/* * CDDL HEADER START * * The contents of this file are subject to the terms of the * Common Development and Distribution License, Version 1.0 only * (the "License"). You may not use this file except in compliance * with the License. * * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE * or http://www.opensolaris.org/os/licensing. * See the License for the specific language governing permissions * and limitations under the License. * * When distributing Covered Code, include this CDDL HEADER in each * file and include the License file at usr/src/OPENSOLARIS.LICENSE. * If applicable, add the following below this CDDL HEADER, with the * fields enclosed by brackets "[]" replaced with your own identifying * information: Portions Copyright [yyyy] [name of copyright owner] * * CDDL HEADER END */ /* * Copyright 2005 Sun Microsystems, Inc. All rights reserved. * Use is subject to license terms. */ #pragma ident "%Z%%M% %I% %E% SMI" #include "lint.h" #include "thr_uberdata.h" #define MIN_MOD_SLOTS 16 /* * To inform libc_init that we are on the primary link map. */ int primary_link_map; #if defined(_LP64) #define ALIGN 16 #else #define ALIGN 8 #endif /* * Grow the TLS module information array as necessary to include the * specified module-id. tls_modinfo->tls_size must be a power of two. * Return a pointer to the (possibly reallocated) module information array. */ static TLS_modinfo * tls_modinfo_alloc(tls_metadata_t *tlsm, ulong_t moduleid) { tls_t *tls_modinfo = &tlsm->tls_modinfo; TLS_modinfo *modinfo; size_t mod_slots; if ((modinfo = tls_modinfo->tls_data) == NULL || tls_modinfo->tls_size <= moduleid) { if ((mod_slots = tls_modinfo->tls_size) == 0) mod_slots = MIN_MOD_SLOTS; while (mod_slots <= moduleid) mod_slots *= 2; modinfo = lmalloc(mod_slots * sizeof (TLS_modinfo)); if (tls_modinfo->tls_data != NULL) { (void) _private_memcpy(modinfo, tls_modinfo->tls_data, tls_modinfo->tls_size * sizeof (TLS_modinfo)); lfree(tls_modinfo->tls_data, tls_modinfo->tls_size * sizeof (TLS_modinfo)); } tls_modinfo->tls_data = modinfo; tls_modinfo->tls_size = mod_slots; } return (modinfo); } /* * This is called from the dynamic linker, before libc_init() is called, * to setup all of the TLS blocks that are available at process startup * and hence must be included as part of the static TLS block. * No locks are needed because we are single-threaded at this point. * We must be careful not to call any function that could possibly * invoke the dynamic linker. That is, we must only call functions * that are wholly private to libc. */ void __tls_static_mods(TLS_modinfo **tlslist, unsigned long statictlssize) { ulwp_t *oldself = __curthread(); tls_metadata_t *tlsm; TLS_modinfo **tlspp; TLS_modinfo *tlsp; TLS_modinfo *modinfo; caddr_t data; caddr_t data_end; int max_modid; primary_link_map = 1; /* inform libc_init */ if (statictlssize == 0) return; /* * Retrieve whatever dynamic TLS metadata was generated by code * running on alternate link maps prior to now (we must be running * on the primary link map now since __tls_static_mods() is only * called on the primary link map). */ tlsm = &__uberdata.tls_metadata; if (oldself != NULL) { (void) _private_memcpy(tlsm, &oldself->ul_uberdata->tls_metadata, sizeof (*tlsm)); ASSERT(tlsm->static_tls.tls_data == NULL); } /* * We call lmalloc() to allocate the template even though libc_init() * has not yet been called. lmalloc() must and does deal with this. */ ASSERT((statictlssize & (ALIGN - 1)) == 0); tlsm->static_tls.tls_data = data = lmalloc(statictlssize); data_end = data + statictlssize; tlsm->static_tls.tls_size = statictlssize; /* * Initialize the static TLS template. * We make no assumptions about the order in memory of the TLS * modules we are processing, only that they fit within the * total size we are given and that they are self-consistent. * We do not assume any order for the moduleid's; we only assume * that they are reasonably small integers. */ for (max_modid = 0, tlspp = tlslist; (tlsp = *tlspp) != NULL; tlspp++) { ASSERT(tlsp->tm_flags & TM_FLG_STATICTLS); ASSERT(tlsp->tm_stattlsoffset > 0); ASSERT(tlsp->tm_stattlsoffset <= statictlssize); ASSERT((tlsp->tm_stattlsoffset & (ALIGN - 1)) == 0); ASSERT(tlsp->tm_filesz <= tlsp->tm_memsz); ASSERT(tlsp->tm_memsz <= tlsp->tm_stattlsoffset); if (tlsp->tm_filesz) (void) _private_memcpy(data_end-tlsp->tm_stattlsoffset, tlsp->tm_tlsblock, tlsp->tm_filesz); if (max_modid < tlsp->tm_modid) max_modid = tlsp->tm_modid; } /* * Record the static TLS_modinfo information. */ modinfo = tls_modinfo_alloc(tlsm, max_modid); for (tlspp = tlslist; (tlsp = *tlspp) != NULL; tlspp++) (void) _private_memcpy(&modinfo[tlsp->tm_modid], tlsp, sizeof (*tlsp)); /* * Copy the new tls_metadata back to the old, if any, * since it will be copied up again in libc_init(). */ if (oldself != NULL) (void) _private_memcpy(&oldself->ul_uberdata->tls_metadata, tlsm, sizeof (*tlsm)); } /* * This is called from the dynamic linker for each module not included * in the static TLS mod list, after the module has been loaded but * before any of the module's init code has been executed. */ void __tls_mod_add(TLS_modinfo *tlsp) { tls_metadata_t *tlsm = &curthread->ul_uberdata->tls_metadata; ulong_t moduleid = tlsp->tm_modid; TLS_modinfo *modinfo; lmutex_lock(&tlsm->tls_lock); ASSERT(!(tlsp->tm_flags & TM_FLG_STATICTLS)); ASSERT(tlsp->tm_filesz <= tlsp->tm_memsz); modinfo = tls_modinfo_alloc(tlsm, moduleid); (void) _private_memcpy(&modinfo[moduleid], tlsp, sizeof (*tlsp)); lmutex_unlock(&tlsm->tls_lock); } /* * Called for each module as it is unloaded from memory by dlclose(). */ void __tls_mod_remove(TLS_modinfo *tlsp) { tls_metadata_t *tlsm = &curthread->ul_uberdata->tls_metadata; ulong_t moduleid = tlsp->tm_modid; TLS_modinfo *modinfo; lmutex_lock(&tlsm->tls_lock); ASSERT(tlsm->tls_modinfo.tls_data != NULL && moduleid < tlsm->tls_modinfo.tls_size); modinfo = tlsm->tls_modinfo.tls_data; (void) _private_memset(&modinfo[moduleid], 0, sizeof (TLS_modinfo)); lmutex_unlock(&tlsm->tls_lock); } extern int _preexec_exit_handlers(); extern void libc_init(); const Lc_interface tls_rtldinfo[] = { {CI_VERSION, (int(*)())CI_V_CURRENT}, {CI_ATEXIT, (int(*)())_preexec_exit_handlers}, {CI_TLS_MODADD, (int(*)())__tls_mod_add}, {CI_TLS_MODREM, (int(*)())__tls_mod_remove}, {CI_TLS_STATMOD, (int(*)())__tls_static_mods}, {CI_THRINIT, (int(*)())libc_init}, {CI_NULL, (int(*)())NULL} }; /* * Return the address of a TLS variable for the current thread. * Run the constructors for newly-allocated dynamic TLS. */ void * slow_tls_get_addr(TLS_index *tls_index) { ulwp_t *self = curthread; tls_metadata_t *tlsm = &self->ul_uberdata->tls_metadata; TLS_modinfo *tlsp; ulong_t moduleid; tls_t *tlsent; caddr_t base; void (**initarray)(void); ulong_t arraycnt = 0; /* * Defer signals until we have finished calling * all of the constructors. */ sigoff(self); lmutex_lock(&tlsm->tls_lock); if ((moduleid = tls_index->ti_moduleid) < self->ul_ntlsent) tlsent = self->ul_tlsent; else { ASSERT(moduleid < tlsm->tls_modinfo.tls_size); tlsent = lmalloc(tlsm->tls_modinfo.tls_size * sizeof (tls_t)); if (self->ul_tlsent != NULL) { (void) _private_memcpy(tlsent, self->ul_tlsent, self->ul_ntlsent * sizeof (tls_t)); lfree(self->ul_tlsent, self->ul_ntlsent * sizeof (tls_t)); } self->ul_tlsent = tlsent; self->ul_ntlsent = tlsm->tls_modinfo.tls_size; } tlsent += moduleid; if ((base = tlsent->tls_data) == NULL) { tlsp = (TLS_modinfo *)tlsm->tls_modinfo.tls_data + moduleid; if (tlsp->tm_memsz == 0) { /* dlclose()d module? */ base = NULL; } else if (tlsp->tm_flags & TM_FLG_STATICTLS) { /* static TLS is already allocated/initialized */ base = (caddr_t)self - tlsp->tm_stattlsoffset; tlsent->tls_data = base; tlsent->tls_size = 0; /* don't lfree() this space */ } else { /* allocate/initialize the dynamic TLS */ base = lmalloc(tlsp->tm_memsz); if (tlsp->tm_filesz != 0) (void) _private_memcpy(base, tlsp->tm_tlsblock, tlsp->tm_filesz); tlsent->tls_data = base; tlsent->tls_size = tlsp->tm_memsz; /* remember the constructors */ arraycnt = tlsp->tm_tlsinitarraycnt; initarray = tlsp->tm_tlsinitarray; } } lmutex_unlock(&tlsm->tls_lock); /* * Call constructors, if any, in ascending order. * We have to do this after dropping tls_lock because * we have no idea what the constructors will do. * At least we have signals deferred until they are done. */ if (arraycnt) { do { (**initarray++)(); } while (--arraycnt != 0); } sigon(self); return (base + tls_index->ti_tlsoffset); } #ifdef TLS_GET_ADDR_IS_WRITTEN_IN_ASSEMBLER /* * For speed, we do not make reference to any static data in this function. * If necessary to do so, we do a tail call to slow_tls_get_addr(). */ void * __tls_get_addr(TLS_index *tls_index) { ulwp_t *self = curthread; tls_t *tlsent = self->ul_tlsent; ulong_t moduleid; caddr_t base; if ((moduleid = tls_index->ti_moduleid) < self->ul_ntlsent && (base = tlsent[moduleid].tls_data) != NULL) return (base + tls_index->ti_tlsoffset); return (slow_tls_get_addr(tls_index)); } #endif /* TLS_GET_ADDR_IS_WRITTEN_IN_ASSEMBLER */ /* * This is called by _thr_setup() to initialize the thread's static TLS. * Constructors for initially allocated static TLS are called here. */ void tls_setup() { ulwp_t *self = curthread; tls_metadata_t *tlsm = &self->ul_uberdata->tls_metadata; TLS_modinfo *tlsp; long moduleid; ulong_t nmods; if (tlsm->static_tls.tls_size == 0) /* no static TLS */ return; /* static TLS initialization */ (void) _private_memcpy((caddr_t)self - tlsm->static_tls.tls_size, tlsm->static_tls.tls_data, tlsm->static_tls.tls_size); /* call TLS constructors for the static TLS just initialized */ lmutex_lock(&tlsm->tls_lock); nmods = tlsm->tls_modinfo.tls_size; for (moduleid = 0; moduleid < nmods; moduleid++) { /* * Resume where we left off in the module array. * tls_modinfo.tls_data may have changed since we * dropped and reacquired tls_lock, but TLS modules * retain their positions in the new array. */ tlsp = (TLS_modinfo *)tlsm->tls_modinfo.tls_data + moduleid; /* * Call constructors for this module if there are any * to be called and if it is part of the static TLS. */ if (tlsp->tm_tlsinitarraycnt != 0 && (tlsp->tm_flags & TM_FLG_STATICTLS)) { ulong_t arraycnt = tlsp->tm_tlsinitarraycnt; void (**initarray)(void) = tlsp->tm_tlsinitarray; /* * Call the constructors in ascending order. * We must drop tls_lock while doing this because * we have no idea what the constructors will do. */ lmutex_unlock(&tlsm->tls_lock); do { (**initarray++)(); } while (--arraycnt != 0); lmutex_lock(&tlsm->tls_lock); } } lmutex_unlock(&tlsm->tls_lock); } /* * This is called by _thrp_exit() to deallocate the thread's TLS. * Destructors for all allocated TLS are called here. */ void tls_exit() { ulwp_t *self = curthread; tls_metadata_t *tlsm = &self->ul_uberdata->tls_metadata; tls_t *tlsent; TLS_modinfo *tlsp; long moduleid; ulong_t nmods; if (tlsm->static_tls.tls_size == 0 && self->ul_ntlsent == 0) return; /* no TLS */ /* * Call TLS destructors for all TLS allocated for this thread. */ lmutex_lock(&tlsm->tls_lock); nmods = tlsm->tls_modinfo.tls_size; for (moduleid = nmods - 1; moduleid >= 0; --moduleid) { /* * Resume where we left off in the module array. * tls_modinfo.tls_data may have changed since we * dropped and reacquired tls_lock, but TLS modules * retain their positions in the new array. */ tlsp = (TLS_modinfo *)tlsm->tls_modinfo.tls_data + moduleid; /* * Call destructors for this module if there are any * to be called and if it is part of the static TLS or * if the dynamic TLS for the module has been allocated. */ if (tlsp->tm_tlsfiniarraycnt != 0 && ((tlsp->tm_flags & TM_FLG_STATICTLS) || (moduleid < self->ul_ntlsent && (tlsent = self->ul_tlsent) != NULL && tlsent[moduleid].tls_data != NULL))) { ulong_t arraycnt = tlsp->tm_tlsfiniarraycnt; void (**finiarray)(void) = tlsp->tm_tlsfiniarray; /* * Call the destructors in descending order. * We must drop tls_lock while doing this because * we have no idea what the destructors will do. */ lmutex_unlock(&tlsm->tls_lock); finiarray += arraycnt; do { (**--finiarray)(); } while (--arraycnt != 0); lmutex_lock(&tlsm->tls_lock); } } lmutex_unlock(&tlsm->tls_lock); tls_free(self); } /* * We only free the dynamically allocated TLS; the statically * allocated TLS is reused when the ulwp_t is reallocated. */ void tls_free(ulwp_t *ulwp) { ulong_t moduleid; tls_t *tlsent; size_t ntlsent; void *base; size_t size; if ((tlsent = ulwp->ul_tlsent) == NULL || (ntlsent = ulwp->ul_ntlsent) == 0) return; for (moduleid = 0; moduleid < ntlsent; moduleid++, tlsent++) { if ((base = tlsent->tls_data) != NULL && (size = tlsent->tls_size) != 0) lfree(base, size); tlsent->tls_data = NULL; /* paranoia */ tlsent->tls_size = 0; } lfree(ulwp->ul_tlsent, ntlsent * sizeof (tls_t)); ulwp->ul_tlsent = NULL; ulwp->ul_ntlsent = 0; }