X-Git-Url: https://git.saurik.com/apple/xnu.git/blobdiff_plain/d7e50217d7adf6e52786a38bcaa4cd698cb9a79e..e2fac8b15b12a7979f72090454d850e612fc5b13:/bsd/kern/ubc_subr.c?ds=sidebyside diff --git a/bsd/kern/ubc_subr.c b/bsd/kern/ubc_subr.c index d5154c5d8..df8047ea8 100644 --- a/bsd/kern/ubc_subr.c +++ b/bsd/kern/ubc_subr.c @@ -1,16 +1,19 @@ /* - * Copyright (c) 1999-2002 Apple Computer, Inc. All rights reserved. + * Copyright (c) 1999-2008 Apple Inc. All rights reserved. * - * @APPLE_LICENSE_HEADER_START@ - * - * Copyright (c) 1999-2003 Apple Computer, Inc. All Rights Reserved. + * @APPLE_OSREFERENCE_LICENSE_HEADER_START@ * * This file contains Original Code and/or Modifications of Original Code * as defined in and that are subject to the Apple Public Source License * Version 2.0 (the 'License'). You may not use this file except in - * compliance with the License. Please obtain a copy of the License at - * http://www.opensource.apple.com/apsl/ and read it before using this - * file. + * compliance with the License. The rights granted to you under the License + * may not be used to create, or enable the creation or redistribution of, + * unlawful or unlicensed copies of an Apple operating system, or to + * circumvent, violate, or enable the circumvention or violation of, any + * terms of an Apple operating system software license agreement. + * + * Please obtain a copy of the License at + * http://www.opensource.apple.com/apsl/ and read it before using this file. * * The Original Code and all software distributed under the License are * distributed on an 'AS IS' basis, WITHOUT WARRANTY OF ANY KIND, EITHER @@ -20,7 +23,7 @@ * Please see the License for the specific language governing rights and * limitations under the License. * - * @APPLE_LICENSE_HEADER_END@ + * @APPLE_OSREFERENCE_LICENSE_HEADER_END@ */ /* * File: ubc_subr.c @@ -33,200 +36,389 @@ * */ -#undef DIAGNOSTIC -#define DIAGNOSTIC 1 - #include #include #include #include -#include -#include -#include -#include +#include +#include +#include +#include #include -#include +#include +#include #include +#include +#include #include #include +#include +#include +#include +#include +#include #include +#include +#include +#include /* last */ + +#include + +#include + +/* XXX These should be in a BSD accessible Mach header, but aren't. */ +extern kern_return_t memory_object_pages_resident(memory_object_control_t, + boolean_t *); +extern kern_return_t memory_object_signed(memory_object_control_t control, + boolean_t is_signed); +extern void Debugger(const char *message); + + +/* XXX no one uses this interface! */ +kern_return_t ubc_page_op_with_control( + memory_object_control_t control, + off_t f_offset, + int ops, + ppnum_t *phys_entryp, + int *flagsp); + #if DIAGNOSTIC #if defined(assert) #undef assert() #endif #define assert(cond) \ - ((void) ((cond) ? 0 : panic("%s:%d (%s)", __FILE__, __LINE__, # cond))) + ((void) ((cond) ? 0 : panic("Assert failed: %s", # cond))) #else #include #endif /* DIAGNOSTIC */ +static int ubc_info_init_internal(struct vnode *vp, int withfsize, off_t filesize); +static int ubc_umcallback(vnode_t, void *); +static int ubc_msync_internal(vnode_t, off_t, off_t, off_t *, int, int *); +static void ubc_cs_free(struct ubc_info *uip); + struct zone *ubc_info_zone; -/* lock for changes to struct UBC */ -static __inline__ void -ubc_lock(struct vnode *vp) -{ - /* For now, just use the v_interlock */ - simple_lock(&vp->v_interlock); -} -/* unlock */ -static __inline__ void -ubc_unlock(struct vnode *vp) +/* + * CODESIGNING + * Routines to navigate code signing data structures in the kernel... + */ +static boolean_t +cs_valid_range( + const void *start, + const void *end, + const void *lower_bound, + const void *upper_bound) { - /* For now, just use the v_interlock */ - simple_unlock(&vp->v_interlock); + if (upper_bound < lower_bound || + end < start) { + return FALSE; + } + + if (start < lower_bound || + end > upper_bound) { + return FALSE; + } + + return TRUE; } /* - * Serialize the requests to the VM - * Returns: - * 0 - Failure - * 1 - Sucessful in acquiring the lock - * 2 - Sucessful in acquiring the lock recursively - * do not call ubc_unbusy() - * [This is strange, but saves 4 bytes in struct ubc_info] + * Magic numbers used by Code Signing */ -static int -ubc_busy(struct vnode *vp) -{ - register struct ubc_info *uip; +enum { + CSMAGIC_REQUIREMENT = 0xfade0c00, /* single Requirement blob */ + CSMAGIC_REQUIREMENTS = 0xfade0c01, /* Requirements vector (internal requirements) */ + CSMAGIC_CODEDIRECTORY = 0xfade0c02, /* CodeDirectory blob */ + CSMAGIC_EMBEDDED_SIGNATURE = 0xfade0cc0, /* embedded form of signature data */ + CSMAGIC_EMBEDDED_SIGNATURE_OLD = 0xfade0b02, /* XXX */ + CSMAGIC_DETACHED_SIGNATURE = 0xfade0cc1, /* multi-arch collection of embedded signatures */ + + CSSLOT_CODEDIRECTORY = 0, /* slot index for CodeDirectory */ +}; - if (!UBCINFOEXISTS(vp)) - return (0); - uip = vp->v_ubcinfo; +/* + * Structure of an embedded-signature SuperBlob + */ +typedef struct __BlobIndex { + uint32_t type; /* type of entry */ + uint32_t offset; /* offset of entry */ +} CS_BlobIndex; + +typedef struct __SuperBlob { + uint32_t magic; /* magic number */ + uint32_t length; /* total length of SuperBlob */ + uint32_t count; /* number of index entries following */ + CS_BlobIndex index[]; /* (count) entries */ + /* followed by Blobs in no particular order as indicated by offsets in index */ +} CS_SuperBlob; - while (ISSET(uip->ui_flags, UI_BUSY)) { - if (uip->ui_owner == (void *)current_thread()) - return (2); +/* + * C form of a CodeDirectory. + */ +typedef struct __CodeDirectory { + uint32_t magic; /* magic number (CSMAGIC_CODEDIRECTORY) */ + uint32_t length; /* total length of CodeDirectory blob */ + uint32_t version; /* compatibility version */ + uint32_t flags; /* setup and mode flags */ + uint32_t hashOffset; /* offset of hash slot element at index zero */ + uint32_t identOffset; /* offset of identifier string */ + uint32_t nSpecialSlots; /* number of special hash slots */ + uint32_t nCodeSlots; /* number of ordinary (code) hash slots */ + uint32_t codeLimit; /* limit to main image signature range */ + uint8_t hashSize; /* size of each hash in bytes */ + uint8_t hashType; /* type of hash (cdHashType* constants) */ + uint8_t spare1; /* unused (must be zero) */ + uint8_t pageSize; /* log2(page size in bytes); 0 => infinite */ + uint32_t spare2; /* unused (must be zero) */ + /* followed by dynamic content as located by offset fields above */ +} CS_CodeDirectory; - SET(uip->ui_flags, UI_WANTED); - (void) tsleep((caddr_t)&vp->v_ubcinfo, PINOD, "ubcbusy", 0); - if (!UBCINFOEXISTS(vp)) - return (0); - } - uip->ui_owner = (void *)current_thread(); +/* + * Locate the CodeDirectory from an embedded signature blob + */ +static const +CS_CodeDirectory *findCodeDirectory( + const CS_SuperBlob *embedded, + char *lower_bound, + char *upper_bound) +{ + const CS_CodeDirectory *cd = NULL; + + if (embedded && + cs_valid_range(embedded, embedded + 1, lower_bound, upper_bound) && + ntohl(embedded->magic) == CSMAGIC_EMBEDDED_SIGNATURE) { + const CS_BlobIndex *limit; + const CS_BlobIndex *p; + + limit = &embedded->index[ntohl(embedded->count)]; + if (!cs_valid_range(&embedded->index[0], limit, + lower_bound, upper_bound)) { + return NULL; + } + for (p = embedded->index; p < limit; ++p) { + if (ntohl(p->type) == CSSLOT_CODEDIRECTORY) { + const unsigned char *base; - SET(uip->ui_flags, UI_BUSY); + base = (const unsigned char *)embedded; + cd = (const CS_CodeDirectory *)(base + ntohl(p->offset)); + break; + } + } + } else { + /* + * Detached signatures come as a bare CS_CodeDirectory, + * without a blob. + */ + cd = (const CS_CodeDirectory *) embedded; + } + if (cd && + cs_valid_range(cd, cd + 1, lower_bound, upper_bound) && + cs_valid_range(cd, (const char *) cd + ntohl(cd->length), + lower_bound, upper_bound) && + cs_valid_range(cd, (const char *) cd + ntohl(cd->hashOffset), + lower_bound, upper_bound) && + cs_valid_range(cd, (const char *) cd + + ntohl(cd->hashOffset) + + (ntohl(cd->nCodeSlots) * SHA1_RESULTLEN), + lower_bound, upper_bound) && + + ntohl(cd->magic) == CSMAGIC_CODEDIRECTORY) { + return cd; + } - return (1); + // not found or not a valid code directory + return NULL; } -static void -ubc_unbusy(struct vnode *vp) -{ - register struct ubc_info *uip; - if (!UBCINFOEXISTS(vp)) { - wakeup((caddr_t)&vp->v_ubcinfo); - return; +/* + * Locating a page hash + */ +static const unsigned char * +hashes( + const CS_CodeDirectory *cd, + unsigned page, + char *lower_bound, + char *upper_bound) +{ + const unsigned char *base, *top, *hash; + uint32_t nCodeSlots; + + assert(cs_valid_range(cd, cd + 1, lower_bound, upper_bound)); + + base = (const unsigned char *)cd + ntohl(cd->hashOffset); + nCodeSlots = ntohl(cd->nCodeSlots); + top = base + nCodeSlots * SHA1_RESULTLEN; + if (!cs_valid_range(base, top, + lower_bound, upper_bound) || + page > nCodeSlots) { + return NULL; } - uip = vp->v_ubcinfo; - CLR(uip->ui_flags, UI_BUSY); - uip->ui_owner = (void *)NULL; + assert(page < nCodeSlots); - if (ISSET(uip->ui_flags, UI_WANTED)) { - CLR(uip->ui_flags, UI_WANTED); - wakeup((caddr_t)&vp->v_ubcinfo); + hash = base + page * SHA1_RESULTLEN; + if (!cs_valid_range(hash, hash + SHA1_RESULTLEN, + lower_bound, upper_bound)) { + hash = NULL; } + + return hash; } +/* + * CODESIGNING + * End of routines to navigate code signing data structures in the kernel. + */ + /* - * Initialization of the zone for Unified Buffer Cache. + * ubc_init + * + * Initialization of the zone for Unified Buffer Cache. + * + * Parameters: (void) + * + * Returns: (void) + * + * Implicit returns: + * ubc_info_zone(global) initialized for subsequent allocations */ __private_extern__ void -ubc_init() +ubc_init(void) { int i; i = (vm_size_t) sizeof (struct ubc_info); - /* XXX the number of elements should be tied in to maxvnodes */ + ubc_info_zone = zinit (i, 10000*i, 8192, "ubc_info zone"); - return; } + /* - * Initialize a ubc_info structure for a vnode. + * ubc_info_init + * + * Allocate and attach an empty ubc_info structure to a vnode + * + * Parameters: vp Pointer to the vnode + * + * Returns: 0 Success + * vnode_size:ENOMEM Not enough space + * vnode_size:??? Other error from vnode_getattr + * */ int ubc_info_init(struct vnode *vp) +{ + return(ubc_info_init_internal(vp, 0, 0)); +} + + +/* + * ubc_info_init_withsize + * + * Allocate and attach a sized ubc_info structure to a vnode + * + * Parameters: vp Pointer to the vnode + * filesize The size of the file + * + * Returns: 0 Success + * vnode_size:ENOMEM Not enough space + * vnode_size:??? Other error from vnode_getattr + */ +int +ubc_info_init_withsize(struct vnode *vp, off_t filesize) +{ + return(ubc_info_init_internal(vp, 1, filesize)); +} + + +/* + * ubc_info_init_internal + * + * Allocate and attach a ubc_info structure to a vnode + * + * Parameters: vp Pointer to the vnode + * withfsize{0,1} Zero if the size should be obtained + * from the vnode; otherwise, use filesize + * filesize The size of the file, if withfsize == 1 + * + * Returns: 0 Success + * vnode_size:ENOMEM Not enough space + * vnode_size:??? Other error from vnode_getattr + * + * Notes: We call a blocking zalloc(), and the zone was created as an + * expandable and collectable zone, so if no memory is available, + * it is possible for zalloc() to block indefinitely. zalloc() + * may also panic if the zone of zones is exhausted, since it's + * NOT expandable. + * + * We unconditionally call vnode_pager_setup(), even if this is + * a reuse of a ubc_info; in that case, we should probably assert + * that it does not already have a pager association, but do not. + * + * Since memory_object_create_named() can only fail from receiving + * an invalid pager argument, the explicit check and panic is + * merely precautionary. + */ +static int +ubc_info_init_internal(vnode_t vp, int withfsize, off_t filesize) { register struct ubc_info *uip; void * pager; - struct vattr vattr; - struct proc *p = current_proc(); int error = 0; kern_return_t kret; memory_object_control_t control; - if (!UBCISVALID(vp)) - return (EINVAL); + uip = vp->v_ubcinfo; - ubc_lock(vp); - if (ISSET(vp->v_flag, VUINIT)) { - /* - * other thread is already doing this - * wait till done - */ - while (ISSET(vp->v_flag, VUINIT)) { - SET(vp->v_flag, VUWANT); /* XXX overloaded! */ - ubc_unlock(vp); - (void) tsleep((caddr_t)vp, PINOD, "ubcinfo", 0); - ubc_lock(vp); - } - ubc_unlock(vp); - return (0); - } else { - SET(vp->v_flag, VUINIT); - } + /* + * If there is not already a ubc_info attached to the vnode, we + * attach one; otherwise, we will reuse the one that's there. + */ + if (uip == UBC_INFO_NULL) { - uip = vp->v_ubcinfo; - if ((uip == UBC_INFO_NULL) || (uip == UBC_NOINFO)) { - ubc_unlock(vp); uip = (struct ubc_info *) zalloc(ubc_info_zone); - uip->ui_pager = MEMORY_OBJECT_NULL; - uip->ui_control = MEMORY_OBJECT_CONTROL_NULL; - uip->ui_flags = UI_INITED; + bzero((char *)uip, sizeof(struct ubc_info)); + uip->ui_vnode = vp; + uip->ui_flags = UI_INITED; uip->ui_ucred = NOCRED; - uip->ui_refcount = 1; - uip->ui_size = 0; - uip->ui_mapped = 0; - uip->ui_owner = (void *)NULL; - ubc_lock(vp); } -#if DIAGNOSTIC - else - Debugger("ubc_info_init: already"); -#endif /* DIAGNOSTIC */ - assert(uip->ui_flags != UI_NONE); assert(uip->ui_vnode == vp); -#if 0 - if(ISSET(uip->ui_flags, UI_HASPAGER)) - goto done; -#endif /* 0 */ - /* now set this ubc_info in the vnode */ vp->v_ubcinfo = uip; - SET(uip->ui_flags, UI_HASPAGER); - ubc_unlock(vp); + + /* + * Allocate a pager object for this vnode + * + * XXX The value of the pager parameter is currently ignored. + * XXX Presumably, this API changed to avoid the race between + * XXX setting the pager and the UI_HASPAGER flag. + */ pager = (void *)vnode_pager_setup(vp, uip->ui_pager); assert(pager); - ubc_setpager(vp, pager); /* - * Note: We can not use VOP_GETATTR() to get accurate - * value of ui_size. Thanks to NFS. - * nfs_getattr() can call vinvalbuf() and in this case - * ubc_info is not set up to deal with that. + * Explicitly set the pager into the ubc_info, after setting the + * UI_HASPAGER flag. + */ + SET(uip->ui_flags, UI_HASPAGER); + uip->ui_pager = pager; + + /* + * Note: We can not use VNOP_GETATTR() to get accurate + * value of ui_size because this may be an NFS vnode, and + * nfs_getattr() can call vinvalbuf(); if this happens, + * ubc_info is not set up to deal with that event. * So use bogus size. */ @@ -247,70 +439,91 @@ ubc_info_init(struct vnode *vp) assert(control); uip->ui_control = control; /* cache the value of the mo control */ SET(uip->ui_flags, UI_HASOBJREF); /* with a named reference */ - /* create a pager reference on the vnode */ - error = vnode_pager_vget(vp); - if (error) - panic("ubc_info_init: vnode_pager_vget error = %d", error); - - /* initialize the size */ - error = VOP_GETATTR(vp, &vattr, p->p_ucred, p); - - ubc_lock(vp); - uip->ui_size = (error ? 0: vattr.va_size); - -done: - CLR(vp->v_flag, VUINIT); - if (ISSET(vp->v_flag, VUWANT)) { - CLR(vp->v_flag, VUWANT); - ubc_unlock(vp); - wakeup((caddr_t)vp); - } else - ubc_unlock(vp); + + if (withfsize == 0) { + /* initialize the size */ + error = vnode_size(vp, &uip->ui_size, vfs_context_current()); + if (error) + uip->ui_size = 0; + } else { + uip->ui_size = filesize; + } + vp->v_lflag |= VNAMED_UBC; /* vnode has a named ubc reference */ return (error); } -/* Free the ubc_info */ + +/* + * ubc_info_free + * + * Free a ubc_info structure + * + * Parameters: uip A pointer to the ubc_info to free + * + * Returns: (void) + * + * Notes: If there is a credential that has subsequently been associated + * with the ubc_info via a call to ubc_setcred(), the reference + * to the credential is dropped. + * + * It's actually impossible for a ubc_info.ui_control to take the + * value MEMORY_OBJECT_CONTROL_NULL. + */ static void ubc_info_free(struct ubc_info *uip) { - struct ucred *credp; - - credp = uip->ui_ucred; - if (credp != NOCRED) { - uip->ui_ucred = NOCRED; - crfree(credp); + if (IS_VALID_CRED(uip->ui_ucred)) { + kauth_cred_unref(&uip->ui_ucred); } if (uip->ui_control != MEMORY_OBJECT_CONTROL_NULL) memory_object_control_deallocate(uip->ui_control); + + cluster_release(uip); + ubc_cs_free(uip); - zfree(ubc_info_zone, (vm_offset_t)uip); + zfree(ubc_info_zone, uip); return; } + void ubc_info_deallocate(struct ubc_info *uip) { - - assert(uip->ui_refcount > 0); - - if (uip->ui_refcount-- == 1) { - struct vnode *vp; - - vp = uip->ui_vnode; - if (ISSET(uip->ui_flags, UI_WANTED)) { - CLR(uip->ui_flags, UI_WANTED); - wakeup((caddr_t)&vp->v_ubcinfo); - } - - ubc_info_free(uip); - } + ubc_info_free(uip); } + /* - * Communicate with VM the size change of the file - * returns 1 on success, 0 on failure + * ubc_setsize + * + * Tell the VM that the the size of the file represented by the vnode has + * changed + * + * Parameters: vp The vp whose backing file size is + * being changed + * nsize The new size of the backing file + * + * Returns: 1 Success + * 0 Failure + * + * Notes: This function will indicate failure if the new size that's + * being attempted to be set is negative. + * + * This function will fail if there is no ubc_info currently + * associated with the vnode. + * + * This function will indicate success it the new size is the + * same or larger than the old size (in this case, the remainder + * of the file will require modification or use of an existing upl + * to access successfully). + * + * This function will fail if the new file size is smaller, and + * the memory region being invalidated was unable to actually be + * invalidated and/or the last page could not be flushed, if the + * new size is not aligned to a page boundary. This is usually + * indicative of an I/O error. */ int ubc_setsize(struct vnode *vp, off_t nsize) @@ -319,19 +532,19 @@ ubc_setsize(struct vnode *vp, off_t nsize) off_t lastpg, olastpgend, lastoff; struct ubc_info *uip; memory_object_control_t control; - kern_return_t kret; - - assert(nsize >= (off_t)0); + kern_return_t kret = KERN_SUCCESS; - if (UBCINVALID(vp)) + if (nsize < (off_t)0) return (0); if (!UBCINFOEXISTS(vp)) return (0); uip = vp->v_ubcinfo; - osize = uip->ui_size; /* call ubc_getsize() ??? */ - /* Update the size before flushing the VM */ + osize = uip->ui_size; + /* + * Update the size before flushing the VM + */ uip->ui_size = nsize; if (nsize >= osize) /* Nothing more to do */ @@ -340,830 +553,1044 @@ ubc_setsize(struct vnode *vp, off_t nsize) /* * When the file shrinks, invalidate the pages beyond the * new size. Also get rid of garbage beyond nsize on the - * last page. The ui_size already has the nsize. This - * insures that the pageout would not write beyond the new - * end of the file. + * last page. The ui_size already has the nsize, so any + * subsequent page-in will zero-fill the tail properly */ - lastpg = trunc_page_64(nsize); olastpgend = round_page_64(osize); control = uip->ui_control; assert(control); lastoff = (nsize & PAGE_MASK_64); - /* - * If length is multiple of page size, we should not flush - * invalidating is sufficient - */ - if (!lastoff) { - /* invalidate last page and old contents beyond nsize */ - kret = memory_object_lock_request(control, - (memory_object_offset_t)lastpg, - (memory_object_size_t)(olastpgend - lastpg), - MEMORY_OBJECT_RETURN_NONE, MEMORY_OBJECT_DATA_FLUSH, - VM_PROT_NO_CHANGE); - if (kret != KERN_SUCCESS) - printf("ubc_setsize: invalidate failed (error = %d)\n", kret); - - return ((kret == KERN_SUCCESS) ? 1 : 0); - } - - /* flush the last page */ - kret = memory_object_lock_request(control, - (memory_object_offset_t)lastpg, - PAGE_SIZE_64, - MEMORY_OBJECT_RETURN_DIRTY, FALSE, - VM_PROT_NO_CHANGE); - - if (kret == KERN_SUCCESS) { - /* invalidate last page and old contents beyond nsize */ - kret = memory_object_lock_request(control, - (memory_object_offset_t)lastpg, - (memory_object_size_t)(olastpgend - lastpg), - MEMORY_OBJECT_RETURN_NONE, MEMORY_OBJECT_DATA_FLUSH, - VM_PROT_NO_CHANGE); + if (lastoff) { + upl_t upl; + upl_page_info_t *pl; + + + /* + * new EOF ends up in the middle of a page + * zero the tail of this page if its currently + * present in the cache + */ + kret = ubc_create_upl(vp, lastpg, PAGE_SIZE, &upl, &pl, UPL_SET_LITE); + if (kret != KERN_SUCCESS) - printf("ubc_setsize: invalidate failed (error = %d)\n", kret); - } else - printf("ubc_setsize: flush failed (error = %d)\n", kret); + panic("ubc_setsize: ubc_create_upl (error = %d)\n", kret); + + if (upl_valid_page(pl, 0)) + cluster_zero(upl, (uint32_t)lastoff, PAGE_SIZE - (uint32_t)lastoff, NULL); + ubc_upl_abort_range(upl, 0, PAGE_SIZE, UPL_ABORT_FREE_ON_EMPTY); + + lastpg += PAGE_SIZE_64; + } + if (olastpgend > lastpg) { + /* + * invalidate the pages beyond the new EOF page + * + */ + kret = memory_object_lock_request(control, + (memory_object_offset_t)lastpg, + (memory_object_size_t)(olastpgend - lastpg), NULL, NULL, + MEMORY_OBJECT_RETURN_NONE, MEMORY_OBJECT_DATA_FLUSH, + VM_PROT_NO_CHANGE); + if (kret != KERN_SUCCESS) + printf("ubc_setsize: invalidate failed (error = %d)\n", kret); + } return ((kret == KERN_SUCCESS) ? 1 : 0); } + /* - * Get the size of the file + * ubc_getsize + * + * Get the size of the file assocated with the specified vnode + * + * Parameters: vp The vnode whose size is of interest + * + * Returns: 0 There is no ubc_info associated with + * this vnode, or the size is zero + * !0 The size of the file + * + * Notes: Using this routine, it is not possible for a caller to + * successfully distinguish between a vnode associate with a zero + * length file, and a vnode with no associated ubc_info. The + * caller therefore needs to not care, or needs to ensure that + * they have previously successfully called ubc_info_init() or + * ubc_info_init_withsize(). */ off_t ubc_getsize(struct vnode *vp) { + /* people depend on the side effect of this working this way + * as they call this for directory + */ + if (!UBCINFOEXISTS(vp)) + return ((off_t)0); return (vp->v_ubcinfo->ui_size); } + /* - * Caller indicate that the object corresponding to the vnode - * can not be cached in object cache. Make it so. - * returns 1 on success, 0 on failure + * ubc_umount + * + * Call ubc_sync_range(vp, 0, EOF, UBC_PUSHALL) on all the vnodes for this + * mount point + * + * Parameters: mp The mount point + * + * Returns: 0 Success + * + * Notes: There is no failure indication for this function. + * + * This function is used in the unmount path; since it may block + * I/O indefinitely, it should not be used in the forced unmount + * path, since a device unavailability could also block that + * indefinitely. + * + * Because there is no device ejection interlock on USB, FireWire, + * or similar devices, it's possible that an ejection that begins + * subsequent to the vnode_iterate() completing, either on one of + * those devices, or a network mount for which the server quits + * responding, etc., may cause the caller to block indefinitely. */ -int -ubc_uncache(struct vnode *vp) +__private_extern__ int +ubc_umount(struct mount *mp) { - kern_return_t kret; - struct ubc_info *uip; - int recursed; - memory_object_control_t control; - memory_object_perf_info_data_t perf; - - if (!UBCINFOEXISTS(vp)) - return (0); - - if ((recursed = ubc_busy(vp)) == 0) - return (0); - - uip = vp->v_ubcinfo; - - assert(uip != UBC_INFO_NULL); + vnode_iterate(mp, 0, ubc_umcallback, 0); + return(0); +} - /* - * AGE it so that vfree() can make sure that it - * would get recycled soon after the last reference is gone - * This will insure that .nfs turds would not linger - */ - vagevp(vp); - /* set the "do not cache" bit */ - SET(uip->ui_flags, UI_DONTCACHE); +/* + * ubc_umcallback + * + * Used by ubc_umount() as an internal implementation detail; see ubc_umount() + * and vnode_iterate() for details of implementation. + */ +static int +ubc_umcallback(vnode_t vp, __unused void * args) +{ - control = uip->ui_control; - assert(control); + if (UBCINFOEXISTS(vp)) { - perf.cluster_size = PAGE_SIZE; /* XXX use real cluster_size. */ - perf.may_cache = FALSE; - kret = memory_object_change_attributes(control, - MEMORY_OBJECT_PERFORMANCE_INFO, - (memory_object_info_t) &perf, - MEMORY_OBJECT_PERF_INFO_COUNT); - - if (kret != KERN_SUCCESS) { - printf("ubc_uncache: memory_object_change_attributes_named " - "kret = %d", kret); - if (recursed == 1) - ubc_unbusy(vp); - return (0); + (void) ubc_msync(vp, (off_t)0, ubc_getsize(vp), NULL, UBC_PUSHALL); } - - ubc_release_named(vp); - - if (recursed == 1) - ubc_unbusy(vp); - return (1); + return (VNODE_RETURNED); } + /* - * call ubc_clean() and ubc_uncache() on all the vnodes - * for this mount point. - * returns 1 on success, 0 on failure + * ubc_getcred + * + * Get the credentials currently active for the ubc_info associated with the + * vnode. + * + * Parameters: vp The vnode whose ubc_info credentials + * are to be retrieved + * + * Returns: !NOCRED The credentials + * NOCRED If there is no ubc_info for the vnode, + * or if there is one, but it has not had + * any credentials associated with it via + * a call to ubc_setcred() */ -__private_extern__ int -ubc_umount(struct mount *mp) +kauth_cred_t +ubc_getcred(struct vnode *vp) { - struct proc *p = current_proc(); - struct vnode *vp, *nvp; - int ret = 1; - -loop: - simple_lock(&mntvnode_slock); - for (vp = mp->mnt_vnodelist.lh_first; vp; vp = nvp) { - if (vp->v_mount != mp) { - simple_unlock(&mntvnode_slock); - goto loop; - } - nvp = vp->v_mntvnodes.le_next; - simple_unlock(&mntvnode_slock); - if (UBCINFOEXISTS(vp)) { - - /* - * Must get a valid reference on the vnode - * before callig UBC functions - */ - if (vget(vp, 0, p)) { - ret = 0; - simple_lock(&mntvnode_slock); - continue; /* move on to the next vnode */ - } - ret &= ubc_clean(vp, 0); /* do not invalidate */ - ret &= ubc_uncache(vp); - vrele(vp); - } - simple_lock(&mntvnode_slock); - } - simple_unlock(&mntvnode_slock); - return (ret); + if (UBCINFOEXISTS(vp)) + return (vp->v_ubcinfo->ui_ucred); + + return (NOCRED); } + /* - * Call ubc_unmount() for all filesystems. - * The list is traversed in reverse order - * of mounting to avoid dependencies. + * ubc_setthreadcred + * + * If they are not already set, set the credentials of the ubc_info structure + * associated with the vnode to those of the supplied thread; otherwise leave + * them alone. + * + * Parameters: vp The vnode whose ubc_info creds are to + * be set + * p The process whose credentials are to + * be used, if not running on an assumed + * credential + * thread The thread whose credentials are to + * be used + * + * Returns: 1 This vnode has no associated ubc_info + * 0 Success + * + * Notes: This function takes a proc parameter to account for bootstrap + * issues where a task or thread may call this routine, either + * before credentials have been initialized by bsd_init(), or if + * there is no BSD info asscoiate with a mach thread yet. This + * is known to happen in both the initial swap and memory mapping + * calls. + * + * This function is generally used only in the following cases: + * + * o a memory mapped file via the mmap() system call + * o a memory mapped file via the deprecated map_fd() call + * o a swap store backing file + * o subsequent to a successful write via vn_write() + * + * The information is then used by the NFS client in order to + * cons up a wire message in either the page-in or page-out path. + * + * There are two potential problems with the use of this API: + * + * o Because the write path only set it on a successful + * write, there is a race window between setting the + * credential and its use to evict the pages to the + * remote file server + * + * o Because a page-in may occur prior to a write, the + * credential may not be set at this time, if the page-in + * is not the result of a mapping established via mmap() + * or map_fd(). + * + * In both these cases, this will be triggered from the paging + * path, which will instead use the credential of the current + * process, which in this case is either the dynamic_pager or + * the kernel task, both of which utilize "root" credentials. + * + * This may potentially permit operations to occur which should + * be denied, or it may cause to be denied operations which + * should be permitted, depending on the configuration of the NFS + * server. */ -__private_extern__ void -ubc_unmountall() +int +ubc_setthreadcred(struct vnode *vp, proc_t p, thread_t thread) { - struct mount *mp, *nmp; + struct ubc_info *uip; + kauth_cred_t credp; + struct uthread *uthread = get_bsdthread_info(thread); - /* - * Since this only runs when rebooting, it is not interlocked. - */ - for (mp = mountlist.cqh_last; mp != (void *)&mountlist; mp = nmp) { - nmp = mp->mnt_list.cqe_prev; - (void) ubc_umount(mp); - } -} + if (!UBCINFOEXISTS(vp)) + return (1); -/* Get the credentials */ -struct ucred * -ubc_getcred(struct vnode *vp) -{ - struct ubc_info *uip; + vnode_lock(vp); uip = vp->v_ubcinfo; + credp = uip->ui_ucred; - if (UBCINVALID(vp)) - return (NOCRED); + if (!IS_VALID_CRED(credp)) { + /* use per-thread cred, if assumed identity, else proc cred */ + if (uthread == NULL || (uthread->uu_flag & UT_SETUID) == 0) { + uip->ui_ucred = kauth_cred_proc_ref(p); + } else { + uip->ui_ucred = uthread->uu_ucred; + kauth_cred_ref(uip->ui_ucred); + } + } + vnode_unlock(vp); - return (uip->ui_ucred); + return (0); } + /* - * Set the credentials - * existing credentials are not changed - * returns 1 on success and 0 on failure + * ubc_setcred + * + * If they are not already set, set the credentials of the ubc_info structure + * associated with the vnode to those of the process; otherwise leave them + * alone. + * + * Parameters: vp The vnode whose ubc_info creds are to + * be set + * p The process whose credentials are to + * be used + * + * Returns: 0 This vnode has no associated ubc_info + * 1 Success + * + * Notes: The return values for this function are inverted from nearly + * all other uses in the kernel. + * + * See also ubc_setthreadcred(), above. + * + * This function is considered deprecated, and generally should + * not be used, as it is incompatible with per-thread credentials; + * it exists for legacy KPI reasons. + * + * DEPRECATION: ubc_setcred() is being deprecated. Please use + * ubc_setthreadcred() instead. */ int -ubc_setcred(struct vnode *vp, struct proc *p) +ubc_setcred(struct vnode *vp, proc_t p) { struct ubc_info *uip; - struct ucred *credp; - - uip = vp->v_ubcinfo; + kauth_cred_t credp; - if (UBCINVALID(vp)) + /* If there is no ubc_info, deny the operation */ + if ( !UBCINFOEXISTS(vp)) return (0); + /* + * Check to see if there is already a credential reference in the + * ubc_info; if there is not, take one on the supplied credential. + */ + vnode_lock(vp); + uip = vp->v_ubcinfo; credp = uip->ui_ucred; - if (credp == NOCRED) { - crhold(p->p_ucred); - uip->ui_ucred = p->p_ucred; + if (!IS_VALID_CRED(credp)) { + uip->ui_ucred = kauth_cred_proc_ref(p); } + vnode_unlock(vp); return (1); } -/* Get the pager */ + +/* + * ubc_getpager + * + * Get the pager associated with the ubc_info associated with the vnode. + * + * Parameters: vp The vnode to obtain the pager from + * + * Returns: !VNODE_PAGER_NULL The memory_object_t for the pager + * VNODE_PAGER_NULL There is no ubc_info for this vnode + * + * Notes: For each vnode that has a ubc_info associated with it, that + * ubc_info SHALL have a pager associated with it, so in the + * normal case, it's impossible to return VNODE_PAGER_NULL for + * a vnode with an associated ubc_info. + */ __private_extern__ memory_object_t ubc_getpager(struct vnode *vp) { - struct ubc_info *uip; - - uip = vp->v_ubcinfo; - - if (UBCINVALID(vp)) - return (0); + if (UBCINFOEXISTS(vp)) + return (vp->v_ubcinfo->ui_pager); - return (uip->ui_pager); + return (0); } + /* - * Get the memory object associated with this vnode - * If the vnode was reactivated, memory object would not exist. - * Unless "do not rectivate" was specified, look it up using the pager. - * If hold was requested create an object reference of one does not - * exist already. + * ubc_getobject + * + * Get the memory object control associated with the ubc_info associated with + * the vnode + * + * Parameters: vp The vnode to obtain the memory object + * from + * flags DEPRECATED + * + * Returns: !MEMORY_OBJECT_CONTROL_NULL + * MEMORY_OBJECT_CONTROL_NULL + * + * Notes: Historically, if the flags were not "do not reactivate", this + * function would look up the memory object using the pager if + * it did not exist (this could be the case if the vnode had + * been previously reactivated). The flags would also permit a + * hold to be requested, which would have created an object + * reference, if one had not already existed. This usage is + * deprecated, as it would permit a race between finding and + * taking the reference vs. a single reference being dropped in + * another thread. */ - memory_object_control_t -ubc_getobject(struct vnode *vp, int flags) +ubc_getobject(struct vnode *vp, __unused int flags) { - struct ubc_info *uip; - int recursed; - memory_object_control_t control; - - if (UBCINVALID(vp)) - return (0); + if (UBCINFOEXISTS(vp)) + return((vp->v_ubcinfo->ui_control)); - if (flags & UBC_FOR_PAGEOUT) - return(vp->v_ubcinfo->ui_control); - - if ((recursed = ubc_busy(vp)) == 0) - return (0); - - uip = vp->v_ubcinfo; - control = uip->ui_control; - - if ((flags & UBC_HOLDOBJECT) && (!ISSET(uip->ui_flags, UI_HASOBJREF))) { - - /* - * Take a temporary reference on the ubc info so that it won't go - * away during our recovery attempt. - */ - ubc_lock(vp); - uip->ui_refcount++; - ubc_unlock(vp); - if (memory_object_recover_named(control, TRUE) == KERN_SUCCESS) { - SET(uip->ui_flags, UI_HASOBJREF); - } else { - control = MEMORY_OBJECT_CONTROL_NULL; - } - if (recursed == 1) - ubc_unbusy(vp); - ubc_info_deallocate(uip); - - } else { - if (recursed == 1) - ubc_unbusy(vp); - } - - return (control); + return (MEMORY_OBJECT_CONTROL_NULL); } -/* Set the pager */ -int -ubc_setpager(struct vnode *vp, memory_object_t pager) -{ - struct ubc_info *uip; - - uip = vp->v_ubcinfo; - - if (UBCINVALID(vp)) - return (0); - - uip->ui_pager = pager; - return (1); -} - -int -ubc_setflags(struct vnode * vp, int flags) -{ - struct ubc_info *uip; - - if (UBCINVALID(vp)) - return (0); - - uip = vp->v_ubcinfo; - - SET(uip->ui_flags, flags); - - return (1); -} - -int -ubc_clearflags(struct vnode * vp, int flags) -{ - struct ubc_info *uip; - - if (UBCINVALID(vp)) - return (0); - - uip = vp->v_ubcinfo; - - CLR(uip->ui_flags, flags); - - return (1); -} - - -int -ubc_issetflags(struct vnode * vp, int flags) -{ - struct ubc_info *uip; - - if (UBCINVALID(vp)) - return (0); - - uip = vp->v_ubcinfo; - - return (ISSET(uip->ui_flags, flags)); -} +/* + * ubc_blktooff + * + * Convert a given block number to a memory backing object (file) offset for a + * given vnode + * + * Parameters: vp The vnode in which the block is located + * blkno The block number to convert + * + * Returns: !-1 The offset into the backing object + * -1 There is no ubc_info associated with + * the vnode + * -1 An error occurred in the underlying VFS + * while translating the block to an + * offset; the most likely cause is that + * the caller specified a block past the + * end of the file, but this could also be + * any other error from VNOP_BLKTOOFF(). + * + * Note: Representing the error in band loses some information, but does + * not occlude a valid offset, since an off_t of -1 is normally + * used to represent EOF. If we had a more reliable constant in + * our header files for it (i.e. explicitly cast to an off_t), we + * would use it here instead. + */ off_t -ubc_blktooff(struct vnode *vp, daddr_t blkno) +ubc_blktooff(vnode_t vp, daddr64_t blkno) { - off_t file_offset; + off_t file_offset = -1; int error; - if (UBCINVALID(vp)) - return ((off_t)-1); - - error = VOP_BLKTOOFF(vp, blkno, &file_offset); - if (error) - file_offset = -1; + if (UBCINFOEXISTS(vp)) { + error = VNOP_BLKTOOFF(vp, blkno, &file_offset); + if (error) + file_offset = -1; + } return (file_offset); } -daddr_t -ubc_offtoblk(struct vnode *vp, off_t offset) + +/* + * ubc_offtoblk + * + * Convert a given offset in a memory backing object into a block number for a + * given vnode + * + * Parameters: vp The vnode in which the offset is + * located + * offset The offset into the backing object + * + * Returns: !-1 The returned block number + * -1 There is no ubc_info associated with + * the vnode + * -1 An error occurred in the underlying VFS + * while translating the block to an + * offset; the most likely cause is that + * the caller specified a block past the + * end of the file, but this could also be + * any other error from VNOP_OFFTOBLK(). + * + * Note: Representing the error in band loses some information, but does + * not occlude a valid block number, since block numbers exceed + * the valid range for offsets, due to their relative sizes. If + * we had a more reliable constant than -1 in our header files + * for it (i.e. explicitly cast to an daddr64_t), we would use it + * here instead. + */ +daddr64_t +ubc_offtoblk(vnode_t vp, off_t offset) { - daddr_t blkno; + daddr64_t blkno = -1; int error = 0; - if (UBCINVALID(vp)) { - return ((daddr_t)-1); - } - - error = VOP_OFFTOBLK(vp, offset, &blkno); - if (error) - blkno = -1; + if (UBCINFOEXISTS(vp)) { + error = VNOP_OFFTOBLK(vp, offset, &blkno); + if (error) + blkno = -1; + } return (blkno); } + /* - * Cause the file data in VM to be pushed out to the storage - * it also causes all currently valid pages to be released - * returns 1 on success, 0 on failure + * ubc_pages_resident + * + * Determine whether or not a given vnode has pages resident via the memory + * object control associated with the ubc_info associated with the vnode + * + * Parameters: vp The vnode we want to know about + * + * Returns: 1 Yes + * 0 No */ int -ubc_clean(struct vnode *vp, int invalidate) +ubc_pages_resident(vnode_t vp) { - off_t size; - struct ubc_info *uip; - memory_object_control_t control; - kern_return_t kret; - int flags = 0; - - if (UBCINVALID(vp)) - return (0); - + kern_return_t kret; + boolean_t has_pages_resident; + if (!UBCINFOEXISTS(vp)) return (0); - + /* - * if invalidate was requested, write dirty data and then discard - * the resident pages + * The following call may fail if an invalid ui_control is specified, + * or if there is no VM object associated with the control object. In + * either case, reacting to it as if there were no pages resident will + * result in correct behavior. */ - if (invalidate) - flags = (MEMORY_OBJECT_DATA_FLUSH | MEMORY_OBJECT_DATA_NO_CHANGE); - - uip = vp->v_ubcinfo; - size = uip->ui_size; /* call ubc_getsize() ??? */ - - control = uip->ui_control; - assert(control); - - vp->v_flag &= ~VHASDIRTY; - vp->v_clen = 0; - - /* Write the dirty data in the file and discard cached pages */ - kret = memory_object_lock_request(control, - (memory_object_offset_t)0, - (memory_object_size_t)round_page_64(size), - MEMORY_OBJECT_RETURN_ALL, flags, - VM_PROT_NO_CHANGE); - + kret = memory_object_pages_resident(vp->v_ubcinfo->ui_control, &has_pages_resident); + if (kret != KERN_SUCCESS) - printf("ubc_clean: clean failed (error = %d)\n", kret); - - return ((kret == KERN_SUCCESS) ? 1 : 0); -} - -/* - * Cause the file data in VM to be pushed out to the storage - * currently valid pages are NOT invalidated - * returns 1 on success, 0 on failure - */ -int -ubc_pushdirty(struct vnode *vp) -{ - off_t size; - struct ubc_info *uip; - memory_object_control_t control; - kern_return_t kret; - - if (UBCINVALID(vp)) - return (0); - - if (!UBCINFOEXISTS(vp)) return (0); - - uip = vp->v_ubcinfo; - size = uip->ui_size; /* call ubc_getsize() ??? */ - - control = uip->ui_control; - assert(control); - - vp->v_flag &= ~VHASDIRTY; - vp->v_clen = 0; - - /* Write the dirty data in the file and discard cached pages */ - kret = memory_object_lock_request(control, - (memory_object_offset_t)0, - (memory_object_size_t)round_page_64(size), - MEMORY_OBJECT_RETURN_DIRTY, FALSE, - VM_PROT_NO_CHANGE); - - if (kret != KERN_SUCCESS) - printf("ubc_pushdirty: flush failed (error = %d)\n", kret); - - return ((kret == KERN_SUCCESS) ? 1 : 0); + + if (has_pages_resident == TRUE) + return (1); + + return (0); } + /* - * Cause the file data in VM to be pushed out to the storage - * currently valid pages are NOT invalidated - * returns 1 on success, 0 on failure + * ubc_sync_range + * + * Clean and/or invalidate a range in the memory object that backs this vnode + * + * Parameters: vp The vnode whose associated ubc_info's + * associated memory object is to have a + * range invalidated within it + * beg_off The start of the range, as an offset + * end_off The end of the range, as an offset + * flags See ubc_msync_internal() + * + * Returns: 1 Success + * 0 Failure + * + * Notes: see ubc_msync_internal() for more detailed information. + * + * DEPRECATED: This interface is obsolete due to a failure to return error + * information needed in order to correct failures. The currently + * recommended interface is ubc_msync(). */ int -ubc_pushdirty_range(struct vnode *vp, off_t offset, off_t size) +ubc_sync_range(vnode_t vp, off_t beg_off, off_t end_off, int flags) { - struct ubc_info *uip; - memory_object_control_t control; - kern_return_t kret; - - if (UBCINVALID(vp)) - return (0); - - if (!UBCINFOEXISTS(vp)) - return (0); - - uip = vp->v_ubcinfo; - - control = uip->ui_control; - assert(control); - - /* Write any dirty pages in the requested range of the file: */ - kret = memory_object_lock_request(control, - (memory_object_offset_t)offset, - (memory_object_size_t)round_page_64(size), - MEMORY_OBJECT_RETURN_DIRTY, FALSE, - VM_PROT_NO_CHANGE); - - if (kret != KERN_SUCCESS) - printf("ubc_pushdirty_range: flush failed (error = %d)\n", kret); - - return ((kret == KERN_SUCCESS) ? 1 : 0); + return (ubc_msync_internal(vp, beg_off, end_off, NULL, flags, NULL)); } + /* - * Make sure the vm object does not vanish - * returns 1 if the hold count was incremented - * returns 0 if the hold count was not incremented - * This return value should be used to balance - * ubc_hold() and ubc_rele(). + * ubc_msync + * + * Clean and/or invalidate a range in the memory object that backs this vnode + * + * Parameters: vp The vnode whose associated ubc_info's + * associated memory object is to have a + * range invalidated within it + * beg_off The start of the range, as an offset + * end_off The end of the range, as an offset + * resid_off The address of an off_t supplied by the + * caller; may be set to NULL to ignore + * flags See ubc_msync_internal() + * + * Returns: 0 Success + * !0 Failure; an errno is returned + * + * Implicit Returns: + * *resid_off, modified If non-NULL, the contents are ALWAYS + * modified; they are initialized to the + * beg_off, and in case of an I/O error, + * the difference between beg_off and the + * current value will reflect what was + * able to be written before the error + * occurred. If no error is returned, the + * value of the resid_off is undefined; do + * NOT use it in place of end_off if you + * intend to increment from the end of the + * last call and call iteratively. + * + * Notes: see ubc_msync_internal() for more detailed information. + * */ -int -ubc_hold(struct vnode *vp) +errno_t +ubc_msync(vnode_t vp, off_t beg_off, off_t end_off, off_t *resid_off, int flags) { - struct ubc_info *uip; - int recursed; - memory_object_control_t object; - - if (UBCINVALID(vp)) - return (0); - - if ((recursed = ubc_busy(vp)) == 0) { - /* must be invalid or dying vnode */ - assert(UBCINVALID(vp) || - ((vp->v_flag & VXLOCK) || (vp->v_flag & VTERMINATE))); - return (0); - } - - uip = vp->v_ubcinfo; - assert(uip->ui_control != MEMORY_OBJECT_CONTROL_NULL); - - ubc_lock(vp); - uip->ui_refcount++; - ubc_unlock(vp); - - if (!ISSET(uip->ui_flags, UI_HASOBJREF)) { - if (memory_object_recover_named(uip->ui_control, TRUE) - != KERN_SUCCESS) { - if (recursed == 1) - ubc_unbusy(vp); - ubc_info_deallocate(uip); - return (0); - } - SET(uip->ui_flags, UI_HASOBJREF); - } - if (recursed == 1) - ubc_unbusy(vp); + int retval; + int io_errno = 0; + + if (resid_off) + *resid_off = beg_off; - assert(uip->ui_refcount > 0); + retval = ubc_msync_internal(vp, beg_off, end_off, resid_off, flags, &io_errno); - return (1); + if (retval == 0 && io_errno == 0) + return (EINVAL); + return (io_errno); } + /* - * Drop the holdcount. - * release the reference on the vm object if the this is "uncached" - * ubc_info. + * Clean and/or invalidate a range in the memory object that backs this vnode + * + * Parameters: vp The vnode whose associated ubc_info's + * associated memory object is to have a + * range invalidated within it + * beg_off The start of the range, as an offset + * end_off The end of the range, as an offset + * resid_off The address of an off_t supplied by the + * caller; may be set to NULL to ignore + * flags MUST contain at least one of the flags + * UBC_INVALIDATE, UBC_PUSHDIRTY, or + * UBC_PUSHALL; if UBC_PUSHDIRTY is used, + * UBC_SYNC may also be specified to cause + * this function to block until the + * operation is complete. The behavior + * of UBC_SYNC is otherwise undefined. + * io_errno The address of an int to contain the + * errno from a failed I/O operation, if + * one occurs; may be set to NULL to + * ignore + * + * Returns: 1 Success + * 0 Failure + * + * Implicit Returns: + * *resid_off, modified The contents of this offset MAY be + * modified; in case of an I/O error, the + * difference between beg_off and the + * current value will reflect what was + * able to be written before the error + * occurred. + * *io_errno, modified The contents of this offset are set to + * an errno, if an error occurs; if the + * caller supplies an io_errno parameter, + * they should be careful to initialize it + * to 0 before calling this function to + * enable them to distinguish an error + * with a valid *resid_off from an invalid + * one, and to avoid potentially falsely + * reporting an error, depending on use. + * + * Notes: If there is no ubc_info associated with the vnode supplied, + * this function immediately returns success. + * + * If the value of end_off is less than or equal to beg_off, this + * function immediately returns success; that is, end_off is NOT + * inclusive. + * + * IMPORTANT: one of the flags UBC_INVALIDATE, UBC_PUSHDIRTY, or + * UBC_PUSHALL MUST be specified; that is, it is NOT possible to + * attempt to block on in-progress I/O by calling this function + * with UBC_PUSHDIRTY, and then later call it with just UBC_SYNC + * in order to block pending on the I/O already in progress. + * + * The start offset is truncated to the page boundary and the + * size is adjusted to include the last page in the range; that + * is, end_off on exactly a page boundary will not change if it + * is rounded, and the range of bytes written will be from the + * truncate beg_off to the rounded (end_off - 1). */ -void -ubc_rele(struct vnode *vp) +static int +ubc_msync_internal(vnode_t vp, off_t beg_off, off_t end_off, off_t *resid_off, int flags, int *io_errno) { - struct ubc_info *uip; - - if (UBCINVALID(vp)) - return; - - if (!UBCINFOEXISTS(vp)) { - /* nothing more to do for a dying vnode */ - if ((vp->v_flag & VXLOCK) || (vp->v_flag & VTERMINATE)) - return; - panic("ubc_rele: can not"); - } - - uip = vp->v_ubcinfo; - - if (uip->ui_refcount == 1) - panic("ubc_rele: ui_refcount"); + memory_object_size_t tsize; + kern_return_t kret; + int request_flags = 0; + int flush_flags = MEMORY_OBJECT_RETURN_NONE; + + if ( !UBCINFOEXISTS(vp)) + return (0); + if ((flags & (UBC_INVALIDATE | UBC_PUSHDIRTY | UBC_PUSHALL)) == 0) + return (0); + if (end_off <= beg_off) + return (1); + + if (flags & UBC_INVALIDATE) + /* + * discard the resident pages + */ + request_flags = (MEMORY_OBJECT_DATA_FLUSH | MEMORY_OBJECT_DATA_NO_CHANGE); - --uip->ui_refcount; + if (flags & UBC_SYNC) + /* + * wait for all the I/O to complete before returning + */ + request_flags |= MEMORY_OBJECT_IO_SYNC; - if ((uip->ui_refcount == 1) - && ISSET(uip->ui_flags, UI_DONTCACHE)) - (void) ubc_release_named(vp); + if (flags & UBC_PUSHDIRTY) + /* + * we only return the dirty pages in the range + */ + flush_flags = MEMORY_OBJECT_RETURN_DIRTY; - return; + if (flags & UBC_PUSHALL) + /* + * then return all the interesting pages in the range (both + * dirty and precious) to the pager + */ + flush_flags = MEMORY_OBJECT_RETURN_ALL; + + beg_off = trunc_page_64(beg_off); + end_off = round_page_64(end_off); + tsize = (memory_object_size_t)end_off - beg_off; + + /* flush and/or invalidate pages in the range requested */ + kret = memory_object_lock_request(vp->v_ubcinfo->ui_control, + beg_off, tsize, + (memory_object_offset_t *)resid_off, + io_errno, flush_flags, request_flags, + VM_PROT_NO_CHANGE); + + return ((kret == KERN_SUCCESS) ? 1 : 0); } + /* - * The vnode is mapped explicitly, mark it so. + * ubc_msync_internal + * + * Explicitly map a vnode that has an associate ubc_info, and add a reference + * to it for the ubc system, if there isn't one already, so it will not be + * recycled while it's in use, and set flags on the ubc_info to indicate that + * we have done this + * + * Parameters: vp The vnode to map + * flags The mapping flags for the vnode; this + * will be a combination of one or more of + * PROT_READ, PROT_WRITE, and PROT_EXEC + * + * Returns: 0 Success + * EPERM Permission was denied + * + * Notes: An I/O reference on the vnode must already be held on entry + * + * If there is no ubc_info associated with the vnode, this function + * will return success. + * + * If a permission error occurs, this function will return + * failure; all other failures will cause this function to return + * success. + * + * IMPORTANT: This is an internal use function, and its symbols + * are not exported, hence its error checking is not very robust. + * It is primarily used by: + * + * o mmap(), when mapping a file + * o The deprecated map_fd() interface, when mapping a file + * o When mapping a shared file (a shared library in the + * shared segment region) + * o When loading a program image during the exec process + * + * ...all of these uses ignore the return code, and any fault that + * results later because of a failure is handled in the fix-up path + * of the fault handler. The interface exists primarily as a + * performance hint. + * + * Given that third party implementation of the type of interfaces + * that would use this function, such as alternative executable + * formats, etc., are unsupported, this function is not exported + * for general use. + * + * The extra reference is held until the VM system unmaps the + * vnode from its own context to maintain a vnode reference in + * cases like open()/mmap()/close(), which leave the backing + * object referenced by a mapped memory region in a process + * address space. */ -__private_extern__ void -ubc_map(struct vnode *vp) +__private_extern__ int +ubc_map(vnode_t vp, int flags) { struct ubc_info *uip; + int error = 0; + int need_ref = 0; + int need_wakeup = 0; - if (UBCINVALID(vp)) - return; + if (UBCINFOEXISTS(vp)) { - if (!UBCINFOEXISTS(vp)) - return; + vnode_lock(vp); + uip = vp->v_ubcinfo; - ubc_lock(vp); - uip = vp->v_ubcinfo; + while (ISSET(uip->ui_flags, UI_MAPBUSY)) { + SET(uip->ui_flags, UI_MAPWAITING); + (void) msleep(&uip->ui_flags, &vp->v_lock, + PRIBIO, "ubc_map", NULL); + } + SET(uip->ui_flags, UI_MAPBUSY); + vnode_unlock(vp); - SET(uip->ui_flags, UI_WASMAPPED); - uip->ui_mapped = 1; - ubc_unlock(vp); + error = VNOP_MMAP(vp, flags, vfs_context_current()); - return; -} + if (error != EPERM) + error = 0; -/* - * Release the memory object reference on the vnode - * only if it is not in use - * Return 1 if the reference was released, 0 otherwise. - */ -int -ubc_release_named(struct vnode *vp) -{ - struct ubc_info *uip; - int recursed; - memory_object_control_t control; - kern_return_t kret = KERN_FAILURE; + vnode_lock_spin(vp); - if (UBCINVALID(vp)) - return (0); + if (error == 0) { + if ( !ISSET(uip->ui_flags, UI_ISMAPPED)) + need_ref = 1; + SET(uip->ui_flags, (UI_WASMAPPED | UI_ISMAPPED)); + } + CLR(uip->ui_flags, UI_MAPBUSY); - if ((recursed = ubc_busy(vp)) == 0) - return (0); - uip = vp->v_ubcinfo; + if (ISSET(uip->ui_flags, UI_MAPWAITING)) { + CLR(uip->ui_flags, UI_MAPWAITING); + need_wakeup = 1; + } + vnode_unlock(vp); - /* can not release held or mapped vnodes */ - if (ISSET(uip->ui_flags, UI_HASOBJREF) && - (uip->ui_refcount == 1) && !uip->ui_mapped) { - control = uip->ui_control; - assert(control); - CLR(uip->ui_flags, UI_HASOBJREF); - kret = memory_object_release_name(control, - MEMORY_OBJECT_RESPECT_CACHE); - } + if (need_wakeup) + wakeup(&uip->ui_flags); - if (recursed == 1) - ubc_unbusy(vp); - return ((kret != KERN_SUCCESS) ? 0 : 1); + if (need_ref) + vnode_ref(vp); + } + return (error); } -/* - * This function used to called by extensions directly. Some may - * still exist with this behavior. In those cases, we will do the - * release as part of reclaiming or cleaning the vnode. We don't - * need anything explicit - so just stub this out until those callers - * get cleaned up. - */ -int -ubc_release( - struct vnode *vp) -{ - return 0; -} /* - * destroy the named reference for a given vnode + * ubc_destroy_named + * + * Destroy the named memory object associated with the ubc_info control object + * associated with the designated vnode, if there is a ubc_info associated + * with the vnode, and a control object is associated with it + * + * Parameters: vp The designated vnode + * + * Returns: (void) + * + * Notes: This function is called on vnode termination for all vnodes, + * and must therefore not assume that there is a ubc_info that is + * associated with the vnode, nor that there is a control object + * associated with the ubc_info. + * + * If all the conditions necessary are present, this function + * calls memory_object_destory(), which will in turn end up + * calling ubc_unmap() to release any vnode references that were + * established via ubc_map(). + * + * IMPORTANT: This is an internal use function that is used + * exclusively by the internal use function vclean(). */ -__private_extern__ int -ubc_destroy_named( - struct vnode *vp) +__private_extern__ void +ubc_destroy_named(vnode_t vp) { memory_object_control_t control; - struct proc *p; struct ubc_info *uip; kern_return_t kret; - /* - * We may already have had the object terminated - * and the ubcinfo released as a side effect of - * some earlier processing. If so, pretend we did - * it, because it probably was a result of our - * efforts. - */ - if (!UBCINFOEXISTS(vp)) - return (1); - - uip = vp->v_ubcinfo; - - /* can not destroy held vnodes */ - if (uip->ui_refcount > 1) - return (0); - - /* - * Terminate the memory object. - * memory_object_destroy() will result in - * vnode_pager_no_senders(). - * That will release the pager reference - * and the vnode will move to the free list. - */ - control = ubc_getobject(vp, UBC_HOLDOBJECT); - if (control != MEMORY_OBJECT_CONTROL_NULL) { - - if (ISSET(vp->v_flag, VTERMINATE)) - panic("ubc_destroy_named: already teminating"); - SET(vp->v_flag, VTERMINATE); + if (UBCINFOEXISTS(vp)) { + uip = vp->v_ubcinfo; - kret = memory_object_destroy(control, 0); - if (kret != KERN_SUCCESS) - return (0); - - /* - * memory_object_destroy() is asynchronous - * with respect to vnode_pager_no_senders(). - * wait for vnode_pager_no_senders() to clear - * VTERMINATE - */ - while (ISSET(vp->v_flag, VTERMINATE)) { - SET(vp->v_flag, VTERMWANT); - (void)tsleep((caddr_t)&vp->v_ubcinfo, - PINOD, "ubc_destroy_named", 0); + /* Terminate the memory object */ + control = ubc_getobject(vp, UBC_HOLDOBJECT); + if (control != MEMORY_OBJECT_CONTROL_NULL) { + kret = memory_object_destroy(control, 0); + if (kret != KERN_SUCCESS) + panic("ubc_destroy_named: memory_object_destroy failed"); } } - return (1); } /* - * Invalidate a range in the memory object that backs this - * vnode. The offset is truncated to the page boundary and the - * size is adjusted to include the last page in the range. + * ubc_isinuse + * + * Determine whether or not a vnode is currently in use by ubc at a level in + * excess of the requested busycount + * + * Parameters: vp The vnode to check + * busycount The threshold busy count, used to bias + * the count usually already held by the + * caller to avoid races + * + * Returns: 1 The vnode is in use over the threshold + * 0 The vnode is not in use over the + * threshold + * + * Notes: Because the vnode is only held locked while actually asking + * the use count, this function only represents a snapshot of the + * current state of the vnode. If more accurate information is + * required, an additional busycount should be held by the caller + * and a non-zero busycount used. + * + * If there is no ubc_info associated with the vnode, this + * function will report that the vnode is not in use by ubc. */ int -ubc_invalidate(struct vnode *vp, off_t offset, size_t size) +ubc_isinuse(struct vnode *vp, int busycount) { - struct ubc_info *uip; - memory_object_control_t control; - kern_return_t kret; - off_t toff; - size_t tsize; - - if (UBCINVALID(vp)) + if ( !UBCINFOEXISTS(vp)) return (0); - - if (!UBCINFOEXISTS(vp)) - return (0); - - toff = trunc_page_64(offset); - tsize = (size_t)(round_page_64(offset+size) - toff); - uip = vp->v_ubcinfo; - control = uip->ui_control; - assert(control); - - /* invalidate pages in the range requested */ - kret = memory_object_lock_request(control, - (memory_object_offset_t)toff, - (memory_object_size_t)tsize, - MEMORY_OBJECT_RETURN_NONE, - (MEMORY_OBJECT_DATA_NO_CHANGE| MEMORY_OBJECT_DATA_FLUSH), - VM_PROT_NO_CHANGE); - if (kret != KERN_SUCCESS) - printf("ubc_invalidate: invalidate failed (error = %d)\n", kret); - - return ((kret == KERN_SUCCESS) ? 1 : 0); + return(ubc_isinuse_locked(vp, busycount, 0)); } + /* - * Find out whether a vnode is in use by UBC - * Returns 1 if file is in use by UBC, 0 if not + * ubc_isinuse_locked + * + * Determine whether or not a vnode is currently in use by ubc at a level in + * excess of the requested busycount + * + * Parameters: vp The vnode to check + * busycount The threshold busy count, used to bias + * the count usually already held by the + * caller to avoid races + * locked True if the vnode is already locked by + * the caller + * + * Returns: 1 The vnode is in use over the threshold + * 0 The vnode is not in use over the + * threshold + * + * Notes: If the vnode is not locked on entry, it is locked while + * actually asking the use count. If this is the case, this + * function only represents a snapshot of the current state of + * the vnode. If more accurate information is required, the + * vnode lock should be held by the caller, otherwise an + * additional busycount should be held by the caller and a + * non-zero busycount used. + * + * If there is no ubc_info associated with the vnode, this + * function will report that the vnode is not in use by ubc. */ int -ubc_isinuse(struct vnode *vp, int tookref) +ubc_isinuse_locked(struct vnode *vp, int busycount, int locked) { - int busycount = tookref ? 2 : 1; + int retval = 0; - if (!UBCINFOEXISTS(vp)) - return (0); - if (tookref == 0) { - printf("ubc_isinuse: called without a valid reference" - ": v_tag = %d\v", vp->v_tag); - vprint("ubc_isinuse", vp); - return (0); - } + if (!locked) + vnode_lock(vp); - if (vp->v_usecount > busycount) - return (1); + if ((vp->v_usecount - vp->v_kusecount) > busycount) + retval = 1; - if ((vp->v_usecount == busycount) - && (vp->v_ubcinfo->ui_mapped == 1)) - return (1); - else - return (0); + if (!locked) + vnode_unlock(vp); + return (retval); } + /* - * The backdoor routine to clear the ui_mapped. - * MUST only be called by the VM + * ubc_unmap + * + * Reverse the effects of a ubc_map() call for a given vnode + * + * Parameters: vp vnode to unmap from ubc * - * Note that this routine is not called under funnel. There are numerous - * things about the calling sequence that make this work on SMP. - * Any code change in those paths can break this. + * Returns: (void) * + * Notes: This is an internal use function used by vnode_pager_unmap(). + * It will attempt to obtain a reference on the supplied vnode, + * and if it can do so, and there is an associated ubc_info, and + * the flags indicate that it was mapped via ubc_map(), then the + * flag is cleared, the mapping removed, and the reference taken + * by ubc_map() is released. + * + * IMPORTANT: This MUST only be called by the VM + * to prevent race conditions. */ __private_extern__ void ubc_unmap(struct vnode *vp) { struct ubc_info *uip; - boolean_t funnel_state; - - if (UBCINVALID(vp)) - return; + int need_rele = 0; + int need_wakeup = 0; + + if (vnode_getwithref(vp)) + return; - if (!UBCINFOEXISTS(vp)) - return; + if (UBCINFOEXISTS(vp)) { + vnode_lock(vp); + uip = vp->v_ubcinfo; - ubc_lock(vp); - uip = vp->v_ubcinfo; - uip->ui_mapped = 0; - if ((uip->ui_refcount > 1) || !ISSET(uip->ui_flags, UI_DONTCACHE)) { - ubc_unlock(vp); - return; - } - ubc_unlock(vp); + while (ISSET(uip->ui_flags, UI_MAPBUSY)) { + SET(uip->ui_flags, UI_MAPWAITING); + (void) msleep(&uip->ui_flags, &vp->v_lock, + PRIBIO, "ubc_unmap", NULL); + } + SET(uip->ui_flags, UI_MAPBUSY); + + if (ISSET(uip->ui_flags, UI_ISMAPPED)) { + CLR(uip->ui_flags, UI_ISMAPPED); + need_rele = 1; + } + vnode_unlock(vp); + + if (need_rele) { + (void) VNOP_MNOMAP(vp, vfs_context_current()); + vnode_rele(vp); + } + + vnode_lock_spin(vp); - funnel_state = thread_funnel_set(kernel_flock, TRUE); - (void) ubc_release_named(vp); - (void) thread_funnel_set(kernel_flock, funnel_state); + CLR(uip->ui_flags, UI_MAPBUSY); + if (ISSET(uip->ui_flags, UI_MAPWAITING)) { + CLR(uip->ui_flags, UI_MAPWAITING); + need_wakeup = 1; + } + vnode_unlock(vp); + + if (need_wakeup) + wakeup(&uip->ui_flags); + + } + /* + * the drop of the vnode ref will cleanup + */ + vnode_put(vp); } + +/* + * ubc_page_op + * + * Manipulate individual page state for a vnode with an associated ubc_info + * with an associated memory object control. + * + * Parameters: vp The vnode backing the page + * f_offset A file offset interior to the page + * ops The operations to perform, as a bitmap + * (see below for more information) + * phys_entryp The address of a ppnum_t; may be NULL + * to ignore + * flagsp A pointer to an int to contain flags; + * may be NULL to ignore + * + * Returns: KERN_SUCCESS Success + * KERN_INVALID_ARGUMENT If the memory object control has no VM + * object associated + * KERN_INVALID_OBJECT If UPL_POP_PHYSICAL and the object is + * not physically contiguous + * KERN_INVALID_OBJECT If !UPL_POP_PHYSICAL and the object is + * physically contiguous + * KERN_FAILURE If the page cannot be looked up + * + * Implicit Returns: + * *phys_entryp (modified) If phys_entryp is non-NULL and + * UPL_POP_PHYSICAL + * *flagsp (modified) If flagsp is non-NULL and there was + * !UPL_POP_PHYSICAL and a KERN_SUCCESS + * + * Notes: For object boundaries, it is considerably more efficient to + * ensure that f_offset is in fact on a page boundary, as this + * will avoid internal use of the hash table to identify the + * page, and would therefore skip a number of early optimizations. + * Since this is a page operation anyway, the caller should try + * to pass only a page aligned offset because of this. + * + * *flagsp may be modified even if this function fails. If it is + * modified, it will contain the condition of the page before the + * requested operation was attempted; these will only include the + * bitmap flags, and not the PL_POP_PHYSICAL, UPL_POP_DUMP, + * UPL_POP_SET, or UPL_POP_CLR bits. + * + * The flags field may contain a specific operation, such as + * UPL_POP_PHYSICAL or UPL_POP_DUMP: + * + * o UPL_POP_PHYSICAL Fail if not contiguous; if + * *phys_entryp and successful, set + * *phys_entryp + * o UPL_POP_DUMP Dump the specified page + * + * Otherwise, it is treated as a bitmap of one or more page + * operations to perform on the final memory object; allowable + * bit values are: + * + * o UPL_POP_DIRTY The page is dirty + * o UPL_POP_PAGEOUT The page is paged out + * o UPL_POP_PRECIOUS The page is precious + * o UPL_POP_ABSENT The page is absent + * o UPL_POP_BUSY The page is busy + * + * If the page status is only being queried and not modified, then + * not other bits should be specified. However, if it is being + * modified, exactly ONE of the following bits should be set: + * + * o UPL_POP_SET Set the current bitmap bits + * o UPL_POP_CLR Clear the current bitmap bits + * + * Thus to effect a combination of setting an clearing, it may be + * necessary to call this function twice. If this is done, the + * set should be used before the clear, since clearing may trigger + * a wakeup on the destination page, and if the page is backed by + * an encrypted swap file, setting will trigger the decryption + * needed before the wakeup occurs. + */ kern_return_t ubc_page_op( struct vnode *vp, @@ -1184,20 +1611,138 @@ ubc_page_op( phys_entryp, flagsp)); } - + + +/* + * ubc_range_op + * + * Manipulate page state for a range of memory for a vnode with an associated + * ubc_info with an associated memory object control, when page level state is + * not required to be returned from the call (i.e. there are no phys_entryp or + * flagsp parameters to this call, and it takes a range which may contain + * multiple pages, rather than an offset interior to a single page). + * + * Parameters: vp The vnode backing the page + * f_offset_beg A file offset interior to the start page + * f_offset_end A file offset interior to the end page + * ops The operations to perform, as a bitmap + * (see below for more information) + * range The address of an int; may be NULL to + * ignore + * + * Returns: KERN_SUCCESS Success + * KERN_INVALID_ARGUMENT If the memory object control has no VM + * object associated + * KERN_INVALID_OBJECT If the object is physically contiguous + * + * Implicit Returns: + * *range (modified) If range is non-NULL, its contents will + * be modified to contain the number of + * bytes successfully operated upon. + * + * Notes: IMPORTANT: This function cannot be used on a range that + * consists of physically contiguous pages. + * + * For object boundaries, it is considerably more efficient to + * ensure that f_offset_beg and f_offset_end are in fact on page + * boundaries, as this will avoid internal use of the hash table + * to identify the page, and would therefore skip a number of + * early optimizations. Since this is an operation on a set of + * pages anyway, the caller should try to pass only a page aligned + * offsets because of this. + * + * *range will be modified only if this function succeeds. + * + * The flags field MUST contain a specific operation; allowable + * values are: + * + * o UPL_ROP_ABSENT Returns the extent of the range + * presented which is absent, starting + * with the start address presented + * + * o UPL_ROP_PRESENT Returns the extent of the range + * presented which is present (resident), + * starting with the start address + * presented + * o UPL_ROP_DUMP Dump the pages which are found in the + * target object for the target range. + * + * IMPORTANT: For UPL_ROP_ABSENT and UPL_ROP_PRESENT; if there are + * multiple regions in the range, only the first matching region + * is returned. + */ +kern_return_t +ubc_range_op( + struct vnode *vp, + off_t f_offset_beg, + off_t f_offset_end, + int ops, + int *range) +{ + memory_object_control_t control; + + control = ubc_getobject(vp, UBC_FLAGS_NONE); + if (control == MEMORY_OBJECT_CONTROL_NULL) + return KERN_INVALID_ARGUMENT; + + return (memory_object_range_op(control, + (memory_object_offset_t)f_offset_beg, + (memory_object_offset_t)f_offset_end, + ops, + range)); +} + + +/* + * ubc_create_upl + * + * Given a vnode, cause the population of a portion of the vm_object; based on + * the nature of the request, the pages returned may contain valid data, or + * they may be uninitialized. + * + * Parameters: vp The vnode from which to create the upl + * f_offset The start offset into the backing store + * represented by the vnode + * bufsize The size of the upl to create + * uplp Pointer to the upl_t to receive the + * created upl; MUST NOT be NULL + * plp Pointer to receive the internal page + * list for the created upl; MAY be NULL + * to ignore + * + * Returns: KERN_SUCCESS The requested upl has been created + * KERN_INVALID_ARGUMENT The bufsize argument is not an even + * multiple of the page size + * KERN_INVALID_ARGUMENT There is no ubc_info associated with + * the vnode, or there is no memory object + * control associated with the ubc_info + * memory_object_upl_request:KERN_INVALID_VALUE + * The supplied upl_flags argument is + * invalid + * Implicit Returns: + * *uplp (modified) + * *plp (modified) If non-NULL, the value of *plp will be + * modified to point to the internal page + * list; this modification may occur even + * if this function is unsuccessful, in + * which case the contents may be invalid + * + * Note: If successful, the returned *uplp MUST subsequently be freed + * via a call to ubc_upl_commit(), ubc_upl_commit_range(), + * ubc_upl_abort(), or ubc_upl_abort_range(). + */ kern_return_t ubc_create_upl( struct vnode *vp, - off_t f_offset, - long bufsize, - upl_t *uplp, + off_t f_offset, + long bufsize, + upl_t *uplp, upl_page_info_t **plp, - int uplflags) + int uplflags) { memory_object_control_t control; - int count; + mach_msg_type_number_t count; int ubcflags; - off_t file_offset; kern_return_t kr; if (bufsize & 0xfff) @@ -1213,16 +1758,53 @@ ubc_create_upl( if (control == MEMORY_OBJECT_CONTROL_NULL) return KERN_INVALID_ARGUMENT; - uplflags |= (UPL_NO_SYNC|UPL_CLEAN_IN_PLACE|UPL_SET_INTERNAL); + if (uplflags & UPL_WILL_BE_DUMPED) { + uplflags &= ~UPL_WILL_BE_DUMPED; + uplflags |= (UPL_NO_SYNC|UPL_SET_INTERNAL); + } else + uplflags |= (UPL_NO_SYNC|UPL_CLEAN_IN_PLACE|UPL_SET_INTERNAL); count = 0; - kr = memory_object_upl_request(control, f_offset, bufsize, - uplp, NULL, &count, uplflags); + + kr = memory_object_upl_request(control, f_offset, bufsize, uplp, NULL, &count, uplflags); if (plp != NULL) *plp = UPL_GET_INTERNAL_PAGE_LIST(*uplp); return kr; } - + + +/* + * ubc_upl_maxbufsize + * + * Return the maximum bufsize ubc_create_upl( ) will take. + * + * Parameters: none + * + * Returns: maximum size buffer (in bytes) ubc_create_upl( ) will take. + */ +upl_size_t +ubc_upl_maxbufsize( + void) +{ + return(MAX_UPL_SIZE * PAGE_SIZE); +} +/* + * ubc_upl_map + * + * Map the page list assocated with the supplied upl into the kernel virtual + * address space at the virtual address indicated by the dst_addr argument; + * the entire upl is mapped + * + * Parameters: upl The upl to map + * dst_addr The address at which to map the upl + * + * Returns: KERN_SUCCESS The upl has been mapped + * KERN_INVALID_ARGUMENT The upl is UPL_NULL + * KERN_FAILURE The upl is already mapped + * vm_map_enter:KERN_INVALID_ARGUMENT + * A failure code from vm_map_enter() due + * to an invalid argument + */ kern_return_t ubc_upl_map( upl_t upl, @@ -1232,6 +1814,18 @@ ubc_upl_map( } +/* + * ubc_upl_unmap + * + * Unmap the page list assocated with the supplied upl from the kernel virtual + * address space; the entire upl is unmapped. + * + * Parameters: upl The upl to unmap + * + * Returns: KERN_SUCCESS The upl has been unmapped + * KERN_FAILURE The upl is not currently mapped + * KERN_INVALID_ARGUMENT If the upl is UPL_NULL + */ kern_return_t ubc_upl_unmap( upl_t upl) @@ -1239,6 +1833,30 @@ ubc_upl_unmap( return(vm_upl_unmap(kernel_map, upl)); } + +/* + * ubc_upl_commit + * + * Commit the contents of the upl to the backing store + * + * Parameters: upl The upl to commit + * + * Returns: KERN_SUCCESS The upl has been committed + * KERN_INVALID_ARGUMENT The supplied upl was UPL_NULL + * KERN_FAILURE The supplied upl does not represent + * device memory, and the offset plus the + * size would exceed the actual size of + * the upl + * + * Notes: In practice, the only return value for this function should be + * KERN_SUCCESS, unless there has been data structure corruption; + * since the upl is deallocated regardless of success or failure, + * there's really nothing to do about this other than panic. + * + * IMPORTANT: Use of this function should not be mixed with use of + * ubc_upl_commit_range(), due to the unconditional deallocation + * by this function. + */ kern_return_t ubc_upl_commit( upl_t upl) @@ -1247,12 +1865,64 @@ ubc_upl_commit( kern_return_t kr; pl = UPL_GET_INTERNAL_PAGE_LIST(upl); - kr = upl_commit(upl, pl, MAX_UPL_TRANSFER); + kr = upl_commit(upl, pl, MAX_UPL_SIZE); upl_deallocate(upl); return kr; } +/* + * ubc_upl_commit + * + * Commit the contents of the specified range of the upl to the backing store + * + * Parameters: upl The upl to commit + * offset The offset into the upl + * size The size of the region to be committed, + * starting at the specified offset + * flags commit type (see below) + * + * Returns: KERN_SUCCESS The range has been committed + * KERN_INVALID_ARGUMENT The supplied upl was UPL_NULL + * KERN_FAILURE The supplied upl does not represent + * device memory, and the offset plus the + * size would exceed the actual size of + * the upl + * + * Notes: IMPORTANT: If the commit is successful, and the object is now + * empty, the upl will be deallocated. Since the caller cannot + * check that this is the case, the UPL_COMMIT_FREE_ON_EMPTY flag + * should generally only be used when the offset is 0 and the size + * is equal to the upl size. + * + * The flags argument is a bitmap of flags on the rage of pages in + * the upl to be committed; allowable flags are: + * + * o UPL_COMMIT_FREE_ON_EMPTY Free the upl when it is + * both empty and has been + * successfully committed + * o UPL_COMMIT_CLEAR_DIRTY Clear each pages dirty + * bit; will prevent a + * later pageout + * o UPL_COMMIT_SET_DIRTY Set each pages dirty + * bit; will cause a later + * pageout + * o UPL_COMMIT_INACTIVATE Clear each pages + * reference bit; the page + * will not be accessed + * o UPL_COMMIT_ALLOW_ACCESS Unbusy each page; pages + * become busy when an + * IOMemoryDescriptor is + * mapped or redirected, + * and we have to wait for + * an IOKit driver + * + * The flag UPL_COMMIT_NOTIFY_EMPTY is used internally, and should + * not be specified by the caller. + * + * The UPL_COMMIT_CLEAR_DIRTY and UPL_COMMIT_SET_DIRTY flags are + * mutually exclusive, and should not be combined. + */ kern_return_t ubc_upl_commit_range( upl_t upl, @@ -1267,17 +1937,67 @@ ubc_upl_commit_range( if (flags & UPL_COMMIT_FREE_ON_EMPTY) flags |= UPL_COMMIT_NOTIFY_EMPTY; + if (flags & UPL_COMMIT_KERNEL_ONLY_FLAGS) { + return KERN_INVALID_ARGUMENT; + } + pl = UPL_GET_INTERNAL_PAGE_LIST(upl); kr = upl_commit_range(upl, offset, size, flags, - pl, MAX_UPL_TRANSFER, &empty); + pl, MAX_UPL_SIZE, &empty); if((flags & UPL_COMMIT_FREE_ON_EMPTY) && empty) upl_deallocate(upl); return kr; } - + + +/* + * ubc_upl_abort_range + * + * Abort the contents of the specified range of the specified upl + * + * Parameters: upl The upl to abort + * offset The offset into the upl + * size The size of the region to be aborted, + * starting at the specified offset + * abort_flags abort type (see below) + * + * Returns: KERN_SUCCESS The range has been aborted + * KERN_INVALID_ARGUMENT The supplied upl was UPL_NULL + * KERN_FAILURE The supplied upl does not represent + * device memory, and the offset plus the + * size would exceed the actual size of + * the upl + * + * Notes: IMPORTANT: If the abort is successful, and the object is now + * empty, the upl will be deallocated. Since the caller cannot + * check that this is the case, the UPL_ABORT_FREE_ON_EMPTY flag + * should generally only be used when the offset is 0 and the size + * is equal to the upl size. + * + * The abort_flags argument is a bitmap of flags on the range of + * pages in the upl to be aborted; allowable flags are: + * + * o UPL_ABORT_FREE_ON_EMPTY Free the upl when it is both + * empty and has been successfully + * aborted + * o UPL_ABORT_RESTART The operation must be restarted + * o UPL_ABORT_UNAVAILABLE The pages are unavailable + * o UPL_ABORT_ERROR An I/O error occurred + * o UPL_ABORT_DUMP_PAGES Just free the pages + * o UPL_ABORT_NOTIFY_EMPTY RESERVED + * o UPL_ABORT_ALLOW_ACCESS RESERVED + * + * The UPL_ABORT_NOTIFY_EMPTY is an internal use flag and should + * not be specified by the caller. It is intended to fulfill the + * same role as UPL_COMMIT_NOTIFY_EMPTY does in the function + * ubc_upl_commit_range(), but is never referenced internally. + * + * The UPL_ABORT_ALLOW_ACCESS is defined, but neither set nor + * referenced; do not use it. + */ kern_return_t ubc_upl_abort_range( upl_t upl, @@ -1299,6 +2019,49 @@ ubc_upl_abort_range( return kr; } + +/* + * ubc_upl_abort + * + * Abort the contents of the specified upl + * + * Parameters: upl The upl to abort + * abort_type abort type (see below) + * + * Returns: KERN_SUCCESS The range has been aborted + * KERN_INVALID_ARGUMENT The supplied upl was UPL_NULL + * KERN_FAILURE The supplied upl does not represent + * device memory, and the offset plus the + * size would exceed the actual size of + * the upl + * + * Notes: IMPORTANT: If the abort is successful, and the object is now + * empty, the upl will be deallocated. Since the caller cannot + * check that this is the case, the UPL_ABORT_FREE_ON_EMPTY flag + * should generally only be used when the offset is 0 and the size + * is equal to the upl size. + * + * The abort_type is a bitmap of flags on the range of + * pages in the upl to be aborted; allowable flags are: + * + * o UPL_ABORT_FREE_ON_EMPTY Free the upl when it is both + * empty and has been successfully + * aborted + * o UPL_ABORT_RESTART The operation must be restarted + * o UPL_ABORT_UNAVAILABLE The pages are unavailable + * o UPL_ABORT_ERROR An I/O error occurred + * o UPL_ABORT_DUMP_PAGES Just free the pages + * o UPL_ABORT_NOTIFY_EMPTY RESERVED + * o UPL_ABORT_ALLOW_ACCESS RESERVED + * + * The UPL_ABORT_NOTIFY_EMPTY is an internal use flag and should + * not be specified by the caller. It is intended to fulfill the + * same role as UPL_COMMIT_NOTIFY_EMPTY does in the function + * ubc_upl_commit_range(), but is never referenced internally. + * + * The UPL_ABORT_ALLOW_ACCESS is defined, but neither set nor + * referenced; do not use it. + */ kern_return_t ubc_upl_abort( upl_t upl, @@ -1311,9 +2074,627 @@ ubc_upl_abort( return kr; } + +/* + * ubc_upl_pageinfo + * + * Retrieve the internal page list for the specified upl + * + * Parameters: upl The upl to obtain the page list from + * + * Returns: !NULL The (upl_page_info_t *) for the page + * list internal to the upl + * NULL Error/no page list associated + * + * Notes: IMPORTANT: The function is only valid on internal objects + * where the list request was made with the UPL_INTERNAL flag. + * + * This function is a utility helper function, since some callers + * may not have direct access to the header defining the macro, + * due to abstraction layering constraints. + */ upl_page_info_t * ubc_upl_pageinfo( upl_t upl) { return (UPL_GET_INTERNAL_PAGE_LIST(upl)); } + + +int +UBCINFOEXISTS(struct vnode * vp) +{ + return((vp) && ((vp)->v_type == VREG) && ((vp)->v_ubcinfo != UBC_INFO_NULL)); +} + + +/* + * CODE SIGNING + */ +#define CS_BLOB_PAGEABLE 0 +static volatile SInt32 cs_blob_size = 0; +static volatile SInt32 cs_blob_count = 0; +static SInt32 cs_blob_size_peak = 0; +static UInt32 cs_blob_size_max = 0; +static SInt32 cs_blob_count_peak = 0; +extern int cs_debug; + +int cs_validation = 1; + +SYSCTL_INT(_vm, OID_AUTO, cs_validation, CTLFLAG_RW, &cs_validation, 0, "Do validate code signatures"); +SYSCTL_INT(_vm, OID_AUTO, cs_blob_count, CTLFLAG_RD, &cs_blob_count, 0, "Current number of code signature blobs"); +SYSCTL_INT(_vm, OID_AUTO, cs_blob_size, CTLFLAG_RD, &cs_blob_size, 0, "Current size of all code signature blobs"); +SYSCTL_INT(_vm, OID_AUTO, cs_blob_count_peak, CTLFLAG_RD, &cs_blob_count_peak, 0, "Peak number of code signature blobs"); +SYSCTL_INT(_vm, OID_AUTO, cs_blob_size_peak, CTLFLAG_RD, &cs_blob_size_peak, 0, "Peak size of code signature blobs"); +SYSCTL_INT(_vm, OID_AUTO, cs_blob_size_max, CTLFLAG_RD, &cs_blob_size_max, 0, "Size of biggest code signature blob"); + +kern_return_t +ubc_cs_blob_allocate( + vm_offset_t *blob_addr_p, + vm_size_t *blob_size_p) +{ + kern_return_t kr; + +#if CS_BLOB_PAGEABLE + *blob_size_p = round_page(*blob_size_p); + kr = kmem_alloc(kernel_map, blob_addr_p, *blob_size_p); +#else /* CS_BLOB_PAGEABLE */ + *blob_addr_p = (vm_offset_t) kalloc(*blob_size_p); + if (*blob_addr_p == 0) { + kr = KERN_NO_SPACE; + } else { + kr = KERN_SUCCESS; + } +#endif /* CS_BLOB_PAGEABLE */ + return kr; +} + +void +ubc_cs_blob_deallocate( + vm_offset_t blob_addr, + vm_size_t blob_size) +{ +#if CS_BLOB_PAGEABLE + kmem_free(kernel_map, blob_addr, blob_size); +#else /* CS_BLOB_PAGEABLE */ + kfree((void *) blob_addr, blob_size); +#endif /* CS_BLOB_PAGEABLE */ +} + +int +ubc_cs_blob_add( + struct vnode *vp, + cpu_type_t cputype, + off_t base_offset, + vm_address_t addr, + vm_size_t size) +{ + kern_return_t kr; + struct ubc_info *uip; + struct cs_blob *blob, *oblob; + int error; + ipc_port_t blob_handle; + memory_object_size_t blob_size; + const CS_CodeDirectory *cd; + off_t blob_start_offset, blob_end_offset; + SHA1_CTX sha1ctxt; + + blob_handle = IPC_PORT_NULL; + + blob = (struct cs_blob *) kalloc(sizeof (struct cs_blob)); + if (blob == NULL) { + return ENOMEM; + } + +#if CS_BLOB_PAGEABLE + /* get a memory entry on the blob */ + blob_size = (memory_object_size_t) size; + kr = mach_make_memory_entry_64(kernel_map, + &blob_size, + addr, + VM_PROT_READ, + &blob_handle, + IPC_PORT_NULL); + if (kr != KERN_SUCCESS) { + error = ENOMEM; + goto out; + } + if (memory_object_round_page(blob_size) != + (memory_object_size_t) round_page(size)) { + printf("ubc_cs_blob_add: size mismatch 0x%llx 0x%x !?\n", + blob_size, size); + panic("XXX FBDP size mismatch 0x%llx 0x%x\n", blob_size, size); + error = EINVAL; + goto out; + } +#else + blob_size = (memory_object_size_t) size; + blob_handle = IPC_PORT_NULL; +#endif + + /* fill in the new blob */ + blob->csb_cpu_type = cputype; + blob->csb_base_offset = base_offset; + blob->csb_mem_size = size; + blob->csb_mem_offset = 0; + blob->csb_mem_handle = blob_handle; + blob->csb_mem_kaddr = addr; + + /* + * Validate the blob's contents + */ + cd = findCodeDirectory( + (const CS_SuperBlob *) addr, + (char *) addr, + (char *) addr + blob->csb_mem_size); + if (cd == NULL) { + /* no code directory => useless blob ! */ + blob->csb_flags = 0; + blob->csb_start_offset = 0; + blob->csb_end_offset = 0; + } else { + unsigned char *sha1_base; + int sha1_size; + + blob->csb_flags = ntohl(cd->flags) | CS_VALID; + blob->csb_end_offset = round_page(ntohl(cd->codeLimit)); + blob->csb_start_offset = (blob->csb_end_offset - + (ntohl(cd->nCodeSlots) * PAGE_SIZE)); + /* compute the blob's SHA1 hash */ + sha1_base = (const unsigned char *) cd; + sha1_size = ntohl(cd->length); + SHA1Init(&sha1ctxt); + SHA1Update(&sha1ctxt, sha1_base, sha1_size); + SHA1Final(blob->csb_sha1, &sha1ctxt); + } + + /* + * Let policy module check whether the blob's signature is accepted. + */ +#if CONFIG_MACF + error = mac_vnode_check_signature(vp, blob->csb_sha1, (void*)addr, size); + if (error) + goto out; +#endif + + /* + * Validate the blob's coverage + */ + blob_start_offset = blob->csb_base_offset + blob->csb_start_offset; + blob_end_offset = blob->csb_base_offset + blob->csb_end_offset; + + if (blob_start_offset >= blob_end_offset || + blob_start_offset < 0 || + blob_end_offset <= 0) { + /* reject empty or backwards blob */ + error = EINVAL; + goto out; + } + + vnode_lock(vp); + if (! UBCINFOEXISTS(vp)) { + vnode_unlock(vp); + error = ENOENT; + goto out; + } + uip = vp->v_ubcinfo; + + /* check if this new blob overlaps with an existing blob */ + for (oblob = uip->cs_blobs; + oblob != NULL; + oblob = oblob->csb_next) { + off_t oblob_start_offset, oblob_end_offset; + + oblob_start_offset = (oblob->csb_base_offset + + oblob->csb_start_offset); + oblob_end_offset = (oblob->csb_base_offset + + oblob->csb_end_offset); + if (blob_start_offset >= oblob_end_offset || + blob_end_offset <= oblob_start_offset) { + /* no conflict with this existing blob */ + } else { + /* conflict ! */ + if (blob_start_offset == oblob_start_offset && + blob_end_offset == oblob_end_offset && + blob->csb_mem_size == oblob->csb_mem_size && + blob->csb_flags == oblob->csb_flags && + (blob->csb_cpu_type == CPU_TYPE_ANY || + oblob->csb_cpu_type == CPU_TYPE_ANY || + blob->csb_cpu_type == oblob->csb_cpu_type) && + !bcmp(blob->csb_sha1, + oblob->csb_sha1, + SHA1_RESULTLEN)) { + /* + * We already have this blob: + * we'll return success but + * throw away the new blob. + */ + if (oblob->csb_cpu_type == CPU_TYPE_ANY) { + /* + * The old blob matches this one + * but doesn't have any CPU type. + * Update it with whatever the caller + * provided this time. + */ + oblob->csb_cpu_type = cputype; + } + vnode_unlock(vp); + error = EAGAIN; + goto out; + } else { + /* different blob: reject the new one */ + vnode_unlock(vp); + error = EALREADY; + goto out; + } + } + + } + + + /* mark this vnode's VM object as having "signed pages" */ + kr = memory_object_signed(uip->ui_control, TRUE); + if (kr != KERN_SUCCESS) { + vnode_unlock(vp); + error = ENOENT; + goto out; + } + + /* + * Add this blob to the list of blobs for this vnode. + * We always add at the front of the list and we never remove a + * blob from the list, so ubc_cs_get_blobs() can return whatever + * the top of the list was and that list will remain valid + * while we validate a page, even after we release the vnode's lock. + */ + blob->csb_next = uip->cs_blobs; + uip->cs_blobs = blob; + + OSAddAtomic(+1, &cs_blob_count); + if (cs_blob_count > cs_blob_count_peak) { + cs_blob_count_peak = cs_blob_count; /* XXX atomic ? */ + } + OSAddAtomic(+blob->csb_mem_size, &cs_blob_size); + if (cs_blob_size > cs_blob_size_peak) { + cs_blob_size_peak = cs_blob_size; /* XXX atomic ? */ + } + if (blob->csb_mem_size > cs_blob_size_max) { + cs_blob_size_max = blob->csb_mem_size; + } + + if (cs_debug) { + proc_t p; + + p = current_proc(); + printf("CODE SIGNING: proc %d(%s) " + "loaded %s signatures for file (%s) " + "range 0x%llx:0x%llx flags 0x%x\n", + p->p_pid, p->p_comm, + blob->csb_cpu_type == -1 ? "detached" : "embedded", + vnode_name(vp), + blob->csb_base_offset + blob->csb_start_offset, + blob->csb_base_offset + blob->csb_end_offset, + blob->csb_flags); + } + + vnode_unlock(vp); + + error = 0; /* success ! */ + +out: + if (error) { + /* we failed; release what we allocated */ + if (blob) { + kfree(blob, sizeof (*blob)); + blob = NULL; + } + if (blob_handle != IPC_PORT_NULL) { + mach_memory_entry_port_release(blob_handle); + blob_handle = IPC_PORT_NULL; + } + } + + if (error == EAGAIN) { + /* + * See above: error is EAGAIN if we were asked + * to add an existing blob again. We cleaned the new + * blob and we want to return success. + */ + error = 0; + /* + * Since we're not failing, consume the data we received. + */ + ubc_cs_blob_deallocate(addr, size); + } + + return error; +} + + +struct cs_blob * +ubc_cs_blob_get( + struct vnode *vp, + cpu_type_t cputype, + off_t offset) +{ + struct ubc_info *uip; + struct cs_blob *blob; + off_t offset_in_blob; + + vnode_lock_spin(vp); + + if (! UBCINFOEXISTS(vp)) { + blob = NULL; + goto out; + } + + uip = vp->v_ubcinfo; + for (blob = uip->cs_blobs; + blob != NULL; + blob = blob->csb_next) { + if (cputype != -1 && blob->csb_cpu_type == cputype) { + break; + } + if (offset != -1) { + offset_in_blob = offset - blob->csb_base_offset; + if (offset_in_blob >= blob->csb_start_offset && + offset_in_blob < blob->csb_end_offset) { + /* our offset is covered by this blob */ + break; + } + } + } + +out: + vnode_unlock(vp); + + return blob; +} + +static void +ubc_cs_free( + struct ubc_info *uip) +{ + struct cs_blob *blob, *next_blob; + + for (blob = uip->cs_blobs; + blob != NULL; + blob = next_blob) { + next_blob = blob->csb_next; + if (blob->csb_mem_kaddr != 0) { + ubc_cs_blob_deallocate(blob->csb_mem_kaddr, + blob->csb_mem_size); + blob->csb_mem_kaddr = 0; + } + if (blob->csb_mem_handle != IPC_PORT_NULL) { + mach_memory_entry_port_release(blob->csb_mem_handle); + } + blob->csb_mem_handle = IPC_PORT_NULL; + OSAddAtomic(-1, &cs_blob_count); + OSAddAtomic(-blob->csb_mem_size, &cs_blob_size); + kfree(blob, sizeof (*blob)); + } + uip->cs_blobs = NULL; +} + +struct cs_blob * +ubc_get_cs_blobs( + struct vnode *vp) +{ + struct ubc_info *uip; + struct cs_blob *blobs; + + vnode_lock_spin(vp); + + if (! UBCINFOEXISTS(vp)) { + blobs = NULL; + goto out; + } + + uip = vp->v_ubcinfo; + blobs = uip->cs_blobs; + +out: + vnode_unlock(vp); + + return blobs; +} + +unsigned long cs_validate_page_no_hash = 0; +unsigned long cs_validate_page_bad_hash = 0; +boolean_t +cs_validate_page( + void *_blobs, + memory_object_offset_t page_offset, + const void *data, + boolean_t *tainted) +{ + SHA1_CTX sha1ctxt; + unsigned char actual_hash[SHA1_RESULTLEN]; + unsigned char expected_hash[SHA1_RESULTLEN]; + boolean_t found_hash; + struct cs_blob *blobs, *blob; + const CS_CodeDirectory *cd; + const CS_SuperBlob *embedded; + off_t start_offset, end_offset; + const unsigned char *hash; + boolean_t validated; + off_t offset; /* page offset in the file */ + size_t size; + off_t codeLimit = 0; + char *lower_bound, *upper_bound; + vm_offset_t kaddr, blob_addr; + vm_size_t ksize; + kern_return_t kr; + + offset = page_offset; + + /* retrieve the expected hash */ + found_hash = FALSE; + blobs = (struct cs_blob *) _blobs; + + for (blob = blobs; + blob != NULL; + blob = blob->csb_next) { + offset = page_offset - blob->csb_base_offset; + if (offset < blob->csb_start_offset || + offset >= blob->csb_end_offset) { + /* our page is not covered by this blob */ + continue; + } + + /* map the blob in the kernel address space */ + kaddr = blob->csb_mem_kaddr; + if (kaddr == 0) { + ksize = (vm_size_t) (blob->csb_mem_size + + blob->csb_mem_offset); + kr = vm_map(kernel_map, + &kaddr, + ksize, + 0, + VM_FLAGS_ANYWHERE, + blob->csb_mem_handle, + 0, + TRUE, + VM_PROT_READ, + VM_PROT_READ, + VM_INHERIT_NONE); + if (kr != KERN_SUCCESS) { + /* XXX FBDP what to do !? */ + printf("cs_validate_page: failed to map blob, " + "size=0x%x kr=0x%x\n", + blob->csb_mem_size, kr); + break; + } + } + blob_addr = kaddr + blob->csb_mem_offset; + + lower_bound = CAST_DOWN(char *, blob_addr); + upper_bound = lower_bound + blob->csb_mem_size; + + embedded = (const CS_SuperBlob *) blob_addr; + cd = findCodeDirectory(embedded, lower_bound, upper_bound); + if (cd != NULL) { + if (cd->pageSize != PAGE_SHIFT || + cd->hashType != 0x1 || + cd->hashSize != SHA1_RESULTLEN) { + /* bogus blob ? */ + continue; + } + + end_offset = round_page(ntohl(cd->codeLimit)); + start_offset = end_offset - (ntohl(cd->nCodeSlots) * PAGE_SIZE); + offset = page_offset - blob->csb_base_offset; + if (offset < start_offset || + offset >= end_offset) { + /* our page is not covered by this blob */ + continue; + } + + codeLimit = ntohl(cd->codeLimit); + hash = hashes(cd, atop(offset), + lower_bound, upper_bound); + if (hash != NULL) { + bcopy(hash, expected_hash, + sizeof (expected_hash)); + found_hash = TRUE; + } + + break; + } + } + + if (found_hash == FALSE) { + /* + * We can't verify this page because there is no signature + * for it (yet). It's possible that this part of the object + * is not signed, or that signatures for that part have not + * been loaded yet. + * Report that the page has not been validated and let the + * caller decide if it wants to accept it or not. + */ + cs_validate_page_no_hash++; + if (cs_debug > 1) { + printf("CODE SIGNING: cs_validate_page: " + "off 0x%llx: no hash to validate !?\n", + page_offset); + } + validated = FALSE; + *tainted = FALSE; + } else { + + size = PAGE_SIZE; + const uint32_t *asha1, *esha1; + if (offset + size > codeLimit) { + /* partial page at end of segment */ + assert(offset < codeLimit); + size = codeLimit & PAGE_MASK; + } + /* compute the actual page's SHA1 hash */ + SHA1Init(&sha1ctxt); + SHA1UpdateUsePhysicalAddress(&sha1ctxt, data, size); + SHA1Final(actual_hash, &sha1ctxt); + + asha1 = (const uint32_t *) actual_hash; + esha1 = (const uint32_t *) expected_hash; + + if (bcmp(expected_hash, actual_hash, SHA1_RESULTLEN) != 0) { + if (cs_debug) { + printf("CODE SIGNING: cs_validate_page: " + "off 0x%llx size 0x%lx: " + "actual [0x%x 0x%x 0x%x 0x%x 0x%x] != " + "expected [0x%x 0x%x 0x%x 0x%x 0x%x]\n", + page_offset, size, + asha1[0], asha1[1], asha1[2], + asha1[3], asha1[4], + esha1[0], esha1[1], esha1[2], + esha1[3], esha1[4]); + } + cs_validate_page_bad_hash++; + *tainted = TRUE; + } else { + if (cs_debug > 1) { + printf("CODE SIGNING: cs_validate_page: " + "off 0x%llx size 0x%lx: SHA1 OK\n", + page_offset, size); + } + *tainted = FALSE; + } + validated = TRUE; + } + + return validated; +} + +int +ubc_cs_getcdhash( + vnode_t vp, + off_t offset, + unsigned char *cdhash) +{ + struct cs_blob *blobs, *blob; + off_t rel_offset; + + blobs = ubc_get_cs_blobs(vp); + for (blob = blobs; + blob != NULL; + blob = blob->csb_next) { + /* compute offset relative to this blob */ + rel_offset = offset - blob->csb_base_offset; + if (rel_offset >= blob->csb_start_offset && + rel_offset < blob->csb_end_offset) { + /* this blob does cover our "offset" ! */ + break; + } + } + + if (blob == NULL) { + /* we didn't find a blob covering "offset" */ + return EBADEXEC; /* XXX any better error ? */ + } + + /* get the SHA1 hash of that blob */ + bcopy(blob->csb_sha1, cdhash, sizeof (blob->csb_sha1)); + + return 0; +}