/* * Copyright (c) 2006 Jakub Vana * Copyright (c) 2012 Martin Decky * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * * - Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * - 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. * - The name of the author may not be used to endorse or promote products * derived from this software without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``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 AUTHOR 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. */ /** @addtogroup generic * @{ */ /** @file */ #include #include #include #include #include #include #include #include #include /** Maximal sysinfo path length */ #define SYSINFO_MAX_PATH 2048 bool fb_exported = false; /** Global sysinfo tree root item */ static sysinfo_item_t *global_root = NULL; /** Sysinfo SLAB cache */ static slab_cache_t *sysinfo_item_slab; /** Sysinfo lock */ static mutex_t sysinfo_lock; /** Sysinfo item constructor * */ NO_TRACE static int sysinfo_item_constructor(void *obj, unsigned int kmflag) { sysinfo_item_t *item = (sysinfo_item_t *) obj; item->name = NULL; item->val_type = SYSINFO_VAL_UNDEFINED; item->subtree_type = SYSINFO_SUBTREE_NONE; item->subtree.table = NULL; item->next = NULL; return 0; } /** Sysinfo item destructor * * Note that the return value is not perfectly correct * since more space might get actually freed thanks * to the disposal of item->name * */ NO_TRACE static size_t sysinfo_item_destructor(void *obj) { sysinfo_item_t *item = (sysinfo_item_t *) obj; if (item->name != NULL) free(item->name); return 0; } /** Initialize sysinfo subsystem * * Create SLAB cache for sysinfo items. * */ void sysinfo_init(void) { sysinfo_item_slab = slab_cache_create("sysinfo_item_t", sizeof(sysinfo_item_t), 0, sysinfo_item_constructor, sysinfo_item_destructor, SLAB_CACHE_MAGDEFERRED); mutex_initialize(&sysinfo_lock, MUTEX_ACTIVE); } /** Recursively find an item in sysinfo tree * * Should be called with sysinfo_lock held. * * @param name Current sysinfo path suffix. * @param subtree Current sysinfo (sub)tree root item. * @param ret If the return value is NULL, this argument * can be set either to NULL (i.e. no item was * found and no data was generated) or the * original pointer is used to store the value * generated by a generated subtree function. * @param dry_run Do not actually get any generated * binary data, just calculate the size. * * @return Found item or NULL if no item in the fixed tree * was found (N.B. ret). * */ NO_TRACE static sysinfo_item_t *sysinfo_find_item(const char *name, sysinfo_item_t *subtree, sysinfo_return_t **ret, bool dry_run) { assert(subtree != NULL); sysinfo_item_t *cur = subtree; /* Walk all siblings */ while (cur != NULL) { size_t i = 0; /* Compare name with path */ while ((cur->name[i] != 0) && (name[i] == cur->name[i])) i++; /* Check for perfect name and path match */ if ((name[i] == 0) && (cur->name[i] == 0)) return cur; /* Partial match up to the delimiter */ if ((name[i] == '.') && (cur->name[i] == 0)) { /* Look into the subtree */ switch (cur->subtree_type) { case SYSINFO_SUBTREE_TABLE: /* Recursively find in subtree */ return sysinfo_find_item(name + i + 1, cur->subtree.table, ret, dry_run); case SYSINFO_SUBTREE_FUNCTION: /* Get generated data */ if (ret != NULL) **ret = cur->subtree.generator.fn(name + i + 1, dry_run, cur->subtree.generator.data); return NULL; default: /* Not found, no data generated */ if (ret != NULL) *ret = NULL; return NULL; } } cur = cur->next; } /* Not found, no data generated */ if (ret != NULL) *ret = NULL; return NULL; } /** Recursively create items in sysinfo tree * * Should be called with sysinfo_lock held. * * @param name Current sysinfo path suffix. * @param psubtree Pointer to an already existing (sub)tree root * item or where to store a new tree root item. * * @return Existing or newly allocated sysinfo item or NULL * if the current tree configuration does not allow to * create a new item. * */ NO_TRACE static sysinfo_item_t *sysinfo_create_path(const char *name, sysinfo_item_t **psubtree) { assert(psubtree != NULL); if (*psubtree == NULL) { /* No parent */ size_t i = 0; /* Find the first delimiter in name */ while ((name[i] != 0) && (name[i] != '.')) i++; *psubtree = (sysinfo_item_t *) slab_alloc(sysinfo_item_slab, 0); assert(*psubtree); /* Fill in item name up to the delimiter */ (*psubtree)->name = str_ndup(name, i); assert((*psubtree)->name); /* Create subtree items */ if (name[i] == '.') { (*psubtree)->subtree_type = SYSINFO_SUBTREE_TABLE; return sysinfo_create_path(name + i + 1, &((*psubtree)->subtree.table)); } /* No subtree needs to be created */ return *psubtree; } sysinfo_item_t *cur = *psubtree; /* Walk all siblings */ while (cur != NULL) { size_t i = 0; /* Compare name with path */ while ((cur->name[i] != 0) && (name[i] == cur->name[i])) i++; /* Check for perfect name and path match * -> item is already present. */ if ((name[i] == 0) && (cur->name[i] == 0)) return cur; /* Partial match up to the delimiter */ if ((name[i] == '.') && (cur->name[i] == 0)) { switch (cur->subtree_type) { case SYSINFO_SUBTREE_NONE: /* No subtree yet, create one */ cur->subtree_type = SYSINFO_SUBTREE_TABLE; return sysinfo_create_path(name + i + 1, &(cur->subtree.table)); case SYSINFO_SUBTREE_TABLE: /* Subtree already created, add new sibling */ return sysinfo_create_path(name + i + 1, &(cur->subtree.table)); default: /* Subtree items handled by a function, this * cannot be overriden by a constant item. */ return NULL; } } /* No match and no more siblings to check * -> create a new sibling item. */ if (cur->next == NULL) { /* Find the first delimiter in name */ i = 0; while ((name[i] != 0) && (name[i] != '.')) i++; sysinfo_item_t *item = (sysinfo_item_t *) slab_alloc(sysinfo_item_slab, 0); assert(item); cur->next = item; /* Fill in item name up to the delimiter */ item->name = str_ndup(name, i); assert(item->name); /* Create subtree items */ if (name[i] == '.') { item->subtree_type = SYSINFO_SUBTREE_TABLE; return sysinfo_create_path(name + i + 1, &(item->subtree.table)); } /* No subtree needs to be created */ return item; } cur = cur->next; } /* Unreachable */ assert(false); return NULL; } /** Set sysinfo item with a constant numeric value * * @param name Sysinfo path. * @param root Pointer to the root item or where to store * a new root item (NULL for global sysinfo root). * @param val Value to store in the item. * */ void sysinfo_set_item_val(const char *name, sysinfo_item_t **root, sysarg_t val) { /* Protect sysinfo tree consistency */ mutex_lock(&sysinfo_lock); if (root == NULL) root = &global_root; sysinfo_item_t *item = sysinfo_create_path(name, root); if (item != NULL) { item->val_type = SYSINFO_VAL_VAL; item->val.val = val; } mutex_unlock(&sysinfo_lock); } /** Set sysinfo item with a constant binary data * * Note that sysinfo only stores the pointer to the * binary data and does not touch it in any way. The * data should be static and immortal. * * @param name Sysinfo path. * @param root Pointer to the root item or where to store * a new root item (NULL for global sysinfo root). * @param data Binary data. * @param size Size of the binary data. * */ void sysinfo_set_item_data(const char *name, sysinfo_item_t **root, void *data, size_t size) { /* Protect sysinfo tree consistency */ mutex_lock(&sysinfo_lock); if (root == NULL) root = &global_root; sysinfo_item_t *item = sysinfo_create_path(name, root); if (item != NULL) { item->val_type = SYSINFO_VAL_DATA; item->val.data.data = data; item->val.data.size = size; } mutex_unlock(&sysinfo_lock); } /** Set sysinfo item with a generated numeric value * * @param name Sysinfo path. * @param root Pointer to the root item or where to store * a new root item (NULL for global sysinfo root). * @param fn Numeric value generator function. * @param data Private data. * */ void sysinfo_set_item_gen_val(const char *name, sysinfo_item_t **root, sysinfo_fn_val_t fn, void *data) { /* Protect sysinfo tree consistency */ mutex_lock(&sysinfo_lock); if (root == NULL) root = &global_root; sysinfo_item_t *item = sysinfo_create_path(name, root); if (item != NULL) { item->val_type = SYSINFO_VAL_FUNCTION_VAL; item->val.gen_val.fn = fn; item->val.gen_val.data = data; } mutex_unlock(&sysinfo_lock); } /** Set sysinfo item with a generated binary data * * Note that each time the generator function is called * it is supposed to return a new dynamically allocated * data. This data is then freed by sysinfo in the context * of the current sysinfo request. * * @param name Sysinfo path. * @param root Pointer to the root item or where to store * a new root item (NULL for global sysinfo root). * @param fn Binary data generator function. * @param data Private data. * */ void sysinfo_set_item_gen_data(const char *name, sysinfo_item_t **root, sysinfo_fn_data_t fn, void *data) { /* Protect sysinfo tree consistency */ mutex_lock(&sysinfo_lock); if (root == NULL) root = &global_root; sysinfo_item_t *item = sysinfo_create_path(name, root); if (item != NULL) { item->val_type = SYSINFO_VAL_FUNCTION_DATA; item->val.gen_data.fn = fn; item->val.gen_data.data = data; } mutex_unlock(&sysinfo_lock); } /** Set sysinfo item with an undefined value * * @param name Sysinfo path. * @param root Pointer to the root item or where to store * a new root item (NULL for global sysinfo root). * */ void sysinfo_set_item_undefined(const char *name, sysinfo_item_t **root) { /* Protect sysinfo tree consistency */ mutex_lock(&sysinfo_lock); if (root == NULL) root = &global_root; sysinfo_item_t *item = sysinfo_create_path(name, root); if (item != NULL) item->val_type = SYSINFO_VAL_UNDEFINED; mutex_unlock(&sysinfo_lock); } /** Set sysinfo item with a generated subtree * * @param name Sysinfo path. * @param root Pointer to the root item or where to store * a new root item (NULL for global sysinfo root). * @param fn Subtree generator function. * @param data Private data to be passed to the generator. * */ void sysinfo_set_subtree_fn(const char *name, sysinfo_item_t **root, sysinfo_fn_subtree_t fn, void *data) { /* Protect sysinfo tree consistency */ mutex_lock(&sysinfo_lock); if (root == NULL) root = &global_root; sysinfo_item_t *item = sysinfo_create_path(name, root); /* Change the type of the subtree only if it is not already a fixed subtree */ if ((item != NULL) && (item->subtree_type != SYSINFO_SUBTREE_TABLE)) { item->subtree_type = SYSINFO_SUBTREE_FUNCTION; item->subtree.generator.fn = fn; item->subtree.generator.data = data; } mutex_unlock(&sysinfo_lock); } /** Sysinfo dump indentation helper routine * * @param depth Number of spaces to print. * */ NO_TRACE static void sysinfo_indent(size_t spaces) { for (size_t i = 0; i < spaces; i++) printf(" "); } /** Dump the structure of sysinfo tree * * Should be called with sysinfo_lock held. * * @param root Root item of the current (sub)tree. * @param spaces Current indentation level. * */ NO_TRACE static void sysinfo_dump_internal(sysinfo_item_t *root, size_t spaces) { /* Walk all siblings */ for (sysinfo_item_t *cur = root; cur; cur = cur->next) { size_t length; if (spaces == 0) { printf("%s", cur->name); length = str_length(cur->name); } else { sysinfo_indent(spaces); printf(".%s", cur->name); length = str_length(cur->name) + 1; } sysarg_t val; size_t size; /* Display node value and type */ switch (cur->val_type) { case SYSINFO_VAL_UNDEFINED: printf(" [undefined]\n"); break; case SYSINFO_VAL_VAL: printf(" -> %" PRIun" (%#" PRIxn ")\n", cur->val.val, cur->val.val); break; case SYSINFO_VAL_DATA: printf(" (%zu bytes)\n", cur->val.data.size); break; case SYSINFO_VAL_FUNCTION_VAL: val = cur->val.gen_val.fn(cur, cur->val.gen_val.data); printf(" -> %" PRIun" (%#" PRIxn ") [generated]\n", val, val); break; case SYSINFO_VAL_FUNCTION_DATA: /* N.B.: No data was actually returned (only a dry run) */ (void) cur->val.gen_data.fn(cur, &size, true, cur->val.gen_data.data); printf(" (%zu bytes) [generated]\n", size); break; default: printf("+ %s [unknown]\n", cur->name); } /* Recursivelly nest into the subtree */ switch (cur->subtree_type) { case SYSINFO_SUBTREE_NONE: break; case SYSINFO_SUBTREE_TABLE: sysinfo_dump_internal(cur->subtree.table, spaces + length); break; case SYSINFO_SUBTREE_FUNCTION: sysinfo_indent(spaces + length); printf("\n"); break; default: sysinfo_indent(spaces + length); printf("\n"); } } } /** Dump the structure of sysinfo tree * * @param root Root item of the sysinfo (sub)tree. * If it is NULL then consider the global * sysinfo tree. * */ void sysinfo_dump(sysinfo_item_t *root) { /* Avoid other functions to mess with sysinfo while we are dumping it */ mutex_lock(&sysinfo_lock); if (root == NULL) sysinfo_dump_internal(global_root, 0); else sysinfo_dump_internal(root, 0); mutex_unlock(&sysinfo_lock); } /** Return sysinfo item value determined by name * * Should be called with sysinfo_lock held. * * @param name Sysinfo path. * @param root Root item of the sysinfo (sub)tree. * If it is NULL then consider the global * sysinfo tree. * @param dry_run Do not actually get any generated * binary data, just calculate the size. * * @return Item value (constant or generated). * */ NO_TRACE static sysinfo_return_t sysinfo_get_item(const char *name, sysinfo_item_t **root, bool dry_run) { if (root == NULL) root = &global_root; /* Try to find the item or generate data */ sysinfo_return_t ret; sysinfo_return_t *ret_ptr = &ret; sysinfo_item_t *item = sysinfo_find_item(name, *root, &ret_ptr, dry_run); if (item != NULL) { /* Item found in the fixed sysinfo tree */ ret.tag = item->val_type; switch (item->val_type) { case SYSINFO_VAL_UNDEFINED: break; case SYSINFO_VAL_VAL: ret.val = item->val.val; break; case SYSINFO_VAL_DATA: ret.data = item->val.data; break; case SYSINFO_VAL_FUNCTION_VAL: ret.val = item->val.gen_val.fn(item, item->val.gen_val.data); break; case SYSINFO_VAL_FUNCTION_DATA: ret.data.data = item->val.gen_data.fn(item, &ret.data.size, dry_run, item->val.gen_data.data); break; } } else { /* No item in the fixed sysinfo tree */ if (ret_ptr == NULL) { /* Even no data was generated */ ret.tag = SYSINFO_VAL_UNDEFINED; } } return ret; } /** Return sysinfo item determined by name from user space * * The path string passed from the user space has to be properly null-terminated * (the last passed character must be null). * * @param ptr Sysinfo path in the user address space. * @param size Size of the path string. * @param dry_run Do not actually get any generated * binary data, just calculate the size. * */ NO_TRACE static sysinfo_return_t sysinfo_get_item_uspace(void *ptr, size_t size, bool dry_run) { sysinfo_return_t ret; ret.tag = SYSINFO_VAL_UNDEFINED; if (size > SYSINFO_MAX_PATH) return ret; char *path = (char *) malloc(size + 1, 0); assert(path); if ((copy_from_uspace(path, ptr, size + 1) == 0) && (path[size] == 0)) { /* * Prevent other functions from messing with sysinfo while we * are reading it. */ mutex_lock(&sysinfo_lock); ret = sysinfo_get_item(path, NULL, dry_run); mutex_unlock(&sysinfo_lock); } free(path); return ret; } /** Return sysinfo keys determined by name * * Should be called with sysinfo_lock held. * * @param name Sysinfo path. * @param root Root item of the sysinfo (sub)tree. * If it is NULL then consider the global * sysinfo tree. * @param dry_run Do not actually get any generated * binary data, just calculate the size. * * @return Item value (constant or generated). * */ NO_TRACE static sysinfo_return_t sysinfo_get_keys(const char *name, sysinfo_item_t **root, bool dry_run) { if (root == NULL) root = &global_root; sysinfo_item_t *subtree = NULL; if (name[0] != 0) { /* Try to find the item */ sysinfo_item_t *item = sysinfo_find_item(name, *root, NULL, dry_run); if ((item != NULL) && (item->subtree_type == SYSINFO_SUBTREE_TABLE)) subtree = item->subtree.table; } else subtree = *root; sysinfo_return_t ret; if (subtree != NULL) { /* * Calculate the size of subkeys. */ size_t size = 0; for (sysinfo_item_t *cur = subtree; cur; cur = cur->next) size += str_size(cur->name) + 1; if (dry_run) { ret.tag = SYSINFO_VAL_DATA; ret.data.data = NULL; ret.data.size = size; } else { /* Allocate buffer for subkeys */ char *names = (char *) malloc(size, FRAME_ATOMIC); if (names == NULL) return ret; size_t pos = 0; for (sysinfo_item_t *cur = subtree; cur; cur = cur->next) { str_cpy(names + pos, size - pos, cur->name); pos += str_size(cur->name) + 1; } /* Correct return value */ ret.tag = SYSINFO_VAL_DATA; ret.data.data = (void *) names; ret.data.size = size; } } else { /* No item in the fixed sysinfo tree */ ret.tag = SYSINFO_VAL_UNDEFINED; } return ret; } /** Return sysinfo keys determined by name from user space * * The path string passed from the user space has to be properly * null-terminated (the last passed character must be null). * * @param ptr Sysinfo path in the user address space. * @param size Size of the path string. * @param dry_run Do not actually get any generated * binary data, just calculate the size. * */ NO_TRACE static sysinfo_return_t sysinfo_get_keys_uspace(void *ptr, size_t size, bool dry_run) { sysinfo_return_t ret; ret.tag = SYSINFO_VAL_UNDEFINED; ret.data.data = NULL; ret.data.size = 0; if (size > SYSINFO_MAX_PATH) return ret; char *path = (char *) malloc(size + 1, 0); assert(path); if ((copy_from_uspace(path, ptr, size + 1) == 0) && (path[size] == 0)) { /* * Prevent other functions from messing with sysinfo while we * are reading it. */ mutex_lock(&sysinfo_lock); ret = sysinfo_get_keys(path, NULL, dry_run); mutex_unlock(&sysinfo_lock); } free(path); return ret; } /** Get the sysinfo keys size (syscall) * * The path string passed from the user space has * to be properly null-terminated (the last passed * character must be null). * * @param path_ptr Sysinfo path in the user address space. * @param path_size Size of the path string. * @param size_ptr User space pointer where to store the * keys size. * * @return Error code (EOK in case of no error). * */ sysarg_t sys_sysinfo_get_keys_size(void *path_ptr, size_t path_size, void *size_ptr) { int rc; /* * Get the keys. * * N.B.: There is no need to free any potential keys * since we request a dry run. */ sysinfo_return_t ret = sysinfo_get_keys_uspace(path_ptr, path_size, true); /* Check return data tag */ if (ret.tag == SYSINFO_VAL_DATA) rc = copy_to_uspace(size_ptr, &ret.data.size, sizeof(ret.data.size)); else rc = EINVAL; return (sysarg_t) rc; } /** Get the sysinfo keys (syscall) * * The path string passed from the user space has * to be properly null-terminated (the last passed * character must be null). * * If the user space buffer size does not equal * the actual size of the returned data, the data * is truncated. * * The actual size of data returned is stored to * size_ptr. * * @param path_ptr Sysinfo path in the user address space. * @param path_size Size of the path string. * @param buffer_ptr User space pointer to the buffer where * to store the binary data. * @param buffer_size User space buffer size. * @param size_ptr User space pointer where to store the * binary data size. * * @return Error code (EOK in case of no error). * */ sysarg_t sys_sysinfo_get_keys(void *path_ptr, size_t path_size, void *buffer_ptr, size_t buffer_size, size_t *size_ptr) { int rc; /* Get the keys */ sysinfo_return_t ret = sysinfo_get_keys_uspace(path_ptr, path_size, false); /* Check return data tag */ if (ret.tag == SYSINFO_VAL_DATA) { size_t size = min(ret.data.size, buffer_size); rc = copy_to_uspace(buffer_ptr, ret.data.data, size); if (rc == EOK) rc = copy_to_uspace(size_ptr, &size, sizeof(size)); free(ret.data.data); } else rc = EINVAL; return (sysarg_t) rc; } /** Get the sysinfo value type (syscall) * * The path string passed from the user space has * to be properly null-terminated (the last passed * character must be null). * * @param path_ptr Sysinfo path in the user address space. * @param path_size Size of the path string. * * @return Item value type. * */ sysarg_t sys_sysinfo_get_val_type(void *path_ptr, size_t path_size) { /* * Get the item. * * N.B.: There is no need to free any potential generated * binary data since we request a dry run. */ sysinfo_return_t ret = sysinfo_get_item_uspace(path_ptr, path_size, true); /* * Map generated value types to constant types (user space does * not care whether the value is constant or generated). */ if (ret.tag == SYSINFO_VAL_FUNCTION_VAL) ret.tag = SYSINFO_VAL_VAL; else if (ret.tag == SYSINFO_VAL_FUNCTION_DATA) ret.tag = SYSINFO_VAL_DATA; return (sysarg_t) ret.tag; } /** Get the sysinfo numerical value (syscall) * * The path string passed from the user space has * to be properly null-terminated (the last passed * character must be null). * * @param path_ptr Sysinfo path in the user address space. * @param path_size Size of the path string. * @param value_ptr User space pointer where to store the * numberical value. * * @return Error code (EOK in case of no error). * */ sysarg_t sys_sysinfo_get_value(void *path_ptr, size_t path_size, void *value_ptr) { int rc; /* * Get the item. * * N.B.: There is no need to free any potential generated binary * data since we request a dry run. */ sysinfo_return_t ret = sysinfo_get_item_uspace(path_ptr, path_size, true); /* Only constant or generated numerical value is returned */ if ((ret.tag == SYSINFO_VAL_VAL) || (ret.tag == SYSINFO_VAL_FUNCTION_VAL)) rc = copy_to_uspace(value_ptr, &ret.val, sizeof(ret.val)); else rc = EINVAL; return (sysarg_t) rc; } /** Get the sysinfo binary data size (syscall) * * The path string passed from the user space has * to be properly null-terminated (the last passed * character must be null). * * @param path_ptr Sysinfo path in the user address space. * @param path_size Size of the path string. * @param size_ptr User space pointer where to store the * binary data size. * * @return Error code (EOK in case of no error). * */ sysarg_t sys_sysinfo_get_data_size(void *path_ptr, size_t path_size, void *size_ptr) { int rc; /* * Get the item. * * N.B.: There is no need to free any potential generated binary * data since we request a dry run. */ sysinfo_return_t ret = sysinfo_get_item_uspace(path_ptr, path_size, true); /* Only the size of constant or generated binary data is considered */ if ((ret.tag == SYSINFO_VAL_DATA) || (ret.tag == SYSINFO_VAL_FUNCTION_DATA)) rc = copy_to_uspace(size_ptr, &ret.data.size, sizeof(ret.data.size)); else rc = EINVAL; return (sysarg_t) rc; } /** Get the sysinfo binary data (syscall) * * The path string passed from the user space has * to be properly null-terminated (the last passed * character must be null). * * If the user space buffer size does not equal * the actual size of the returned data, the data * is truncated. Whether this is actually a fatal * error or the data can be still interpreted as valid * depends on the nature of the data and has to be * decided by the user space. * * The actual size of data returned is stored to * size_ptr. * * @param path_ptr Sysinfo path in the user address space. * @param path_size Size of the path string. * @param buffer_ptr User space pointer to the buffer where * to store the binary data. * @param buffer_size User space buffer size. * @param size_ptr User space pointer where to store the * binary data size. * * @return Error code (EOK in case of no error). * */ sysarg_t sys_sysinfo_get_data(void *path_ptr, size_t path_size, void *buffer_ptr, size_t buffer_size, size_t *size_ptr) { int rc; /* Get the item */ sysinfo_return_t ret = sysinfo_get_item_uspace(path_ptr, path_size, false); /* Only constant or generated binary data is considered */ if ((ret.tag == SYSINFO_VAL_DATA) || (ret.tag == SYSINFO_VAL_FUNCTION_DATA)) { size_t size = min(ret.data.size, buffer_size); rc = copy_to_uspace(buffer_ptr, ret.data.data, size); if (rc == EOK) rc = copy_to_uspace(size_ptr, &size, sizeof(size)); } else rc = EINVAL; /* N.B.: The generated binary data should be freed */ if ((ret.tag == SYSINFO_VAL_FUNCTION_DATA) && (ret.data.data != NULL)) free(ret.data.data); return (sysarg_t) rc; } /** @} */