| Author | Tokens | Token Proportion | Commits | Commit Proportion |
|---|---|---|---|---|
| Paul Moore | 4208 | 85.97% | 40 | 55.56% |
| Huw Davies | 529 | 10.81% | 9 | 12.50% |
| Davide Caratti | 34 | 0.69% | 1 | 1.39% |
| Julia Lawall | 24 | 0.49% | 2 | 2.78% |
| Linus Torvalds (pre-git) | 22 | 0.45% | 2 | 2.78% |
| Paolo Abeni | 20 | 0.41% | 1 | 1.39% |
| Eric Dumazet | 20 | 0.41% | 2 | 2.78% |
| Dan Carpenter | 6 | 0.12% | 2 | 2.78% |
| Venkat Yekkirala | 6 | 0.12% | 1 | 1.39% |
| George Guo | 4 | 0.08% | 1 | 1.39% |
| Casey Schaufler | 4 | 0.08% | 1 | 1.39% |
| Alexey Dobriyan | 4 | 0.08% | 1 | 1.39% |
| Thomas Gleixner | 3 | 0.06% | 1 | 1.39% |
| Wang Yufen | 3 | 0.06% | 1 | 1.39% |
| Dmitry Mastykin | 2 | 0.04% | 1 | 1.39% |
| Arun Sharma | 1 | 0.02% | 1 | 1.39% |
| Linus Torvalds | 1 | 0.02% | 1 | 1.39% |
| Janak Desai | 1 | 0.02% | 1 | 1.39% |
| Zheng Yongjun | 1 | 0.02% | 1 | 1.39% |
| Zhengchao Shao | 1 | 0.02% | 1 | 1.39% |
| Fabian Frederick | 1 | 0.02% | 1 | 1.39% |
| Total | 4895 | 72 |
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// SPDX-License-Identifier: GPL-2.0-or-later /* * NetLabel Kernel API * * This file defines the kernel API for the NetLabel system. The NetLabel * system manages static and dynamic label mappings for network protocols such * as CIPSO and RIPSO. * * Author: Paul Moore <paul@paul-moore.com> */ /* * (c) Copyright Hewlett-Packard Development Company, L.P., 2006, 2008 */ #include <linux/init.h> #include <linux/types.h> #include <linux/slab.h> #include <linux/audit.h> #include <linux/in.h> #include <linux/in6.h> #include <net/ip.h> #include <net/ipv6.h> #include <net/netlabel.h> #include <net/cipso_ipv4.h> #include <net/calipso.h> #include <asm/bug.h> #include <linux/atomic.h> #include "netlabel_domainhash.h" #include "netlabel_unlabeled.h" #include "netlabel_cipso_v4.h" #include "netlabel_calipso.h" #include "netlabel_user.h" #include "netlabel_mgmt.h" #include "netlabel_addrlist.h" /* * Configuration Functions */ /** * netlbl_cfg_map_del - Remove a NetLabel/LSM domain mapping * @domain: the domain mapping to remove * @family: address family * @addr: IP address * @mask: IP address mask * @audit_info: NetLabel audit information * * Description: * Removes a NetLabel/LSM domain mapping. A @domain value of NULL causes the * default domain mapping to be removed. Returns zero on success, negative * values on failure. * */ int netlbl_cfg_map_del(const char *domain, u16 family, const void *addr, const void *mask, struct netlbl_audit *audit_info) { if (addr == NULL && mask == NULL) { return netlbl_domhsh_remove(domain, family, audit_info); } else if (addr != NULL && mask != NULL) { switch (family) { case AF_INET: return netlbl_domhsh_remove_af4(domain, addr, mask, audit_info); #if IS_ENABLED(CONFIG_IPV6) case AF_INET6: return netlbl_domhsh_remove_af6(domain, addr, mask, audit_info); #endif /* IPv6 */ default: return -EPFNOSUPPORT; } } else return -EINVAL; } /** * netlbl_cfg_unlbl_map_add - Add a new unlabeled mapping * @domain: the domain mapping to add * @family: address family * @addr: IP address * @mask: IP address mask * @audit_info: NetLabel audit information * * Description: * Adds a new unlabeled NetLabel/LSM domain mapping. A @domain value of NULL * causes a new default domain mapping to be added. Returns zero on success, * negative values on failure. * */ int netlbl_cfg_unlbl_map_add(const char *domain, u16 family, const void *addr, const void *mask, struct netlbl_audit *audit_info) { int ret_val = -ENOMEM; struct netlbl_dom_map *entry; struct netlbl_domaddr_map *addrmap = NULL; struct netlbl_domaddr4_map *map4 = NULL; struct netlbl_domaddr6_map *map6 = NULL; entry = kzalloc(sizeof(*entry), GFP_ATOMIC); if (entry == NULL) return -ENOMEM; if (domain != NULL) { entry->domain = kstrdup(domain, GFP_ATOMIC); if (entry->domain == NULL) goto cfg_unlbl_map_add_failure; } entry->family = family; if (addr == NULL && mask == NULL) entry->def.type = NETLBL_NLTYPE_UNLABELED; else if (addr != NULL && mask != NULL) { addrmap = kzalloc(sizeof(*addrmap), GFP_ATOMIC); if (addrmap == NULL) goto cfg_unlbl_map_add_failure; INIT_LIST_HEAD(&addrmap->list4); INIT_LIST_HEAD(&addrmap->list6); switch (family) { case AF_INET: { const struct in_addr *addr4 = addr; const struct in_addr *mask4 = mask; map4 = kzalloc(sizeof(*map4), GFP_ATOMIC); if (map4 == NULL) goto cfg_unlbl_map_add_failure; map4->def.type = NETLBL_NLTYPE_UNLABELED; map4->list.addr = addr4->s_addr & mask4->s_addr; map4->list.mask = mask4->s_addr; map4->list.valid = 1; ret_val = netlbl_af4list_add(&map4->list, &addrmap->list4); if (ret_val != 0) goto cfg_unlbl_map_add_failure; break; } #if IS_ENABLED(CONFIG_IPV6) case AF_INET6: { const struct in6_addr *addr6 = addr; const struct in6_addr *mask6 = mask; map6 = kzalloc(sizeof(*map6), GFP_ATOMIC); if (map6 == NULL) goto cfg_unlbl_map_add_failure; map6->def.type = NETLBL_NLTYPE_UNLABELED; map6->list.addr = *addr6; map6->list.addr.s6_addr32[0] &= mask6->s6_addr32[0]; map6->list.addr.s6_addr32[1] &= mask6->s6_addr32[1]; map6->list.addr.s6_addr32[2] &= mask6->s6_addr32[2]; map6->list.addr.s6_addr32[3] &= mask6->s6_addr32[3]; map6->list.mask = *mask6; map6->list.valid = 1; ret_val = netlbl_af6list_add(&map6->list, &addrmap->list6); if (ret_val != 0) goto cfg_unlbl_map_add_failure; break; } #endif /* IPv6 */ default: goto cfg_unlbl_map_add_failure; } entry->def.addrsel = addrmap; entry->def.type = NETLBL_NLTYPE_ADDRSELECT; } else { ret_val = -EINVAL; goto cfg_unlbl_map_add_failure; } ret_val = netlbl_domhsh_add(entry, audit_info); if (ret_val != 0) goto cfg_unlbl_map_add_failure; return 0; cfg_unlbl_map_add_failure: kfree(entry->domain); kfree(entry); kfree(addrmap); kfree(map4); kfree(map6); return ret_val; } /** * netlbl_cfg_unlbl_static_add - Adds a new static label * @net: network namespace * @dev_name: interface name * @addr: IP address in network byte order (struct in[6]_addr) * @mask: address mask in network byte order (struct in[6]_addr) * @family: address family * @secid: LSM secid value for the entry * @audit_info: NetLabel audit information * * Description: * Adds a new NetLabel static label to be used when protocol provided labels * are not present on incoming traffic. If @dev_name is NULL then the default * interface will be used. Returns zero on success, negative values on failure. * */ int netlbl_cfg_unlbl_static_add(struct net *net, const char *dev_name, const void *addr, const void *mask, u16 family, u32 secid, struct netlbl_audit *audit_info) { u32 addr_len; switch (family) { case AF_INET: addr_len = sizeof(struct in_addr); break; #if IS_ENABLED(CONFIG_IPV6) case AF_INET6: addr_len = sizeof(struct in6_addr); break; #endif /* IPv6 */ default: return -EPFNOSUPPORT; } return netlbl_unlhsh_add(net, dev_name, addr, mask, addr_len, secid, audit_info); } /** * netlbl_cfg_unlbl_static_del - Removes an existing static label * @net: network namespace * @dev_name: interface name * @addr: IP address in network byte order (struct in[6]_addr) * @mask: address mask in network byte order (struct in[6]_addr) * @family: address family * @audit_info: NetLabel audit information * * Description: * Removes an existing NetLabel static label used when protocol provided labels * are not present on incoming traffic. If @dev_name is NULL then the default * interface will be used. Returns zero on success, negative values on failure. * */ int netlbl_cfg_unlbl_static_del(struct net *net, const char *dev_name, const void *addr, const void *mask, u16 family, struct netlbl_audit *audit_info) { u32 addr_len; switch (family) { case AF_INET: addr_len = sizeof(struct in_addr); break; #if IS_ENABLED(CONFIG_IPV6) case AF_INET6: addr_len = sizeof(struct in6_addr); break; #endif /* IPv6 */ default: return -EPFNOSUPPORT; } return netlbl_unlhsh_remove(net, dev_name, addr, mask, addr_len, audit_info); } /** * netlbl_cfg_cipsov4_add - Add a new CIPSOv4 DOI definition * @doi_def: CIPSO DOI definition * @audit_info: NetLabel audit information * * Description: * Add a new CIPSO DOI definition as defined by @doi_def. Returns zero on * success and negative values on failure. * */ int netlbl_cfg_cipsov4_add(struct cipso_v4_doi *doi_def, struct netlbl_audit *audit_info) { return cipso_v4_doi_add(doi_def, audit_info); } /** * netlbl_cfg_cipsov4_del - Remove an existing CIPSOv4 DOI definition * @doi: CIPSO DOI * @audit_info: NetLabel audit information * * Description: * Remove an existing CIPSO DOI definition matching @doi. Returns zero on * success and negative values on failure. * */ void netlbl_cfg_cipsov4_del(u32 doi, struct netlbl_audit *audit_info) { cipso_v4_doi_remove(doi, audit_info); } /** * netlbl_cfg_cipsov4_map_add - Add a new CIPSOv4 DOI mapping * @doi: the CIPSO DOI * @domain: the domain mapping to add * @addr: IP address * @mask: IP address mask * @audit_info: NetLabel audit information * * Description: * Add a new NetLabel/LSM domain mapping for the given CIPSO DOI to the NetLabel * subsystem. A @domain value of NULL adds a new default domain mapping. * Returns zero on success, negative values on failure. * */ int netlbl_cfg_cipsov4_map_add(u32 doi, const char *domain, const struct in_addr *addr, const struct in_addr *mask, struct netlbl_audit *audit_info) { int ret_val = -ENOMEM; struct cipso_v4_doi *doi_def; struct netlbl_dom_map *entry; struct netlbl_domaddr_map *addrmap = NULL; struct netlbl_domaddr4_map *addrinfo = NULL; doi_def = cipso_v4_doi_getdef(doi); if (doi_def == NULL) return -ENOENT; entry = kzalloc(sizeof(*entry), GFP_ATOMIC); if (entry == NULL) goto out_entry; entry->family = AF_INET; if (domain != NULL) { entry->domain = kstrdup(domain, GFP_ATOMIC); if (entry->domain == NULL) goto out_domain; } if (addr == NULL && mask == NULL) { entry->def.cipso = doi_def; entry->def.type = NETLBL_NLTYPE_CIPSOV4; } else if (addr != NULL && mask != NULL) { addrmap = kzalloc(sizeof(*addrmap), GFP_ATOMIC); if (addrmap == NULL) goto out_addrmap; INIT_LIST_HEAD(&addrmap->list4); INIT_LIST_HEAD(&addrmap->list6); addrinfo = kzalloc(sizeof(*addrinfo), GFP_ATOMIC); if (addrinfo == NULL) goto out_addrinfo; addrinfo->def.cipso = doi_def; addrinfo->def.type = NETLBL_NLTYPE_CIPSOV4; addrinfo->list.addr = addr->s_addr & mask->s_addr; addrinfo->list.mask = mask->s_addr; addrinfo->list.valid = 1; ret_val = netlbl_af4list_add(&addrinfo->list, &addrmap->list4); if (ret_val != 0) goto cfg_cipsov4_map_add_failure; entry->def.addrsel = addrmap; entry->def.type = NETLBL_NLTYPE_ADDRSELECT; } else { ret_val = -EINVAL; goto out_addrmap; } ret_val = netlbl_domhsh_add(entry, audit_info); if (ret_val != 0) goto cfg_cipsov4_map_add_failure; return 0; cfg_cipsov4_map_add_failure: kfree(addrinfo); out_addrinfo: kfree(addrmap); out_addrmap: kfree(entry->domain); out_domain: kfree(entry); out_entry: cipso_v4_doi_putdef(doi_def); return ret_val; } /** * netlbl_cfg_calipso_add - Add a new CALIPSO DOI definition * @doi_def: CALIPSO DOI definition * @audit_info: NetLabel audit information * * Description: * Add a new CALIPSO DOI definition as defined by @doi_def. Returns zero on * success and negative values on failure. * */ int netlbl_cfg_calipso_add(struct calipso_doi *doi_def, struct netlbl_audit *audit_info) { #if IS_ENABLED(CONFIG_IPV6) return calipso_doi_add(doi_def, audit_info); #else /* IPv6 */ return -ENOSYS; #endif /* IPv6 */ } /** * netlbl_cfg_calipso_del - Remove an existing CALIPSO DOI definition * @doi: CALIPSO DOI * @audit_info: NetLabel audit information * * Description: * Remove an existing CALIPSO DOI definition matching @doi. Returns zero on * success and negative values on failure. * */ void netlbl_cfg_calipso_del(u32 doi, struct netlbl_audit *audit_info) { #if IS_ENABLED(CONFIG_IPV6) calipso_doi_remove(doi, audit_info); #endif /* IPv6 */ } /** * netlbl_cfg_calipso_map_add - Add a new CALIPSO DOI mapping * @doi: the CALIPSO DOI * @domain: the domain mapping to add * @addr: IP address * @mask: IP address mask * @audit_info: NetLabel audit information * * Description: * Add a new NetLabel/LSM domain mapping for the given CALIPSO DOI to the * NetLabel subsystem. A @domain value of NULL adds a new default domain * mapping. Returns zero on success, negative values on failure. * */ int netlbl_cfg_calipso_map_add(u32 doi, const char *domain, const struct in6_addr *addr, const struct in6_addr *mask, struct netlbl_audit *audit_info) { #if IS_ENABLED(CONFIG_IPV6) int ret_val = -ENOMEM; struct calipso_doi *doi_def; struct netlbl_dom_map *entry; struct netlbl_domaddr_map *addrmap = NULL; struct netlbl_domaddr6_map *addrinfo = NULL; doi_def = calipso_doi_getdef(doi); if (doi_def == NULL) return -ENOENT; entry = kzalloc(sizeof(*entry), GFP_ATOMIC); if (entry == NULL) goto out_entry; entry->family = AF_INET6; if (domain != NULL) { entry->domain = kstrdup(domain, GFP_ATOMIC); if (entry->domain == NULL) goto out_domain; } if (addr == NULL && mask == NULL) { entry->def.calipso = doi_def; entry->def.type = NETLBL_NLTYPE_CALIPSO; } else if (addr != NULL && mask != NULL) { addrmap = kzalloc(sizeof(*addrmap), GFP_ATOMIC); if (addrmap == NULL) goto out_addrmap; INIT_LIST_HEAD(&addrmap->list4); INIT_LIST_HEAD(&addrmap->list6); addrinfo = kzalloc(sizeof(*addrinfo), GFP_ATOMIC); if (addrinfo == NULL) goto out_addrinfo; addrinfo->def.calipso = doi_def; addrinfo->def.type = NETLBL_NLTYPE_CALIPSO; addrinfo->list.addr = *addr; addrinfo->list.addr.s6_addr32[0] &= mask->s6_addr32[0]; addrinfo->list.addr.s6_addr32[1] &= mask->s6_addr32[1]; addrinfo->list.addr.s6_addr32[2] &= mask->s6_addr32[2]; addrinfo->list.addr.s6_addr32[3] &= mask->s6_addr32[3]; addrinfo->list.mask = *mask; addrinfo->list.valid = 1; ret_val = netlbl_af6list_add(&addrinfo->list, &addrmap->list6); if (ret_val != 0) goto cfg_calipso_map_add_failure; entry->def.addrsel = addrmap; entry->def.type = NETLBL_NLTYPE_ADDRSELECT; } else { ret_val = -EINVAL; goto out_addrmap; } ret_val = netlbl_domhsh_add(entry, audit_info); if (ret_val != 0) goto cfg_calipso_map_add_failure; return 0; cfg_calipso_map_add_failure: kfree(addrinfo); out_addrinfo: kfree(addrmap); out_addrmap: kfree(entry->domain); out_domain: kfree(entry); out_entry: calipso_doi_putdef(doi_def); return ret_val; #else /* IPv6 */ return -ENOSYS; #endif /* IPv6 */ } /* * Security Attribute Functions */ #define _CM_F_NONE 0x00000000 #define _CM_F_ALLOC 0x00000001 #define _CM_F_WALK 0x00000002 /** * _netlbl_catmap_getnode - Get a individual node from a catmap * @catmap: pointer to the category bitmap * @offset: the requested offset * @cm_flags: catmap flags, see _CM_F_* * @gfp_flags: memory allocation flags * * Description: * Iterate through the catmap looking for the node associated with @offset. * If the _CM_F_ALLOC flag is set in @cm_flags and there is no associated node, * one will be created and inserted into the catmap. If the _CM_F_WALK flag is * set in @cm_flags and there is no associated node, the next highest node will * be returned. Returns a pointer to the node on success, NULL on failure. * */ static struct netlbl_lsm_catmap *_netlbl_catmap_getnode( struct netlbl_lsm_catmap **catmap, u32 offset, unsigned int cm_flags, gfp_t gfp_flags) { struct netlbl_lsm_catmap *iter = *catmap; struct netlbl_lsm_catmap *prev = NULL; if (iter == NULL) goto catmap_getnode_alloc; if (offset < iter->startbit) goto catmap_getnode_walk; while (iter && offset >= (iter->startbit + NETLBL_CATMAP_SIZE)) { prev = iter; iter = iter->next; } if (iter == NULL || offset < iter->startbit) goto catmap_getnode_walk; return iter; catmap_getnode_walk: if (cm_flags & _CM_F_WALK) return iter; catmap_getnode_alloc: if (!(cm_flags & _CM_F_ALLOC)) return NULL; iter = netlbl_catmap_alloc(gfp_flags); if (iter == NULL) return NULL; iter->startbit = offset & ~(NETLBL_CATMAP_SIZE - 1); if (prev == NULL) { iter->next = *catmap; *catmap = iter; } else { iter->next = prev->next; prev->next = iter; } return iter; } /** * netlbl_catmap_walk - Walk a LSM secattr catmap looking for a bit * @catmap: the category bitmap * @offset: the offset to start searching at, in bits * * Description: * This function walks a LSM secattr category bitmap starting at @offset and * returns the spot of the first set bit or -ENOENT if no bits are set. * */ int netlbl_catmap_walk(struct netlbl_lsm_catmap *catmap, u32 offset) { struct netlbl_lsm_catmap *iter; u32 idx; u32 bit; u64 bitmap; iter = _netlbl_catmap_getnode(&catmap, offset, _CM_F_WALK, 0); if (iter == NULL) return -ENOENT; if (offset > iter->startbit) { offset -= iter->startbit; idx = offset / NETLBL_CATMAP_MAPSIZE; bit = offset % NETLBL_CATMAP_MAPSIZE; } else { idx = 0; bit = 0; } bitmap = iter->bitmap[idx] >> bit; for (;;) { if (bitmap != 0) { while ((bitmap & NETLBL_CATMAP_BIT) == 0) { bitmap >>= 1; bit++; } return iter->startbit + (NETLBL_CATMAP_MAPSIZE * idx) + bit; } if (++idx >= NETLBL_CATMAP_MAPCNT) { if (iter->next != NULL) { iter = iter->next; idx = 0; } else return -ENOENT; } bitmap = iter->bitmap[idx]; bit = 0; } return -ENOENT; } EXPORT_SYMBOL(netlbl_catmap_walk); /** * netlbl_catmap_walkrng - Find the end of a string of set bits * @catmap: the category bitmap * @offset: the offset to start searching at, in bits * * Description: * This function walks a LSM secattr category bitmap starting at @offset and * returns the spot of the first cleared bit or -ENOENT if the offset is past * the end of the bitmap. * */ int netlbl_catmap_walkrng(struct netlbl_lsm_catmap *catmap, u32 offset) { struct netlbl_lsm_catmap *iter; struct netlbl_lsm_catmap *prev = NULL; u32 idx; u32 bit; u64 bitmask; u64 bitmap; iter = _netlbl_catmap_getnode(&catmap, offset, _CM_F_WALK, 0); if (iter == NULL) return -ENOENT; if (offset > iter->startbit) { offset -= iter->startbit; idx = offset / NETLBL_CATMAP_MAPSIZE; bit = offset % NETLBL_CATMAP_MAPSIZE; } else { idx = 0; bit = 0; } bitmask = NETLBL_CATMAP_BIT << bit; for (;;) { bitmap = iter->bitmap[idx]; while (bitmask != 0 && (bitmap & bitmask) != 0) { bitmask <<= 1; bit++; } if (prev && idx == 0 && bit == 0) return prev->startbit + NETLBL_CATMAP_SIZE - 1; else if (bitmask != 0) return iter->startbit + (NETLBL_CATMAP_MAPSIZE * idx) + bit - 1; else if (++idx >= NETLBL_CATMAP_MAPCNT) { if (iter->next == NULL) return iter->startbit + NETLBL_CATMAP_SIZE - 1; prev = iter; iter = iter->next; idx = 0; } bitmask = NETLBL_CATMAP_BIT; bit = 0; } return -ENOENT; } /** * netlbl_catmap_getlong - Export an unsigned long bitmap * @catmap: pointer to the category bitmap * @offset: pointer to the requested offset * @bitmap: the exported bitmap * * Description: * Export a bitmap with an offset greater than or equal to @offset and return * it in @bitmap. The @offset must be aligned to an unsigned long and will be * updated on return if different from what was requested; if the catmap is * empty at the requested offset and beyond, the @offset is set to (u32)-1. * Returns zero on success, negative values on failure. * */ int netlbl_catmap_getlong(struct netlbl_lsm_catmap *catmap, u32 *offset, unsigned long *bitmap) { struct netlbl_lsm_catmap *iter; u32 off = *offset; u32 idx; /* only allow aligned offsets */ if ((off & (BITS_PER_LONG - 1)) != 0) return -EINVAL; /* a null catmap is equivalent to an empty one */ if (!catmap) { *offset = (u32)-1; return 0; } if (off < catmap->startbit) { off = catmap->startbit; *offset = off; } iter = _netlbl_catmap_getnode(&catmap, off, _CM_F_WALK, 0); if (iter == NULL) { *offset = (u32)-1; return 0; } if (off < iter->startbit) { *offset = iter->startbit; off = 0; } else off -= iter->startbit; idx = off / NETLBL_CATMAP_MAPSIZE; *bitmap = iter->bitmap[idx] >> (off % NETLBL_CATMAP_MAPSIZE); return 0; } /** * netlbl_catmap_setbit - Set a bit in a LSM secattr catmap * @catmap: pointer to the category bitmap * @bit: the bit to set * @flags: memory allocation flags * * Description: * Set the bit specified by @bit in @catmap. Returns zero on success, * negative values on failure. * */ int netlbl_catmap_setbit(struct netlbl_lsm_catmap **catmap, u32 bit, gfp_t flags) { struct netlbl_lsm_catmap *iter; u32 idx; iter = _netlbl_catmap_getnode(catmap, bit, _CM_F_ALLOC, flags); if (iter == NULL) return -ENOMEM; bit -= iter->startbit; idx = bit / NETLBL_CATMAP_MAPSIZE; iter->bitmap[idx] |= NETLBL_CATMAP_BIT << (bit % NETLBL_CATMAP_MAPSIZE); return 0; } EXPORT_SYMBOL(netlbl_catmap_setbit); /** * netlbl_catmap_setrng - Set a range of bits in a LSM secattr catmap * @catmap: pointer to the category bitmap * @start: the starting bit * @end: the last bit in the string * @flags: memory allocation flags * * Description: * Set a range of bits, starting at @start and ending with @end. Returns zero * on success, negative values on failure. * */ int netlbl_catmap_setrng(struct netlbl_lsm_catmap **catmap, u32 start, u32 end, gfp_t flags) { int rc = 0; u32 spot = start; while (rc == 0 && spot <= end) { if (((spot & (BITS_PER_LONG - 1)) == 0) && ((end - spot) > BITS_PER_LONG)) { rc = netlbl_catmap_setlong(catmap, spot, (unsigned long)-1, flags); spot += BITS_PER_LONG; } else rc = netlbl_catmap_setbit(catmap, spot++, flags); } return rc; } /** * netlbl_catmap_setlong - Import an unsigned long bitmap * @catmap: pointer to the category bitmap * @offset: offset to the start of the imported bitmap * @bitmap: the bitmap to import * @flags: memory allocation flags * * Description: * Import the bitmap specified in @bitmap into @catmap, using the offset * in @offset. The offset must be aligned to an unsigned long. Returns zero * on success, negative values on failure. * */ int netlbl_catmap_setlong(struct netlbl_lsm_catmap **catmap, u32 offset, unsigned long bitmap, gfp_t flags) { struct netlbl_lsm_catmap *iter; u32 idx; /* only allow aligned offsets */ if ((offset & (BITS_PER_LONG - 1)) != 0) return -EINVAL; iter = _netlbl_catmap_getnode(catmap, offset, _CM_F_ALLOC, flags); if (iter == NULL) return -ENOMEM; offset -= iter->startbit; idx = offset / NETLBL_CATMAP_MAPSIZE; iter->bitmap[idx] |= (u64)bitmap << (offset % NETLBL_CATMAP_MAPSIZE); return 0; } /* Bitmap functions */ /** * netlbl_bitmap_walk - Walk a bitmap looking for a bit * @bitmap: the bitmap * @bitmap_len: length in bits * @offset: starting offset * @state: if non-zero, look for a set (1) bit else look for a cleared (0) bit * * Description: * Starting at @offset, walk the bitmap from left to right until either the * desired bit is found or we reach the end. Return the bit offset, -1 if * not found. */ int netlbl_bitmap_walk(const unsigned char *bitmap, u32 bitmap_len, u32 offset, u8 state) { u32 bit_spot; u32 byte_offset; unsigned char bitmask; unsigned char byte; if (offset >= bitmap_len) return -1; byte_offset = offset / 8; byte = bitmap[byte_offset]; bit_spot = offset; bitmask = 0x80 >> (offset % 8); while (bit_spot < bitmap_len) { if ((state && (byte & bitmask) == bitmask) || (state == 0 && (byte & bitmask) == 0)) return bit_spot; if (++bit_spot >= bitmap_len) return -1; bitmask >>= 1; if (bitmask == 0) { byte = bitmap[++byte_offset]; bitmask = 0x80; } } return -1; } EXPORT_SYMBOL(netlbl_bitmap_walk); /** * netlbl_bitmap_setbit - Sets a single bit in a bitmap * @bitmap: the bitmap * @bit: the bit * @state: if non-zero, set the bit (1) else clear the bit (0) * * Description: * Set a single bit in the bitmask. Returns zero on success, negative values * on error. */ void netlbl_bitmap_setbit(unsigned char *bitmap, u32 bit, u8 state) { u32 byte_spot; u8 bitmask; /* gcc always rounds to zero when doing integer division */ byte_spot = bit / 8; bitmask = 0x80 >> (bit % 8); if (state) bitmap[byte_spot] |= bitmask; else bitmap[byte_spot] &= ~bitmask; } EXPORT_SYMBOL(netlbl_bitmap_setbit); /* * LSM Functions */ /** * netlbl_enabled - Determine if the NetLabel subsystem is enabled * * Description: * The LSM can use this function to determine if it should use NetLabel * security attributes in it's enforcement mechanism. Currently, NetLabel is * considered to be enabled when it's configuration contains a valid setup for * at least one labeled protocol (i.e. NetLabel can understand incoming * labeled packets of at least one type); otherwise NetLabel is considered to * be disabled. * */ int netlbl_enabled(void) { /* At some point we probably want to expose this mechanism to the user * as well so that admins can toggle NetLabel regardless of the * configuration */ return (atomic_read(&netlabel_mgmt_protocount) > 0); } /** * netlbl_sock_setattr - Label a socket using the correct protocol * @sk: the socket to label * @family: protocol family * @secattr: the security attributes * @sk_locked: true if caller holds the socket lock * * Description: * Attach the correct label to the given socket using the security attributes * specified in @secattr. This function requires exclusive access to @sk, * which means it either needs to be in the process of being created or locked. * Returns zero on success, -EDESTADDRREQ if the domain is configured to use * network address selectors (can't blindly label the socket), and negative * values on all other failures. * */ int netlbl_sock_setattr(struct sock *sk, u16 family, const struct netlbl_lsm_secattr *secattr, bool sk_locked) { int ret_val; struct netlbl_dom_map *dom_entry; rcu_read_lock(); dom_entry = netlbl_domhsh_getentry(secattr->domain, family); if (dom_entry == NULL) { ret_val = -ENOENT; goto socket_setattr_return; } switch (family) { case AF_INET: switch (dom_entry->def.type) { case NETLBL_NLTYPE_ADDRSELECT: ret_val = -EDESTADDRREQ; break; case NETLBL_NLTYPE_CIPSOV4: ret_val = cipso_v4_sock_setattr(sk, dom_entry->def.cipso, secattr, sk_locked); break; case NETLBL_NLTYPE_UNLABELED: ret_val = 0; break; default: ret_val = -ENOENT; } break; #if IS_ENABLED(CONFIG_IPV6) case AF_INET6: switch (dom_entry->def.type) { case NETLBL_NLTYPE_ADDRSELECT: ret_val = -EDESTADDRREQ; break; case NETLBL_NLTYPE_CALIPSO: ret_val = calipso_sock_setattr(sk, dom_entry->def.calipso, secattr); break; case NETLBL_NLTYPE_UNLABELED: ret_val = 0; break; default: ret_val = -ENOENT; } break; #endif /* IPv6 */ default: ret_val = -EPROTONOSUPPORT; } socket_setattr_return: rcu_read_unlock(); return ret_val; } /** * netlbl_sock_delattr - Delete all the NetLabel labels on a socket * @sk: the socket * * Description: * Remove all the NetLabel labeling from @sk. The caller is responsible for * ensuring that @sk is locked. * */ void netlbl_sock_delattr(struct sock *sk) { switch (sk->sk_family) { case AF_INET: cipso_v4_sock_delattr(sk); break; #if IS_ENABLED(CONFIG_IPV6) case AF_INET6: calipso_sock_delattr(sk); break; #endif /* IPv6 */ } } /** * netlbl_sock_getattr - Determine the security attributes of a sock * @sk: the sock * @secattr: the security attributes * * Description: * Examines the given sock to see if any NetLabel style labeling has been * applied to the sock, if so it parses the socket label and returns the * security attributes in @secattr. Returns zero on success, negative values * on failure. * */ int netlbl_sock_getattr(struct sock *sk, struct netlbl_lsm_secattr *secattr) { int ret_val; switch (sk->sk_family) { case AF_INET: ret_val = cipso_v4_sock_getattr(sk, secattr); break; #if IS_ENABLED(CONFIG_IPV6) case AF_INET6: ret_val = calipso_sock_getattr(sk, secattr); break; #endif /* IPv6 */ default: ret_val = -EPROTONOSUPPORT; } return ret_val; } /** * netlbl_sk_lock_check - Check if the socket lock has been acquired. * @sk: the socket to be checked * * Return: true if socket @sk is locked or if lock debugging is disabled at * runtime or compile-time; false otherwise * */ #ifdef CONFIG_LOCKDEP bool netlbl_sk_lock_check(struct sock *sk) { if (debug_locks) return lockdep_sock_is_held(sk); return true; } #else bool netlbl_sk_lock_check(struct sock *sk) { return true; } #endif /** * netlbl_conn_setattr - Label a connected socket using the correct protocol * @sk: the socket to label * @addr: the destination address * @secattr: the security attributes * * Description: * Attach the correct label to the given connected socket using the security * attributes specified in @secattr. The caller is responsible for ensuring * that @sk is locked. Returns zero on success, negative values on failure. * */ int netlbl_conn_setattr(struct sock *sk, struct sockaddr *addr, const struct netlbl_lsm_secattr *secattr) { int ret_val; struct sockaddr_in *addr4; #if IS_ENABLED(CONFIG_IPV6) struct sockaddr_in6 *addr6; #endif struct netlbl_dommap_def *entry; rcu_read_lock(); switch (addr->sa_family) { case AF_INET: addr4 = (struct sockaddr_in *)addr; entry = netlbl_domhsh_getentry_af4(secattr->domain, addr4->sin_addr.s_addr); if (entry == NULL) { ret_val = -ENOENT; goto conn_setattr_return; } switch (entry->type) { case NETLBL_NLTYPE_CIPSOV4: ret_val = cipso_v4_sock_setattr(sk, entry->cipso, secattr, netlbl_sk_lock_check(sk)); break; case NETLBL_NLTYPE_UNLABELED: /* just delete the protocols we support for right now * but we could remove other protocols if needed */ netlbl_sock_delattr(sk); ret_val = 0; break; default: ret_val = -ENOENT; } break; #if IS_ENABLED(CONFIG_IPV6) case AF_INET6: addr6 = (struct sockaddr_in6 *)addr; entry = netlbl_domhsh_getentry_af6(secattr->domain, &addr6->sin6_addr); if (entry == NULL) { ret_val = -ENOENT; goto conn_setattr_return; } switch (entry->type) { case NETLBL_NLTYPE_CALIPSO: ret_val = calipso_sock_setattr(sk, entry->calipso, secattr); break; case NETLBL_NLTYPE_UNLABELED: /* just delete the protocols we support for right now * but we could remove other protocols if needed */ netlbl_sock_delattr(sk); ret_val = 0; break; default: ret_val = -ENOENT; } break; #endif /* IPv6 */ default: ret_val = -EPROTONOSUPPORT; } conn_setattr_return: rcu_read_unlock(); return ret_val; } /** * netlbl_req_setattr - Label a request socket using the correct protocol * @req: the request socket to label * @secattr: the security attributes * * Description: * Attach the correct label to the given socket using the security attributes * specified in @secattr. Returns zero on success, negative values on failure. * */ int netlbl_req_setattr(struct request_sock *req, const struct netlbl_lsm_secattr *secattr) { int ret_val; struct netlbl_dommap_def *entry; struct inet_request_sock *ireq = inet_rsk(req); rcu_read_lock(); switch (req->rsk_ops->family) { case AF_INET: entry = netlbl_domhsh_getentry_af4(secattr->domain, ireq->ir_rmt_addr); if (entry == NULL) { ret_val = -ENOENT; goto req_setattr_return; } switch (entry->type) { case NETLBL_NLTYPE_CIPSOV4: ret_val = cipso_v4_req_setattr(req, entry->cipso, secattr); break; case NETLBL_NLTYPE_UNLABELED: netlbl_req_delattr(req); ret_val = 0; break; default: ret_val = -ENOENT; } break; #if IS_ENABLED(CONFIG_IPV6) case AF_INET6: entry = netlbl_domhsh_getentry_af6(secattr->domain, &ireq->ir_v6_rmt_addr); if (entry == NULL) { ret_val = -ENOENT; goto req_setattr_return; } switch (entry->type) { case NETLBL_NLTYPE_CALIPSO: ret_val = calipso_req_setattr(req, entry->calipso, secattr); break; case NETLBL_NLTYPE_UNLABELED: netlbl_req_delattr(req); ret_val = 0; break; default: ret_val = -ENOENT; } break; #endif /* IPv6 */ default: ret_val = -EPROTONOSUPPORT; } req_setattr_return: rcu_read_unlock(); return ret_val; } /** * netlbl_req_delattr - Delete all the NetLabel labels on a socket * @req: the socket * * Description: * Remove all the NetLabel labeling from @req. * */ void netlbl_req_delattr(struct request_sock *req) { switch (req->rsk_ops->family) { case AF_INET: cipso_v4_req_delattr(req); break; #if IS_ENABLED(CONFIG_IPV6) case AF_INET6: calipso_req_delattr(req); break; #endif /* IPv6 */ } } /** * netlbl_skbuff_setattr - Label a packet using the correct protocol * @skb: the packet * @family: protocol family * @secattr: the security attributes * * Description: * Attach the correct label to the given packet using the security attributes * specified in @secattr. Returns zero on success, negative values on failure. * */ int netlbl_skbuff_setattr(struct sk_buff *skb, u16 family, const struct netlbl_lsm_secattr *secattr) { int ret_val; struct iphdr *hdr4; #if IS_ENABLED(CONFIG_IPV6) struct ipv6hdr *hdr6; #endif struct netlbl_dommap_def *entry; rcu_read_lock(); switch (family) { case AF_INET: hdr4 = ip_hdr(skb); entry = netlbl_domhsh_getentry_af4(secattr->domain, hdr4->daddr); if (entry == NULL) { ret_val = -ENOENT; goto skbuff_setattr_return; } switch (entry->type) { case NETLBL_NLTYPE_CIPSOV4: ret_val = cipso_v4_skbuff_setattr(skb, entry->cipso, secattr); break; case NETLBL_NLTYPE_UNLABELED: /* just delete the protocols we support for right now * but we could remove other protocols if needed */ ret_val = cipso_v4_skbuff_delattr(skb); break; default: ret_val = -ENOENT; } break; #if IS_ENABLED(CONFIG_IPV6) case AF_INET6: hdr6 = ipv6_hdr(skb); entry = netlbl_domhsh_getentry_af6(secattr->domain, &hdr6->daddr); if (entry == NULL) { ret_val = -ENOENT; goto skbuff_setattr_return; } switch (entry->type) { case NETLBL_NLTYPE_CALIPSO: ret_val = calipso_skbuff_setattr(skb, entry->calipso, secattr); break; case NETLBL_NLTYPE_UNLABELED: /* just delete the protocols we support for right now * but we could remove other protocols if needed */ ret_val = calipso_skbuff_delattr(skb); break; default: ret_val = -ENOENT; } break; #endif /* IPv6 */ default: ret_val = -EPROTONOSUPPORT; } skbuff_setattr_return: rcu_read_unlock(); return ret_val; } /** * netlbl_skbuff_getattr - Determine the security attributes of a packet * @skb: the packet * @family: protocol family * @secattr: the security attributes * * Description: * Examines the given packet to see if a recognized form of packet labeling * is present, if so it parses the packet label and returns the security * attributes in @secattr. Returns zero on success, negative values on * failure. * */ int netlbl_skbuff_getattr(const struct sk_buff *skb, u16 family, struct netlbl_lsm_secattr *secattr) { unsigned char *ptr; switch (family) { case AF_INET: ptr = cipso_v4_optptr(skb); if (ptr && cipso_v4_getattr(ptr, secattr) == 0) return 0; break; #if IS_ENABLED(CONFIG_IPV6) case AF_INET6: ptr = calipso_optptr(skb); if (ptr && calipso_getattr(ptr, secattr) == 0) return 0; break; #endif /* IPv6 */ } return netlbl_unlabel_getattr(skb, family, secattr); } /** * netlbl_skbuff_err - Handle a LSM error on a sk_buff * @skb: the packet * @family: the family * @error: the error code * @gateway: true if host is acting as a gateway, false otherwise * * Description: * Deal with a LSM problem when handling the packet in @skb, typically this is * a permission denied problem (-EACCES). The correct action is determined * according to the packet's labeling protocol. * */ void netlbl_skbuff_err(struct sk_buff *skb, u16 family, int error, int gateway) { switch (family) { case AF_INET: if (cipso_v4_optptr(skb)) cipso_v4_error(skb, error, gateway); break; } } /** * netlbl_cache_invalidate - Invalidate all of the NetLabel protocol caches * * Description: * For all of the NetLabel protocols that support some form of label mapping * cache, invalidate the cache. Returns zero on success, negative values on * error. * */ void netlbl_cache_invalidate(void) { cipso_v4_cache_invalidate(); #if IS_ENABLED(CONFIG_IPV6) calipso_cache_invalidate(); #endif /* IPv6 */ } /** * netlbl_cache_add - Add an entry to a NetLabel protocol cache * @skb: the packet * @family: the family * @secattr: the packet's security attributes * * Description: * Add the LSM security attributes for the given packet to the underlying * NetLabel protocol's label mapping cache. Returns zero on success, negative * values on error. * */ int netlbl_cache_add(const struct sk_buff *skb, u16 family, const struct netlbl_lsm_secattr *secattr) { unsigned char *ptr; if ((secattr->flags & NETLBL_SECATTR_CACHE) == 0) return -ENOMSG; switch (family) { case AF_INET: ptr = cipso_v4_optptr(skb); if (ptr) return cipso_v4_cache_add(ptr, secattr); break; #if IS_ENABLED(CONFIG_IPV6) case AF_INET6: ptr = calipso_optptr(skb); if (ptr) return calipso_cache_add(ptr, secattr); break; #endif /* IPv6 */ } return -ENOMSG; } /* * Protocol Engine Functions */ /** * netlbl_audit_start - Start an audit message * @type: audit message type * @audit_info: NetLabel audit information * * Description: * Start an audit message using the type specified in @type and fill the audit * message with some fields common to all NetLabel audit messages. This * function should only be used by protocol engines, not LSMs. Returns a * pointer to the audit buffer on success, NULL on failure. * */ struct audit_buffer *netlbl_audit_start(int type, struct netlbl_audit *audit_info) { return netlbl_audit_start_common(type, audit_info); } EXPORT_SYMBOL(netlbl_audit_start); /* * Setup Functions */ /** * netlbl_init - Initialize NetLabel * * Description: * Perform the required NetLabel initialization before first use. * */ static int __init netlbl_init(void) { int ret_val; printk(KERN_INFO "NetLabel: Initializing\n"); printk(KERN_INFO "NetLabel: domain hash size = %u\n", (1 << NETLBL_DOMHSH_BITSIZE)); printk(KERN_INFO "NetLabel: protocols = UNLABELED CIPSOv4 CALIPSO\n"); ret_val = netlbl_domhsh_init(NETLBL_DOMHSH_BITSIZE); if (ret_val != 0) goto init_failure; ret_val = netlbl_unlabel_init(NETLBL_UNLHSH_BITSIZE); if (ret_val != 0) goto init_failure; ret_val = netlbl_netlink_init(); if (ret_val != 0) goto init_failure; ret_val = netlbl_unlabel_defconf(); if (ret_val != 0) goto init_failure; printk(KERN_INFO "NetLabel: unlabeled traffic allowed by default\n"); return 0; init_failure: panic("NetLabel: failed to initialize properly (%d)\n", ret_val); } subsys_initcall(netlbl_init);
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