup(); mod->flags &= ~MOD_RUNNING; } /* Remove the module from the dependancy lists. */ for (i = 0, dep = mod->deps; i < mod->ndeps; ++i, ++dep) { struct module_ref **pp; for (pp = &dep->dep->refs; *pp != dep; pp = &(*pp)->next_ref) continue; *pp = dep->next_ref; } /* And from the main module list. */ if (mod == module_list) { module_list = mod->next; } else { struct module *p; for (p = module_list; p->next != mod; p = p->next) continue; p->next = mod->next; } /* And free the memory. */ module_unmap(mod); } /* * Called by the /proc file system to return a current list of modules. */ int get_module_list(char *p) { size_t left = PAGE_SIZE; struct module *mod; char tmpstr[64]; struct module_ref *ref; for (mod = module_list; mod != &kernel_module; mod = mod->next) { long len; const char *q; #define safe_copy_str(str, len) \ do { \ if (left < len) \ goto fini; \ memcpy(p, str, len); p += len, left -= len; \ } while (0) #define safe_copy_cstr(str) safe_copy_str(str, sizeof(str)-1) len = strlen(mod->name); safe_copy_str(mod->name, len); if ((len = 20 - len) > 0) { if (left < len) goto fini; memset(p, ' ', len); p += len; left -= len; } len = sprintf(tmpstr, "%8lu", mod->size); safe_copy_str(tmpstr, len); if (mod->flags & MOD_RUNNING) { len = sprintf(tmpstr, "%4ld", (mod_member_present(mod, can_unload) && mod->can_unload ? -1 : mod->usecount)); safe_copy_str(tmpstr, len); } if (mod->flags & MOD_DELETED) safe_copy_cstr(" (deleted)"); else if (mod->flags & MOD_RUNNING) { if (mod->flags & MOD_AUTOCLEAN) safe_copy_cstr(" (autoclean)"); if (!(mod->flags & MOD_USED_ONCE)) safe_copy_cstr(" (unused)"); } else safe_copy_cstr(" (uninitialized)"); if ((ref = mod->refs) != NULL) { safe_copy_cstr(" ["); while (1) { q = ref->ref->name; len = strlen(q); safe_copy_str(q, len); if ((ref = ref->next_ref) != NULL) safe_copy_cstr(" "); else break; } safe_copy_cstr("]"); } safe_copy_cstr("\n"); #undef safe_copy_str #undef safe_copy_cstr } fini: return PAGE_SIZE - left; } /* * Called by the /proc file system to return a current list of ksyms. */ int get_ksyms_list(char *buf, char **start, off_t offset, int length) { struct module *mod; char *p = buf; int len = 0; /* code from net/ipv4/proc.c */ off_t pos = 0; off_t begin = 0; for (mod = module_list; mod; mod = mod->next) { unsigned i; struct module_symbol *sym; if (!(mod->flags & MOD_RUNNING) || (mod->flags & MOD_DELETED)) continue; for (i = mod->nsyms, sym = mod->syms; i > 0; --i, ++sym) { p = buf + len; if (*mod->name) { len += sprintf(p, "%0*lx %s\t[%s]\n", (int)(2*sizeof(void*)), sym->value, sym->name, mod->name); } else { len += sprintf(p, "%0*lx %s\n", (int)(2*sizeof(void*)), sym->value, sym->name); } pos = begin + len; if (pos < offset) { len = 0; begin = pos; } pos = begin + len; if (pos > offset+length) goto leave_the_loop; } } leave_the_loop: *start = buf + (offset - begin); len -= (offset - begin); if (len > length) len = length; return len; } /* * Gets the address for a symbol in the given module. If modname is * NULL, it looks for the name in any registered symbol table. If the * modname is an empty string, it looks for the symbol in kernel exported * symbol tables. */ unsigned long get_module_symbol(char *modname, char *symname) { struct module *mp; struct module_symbol *sym; int i; for (mp = module_list; mp; mp = mp->next) { if (((modname == NULL) || (strcmp(mp->name, modname) == 0)) && (mp->flags == MOD_RUNNING) && (mp->nsyms > 0)) { for (i = mp->nsyms, sym = mp->syms; i > 0; --i, ++sym) { if (strcmp(sym->name, symname) == 0) { return sym->value; } } } } return 0; } #else /* CONFIG_MODULES */ /* Dummy syscalls for people who don't want modules */ asmlinkage unsigned long sys_create_module(const char *name_user, size_t size) { return -ENOSYS; } asmlinkage int sys_init_module(const char *name_user, struct module *mod_user) { return -ENOSYS; } asmlinkage int sys_delete_module(const char *name_user) { return -ENOSYS; } asmlinkage int sys_query_module(const char *name_user, int which, char *buf, size_t bufsize, size_t *ret) { /* Let the program know about the new interface. Not that it'll do them much good. */ if (which == 0) return 0; return -ENOSYS; } asmlinkage int sys_get_kernel_syms(struct kernel_sym *table) { return -ENOSYS; } #endif /* CONFIG_MODULES */