/* * Copyright (c) 2004 David Xu * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * * THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF * SUCH DAMAGE. */ #include __FBSDID("$FreeBSD$"); #include #include #include #include #include #include #include #include #include #include #include "libpthread_db.h" #include "kse.h" #define P2T(c) ps2td(c) static void pt_unmap_lwp(const td_thragent_t *ta, lwpid_t lwp); static int pt_validate(const td_thrhandle_t *th); static int ps2td(int c) { switch (c) { case PS_OK: return TD_OK; case PS_ERR: return TD_ERR; case PS_BADPID: return TD_BADPH; case PS_BADLID: return TD_NOLWP; case PS_BADADDR: return TD_ERR; case PS_NOSYM: return TD_NOLIBTHREAD; case PS_NOFREGS: return TD_NOFPREGS; default: return TD_ERR; } } static long pt_map_thread(const td_thragent_t *const_ta, psaddr_t pt, enum pt_type type) { td_thragent_t *ta = __DECONST(td_thragent_t *, const_ta); struct pt_map *new; int i, first = -1; /* leave zero out */ for (i = 1; i < ta->map_len; ++i) { if (ta->map[i].type == PT_NONE) { if (first == -1) first = i; } else if (ta->map[i].type == type && ta->map[i].thr == pt) { return (i); } } if (first == -1) { if (ta->map_len == 0) { ta->map = calloc(20, sizeof(struct pt_map)); if (ta->map == NULL) return (-1); ta->map_len = 20; first = 1; } else { new = realloc(ta->map, sizeof(struct pt_map) * ta->map_len * 2); if (new == NULL) return (-1); memset(new + ta->map_len, '\0', sizeof(struct pt_map) * ta->map_len); first = ta->map_len; ta->map = new; ta->map_len *= 2; } } ta->map[first].type = type; ta->map[first].thr = pt; return (first); } static td_err_e pt_init(void) { pt_md_init(); return (0); } static td_err_e pt_ta_new(struct ps_prochandle *ph, td_thragent_t **pta) { #define LOOKUP_SYM(proc, sym, addr) \ ret = ps_pglobal_lookup(proc, NULL, sym, addr); \ if (ret != 0) { \ TDBG("can not find symbol: %s\n", sym); \ ret = TD_NOLIBTHREAD; \ goto error; \ } #define LOOKUP_VAL(proc, sym, val) \ ret = ps_pglobal_lookup(proc, NULL, sym, &vaddr);\ if (ret != 0) { \ TDBG("can not find symbol: %s\n", sym); \ ret = TD_NOLIBTHREAD; \ goto error; \ } \ ret = ps_pread(proc, vaddr, val, sizeof(int)); \ if (ret != 0) { \ TDBG("can not read value of %s\n", sym);\ ret = TD_NOLIBTHREAD; \ goto error; \ } td_thragent_t *ta; psaddr_t vaddr; int dbg; int ret; TDBG_FUNC(); ta = malloc(sizeof(td_thragent_t)); if (ta == NULL) return (TD_MALLOC); ta->ph = ph; ta->thread_activated = 0; ta->map = NULL; ta->map_len = 0; LOOKUP_SYM(ph, "_libkse_debug", &ta->libkse_debug_addr); LOOKUP_SYM(ph, "_thread_list", &ta->thread_list_addr); LOOKUP_SYM(ph, "_thread_activated", &ta->thread_activated_addr); LOOKUP_SYM(ph, "_thread_active_threads",&ta->thread_active_threads_addr); LOOKUP_SYM(ph, "_thread_keytable", &ta->thread_keytable_addr); LOOKUP_VAL(ph, "_thread_off_dtv", &ta->thread_off_dtv); LOOKUP_VAL(ph, "_thread_off_kse_locklevel", &ta->thread_off_kse_locklevel); LOOKUP_VAL(ph, "_thread_off_kse", &ta->thread_off_kse); LOOKUP_VAL(ph, "_thread_off_tlsindex", &ta->thread_off_tlsindex); LOOKUP_VAL(ph, "_thread_off_attr_flags", &ta->thread_off_attr_flags); LOOKUP_VAL(ph, "_thread_size_key", &ta->thread_size_key); LOOKUP_VAL(ph, "_thread_off_tcb", &ta->thread_off_tcb); LOOKUP_VAL(ph, "_thread_off_linkmap", &ta->thread_off_linkmap); LOOKUP_VAL(ph, "_thread_off_tmbx", &ta->thread_off_tmbx); LOOKUP_VAL(ph, "_thread_off_thr_locklevel", &ta->thread_off_thr_locklevel); LOOKUP_VAL(ph, "_thread_off_next", &ta->thread_off_next); LOOKUP_VAL(ph, "_thread_off_state", &ta->thread_off_state); LOOKUP_VAL(ph, "_thread_max_keys", &ta->thread_max_keys); LOOKUP_VAL(ph, "_thread_off_key_allocated", &ta->thread_off_key_allocated); LOOKUP_VAL(ph, "_thread_off_key_destructor", &ta->thread_off_key_destructor); LOOKUP_VAL(ph, "_thread_state_running", &ta->thread_state_running); LOOKUP_VAL(ph, "_thread_state_zoombie", &ta->thread_state_zoombie); LOOKUP_VAL(ph, "_thread_off_sigmask", &ta->thread_off_sigmask); LOOKUP_VAL(ph, "_thread_off_sigpend", &ta->thread_off_sigpend); dbg = getpid(); /* * If this fails it probably means we're debugging a core file and * can't write to it. */ ps_pwrite(ph, ta->libkse_debug_addr, &dbg, sizeof(int)); *pta = ta; return (0); error: free(ta); return (ret); } static td_err_e pt_ta_delete(td_thragent_t *ta) { int dbg; TDBG_FUNC(); dbg = 0; /* * Error returns from this write are not really a problem; * the process doesn't exist any more. */ ps_pwrite(ta->ph, ta->libkse_debug_addr, &dbg, sizeof(int)); if (ta->map) free(ta->map); free(ta); return (TD_OK); } static td_err_e pt_ta_map_id2thr(const td_thragent_t *ta, thread_t id, td_thrhandle_t *th) { prgregset_t gregs; psaddr_t pt, tcb_addr; lwpid_t lwp; int ret; TDBG_FUNC(); if (id < 0 || id >= ta->map_len || ta->map[id].type == PT_NONE) return (TD_NOTHR); ret = thr_pread_ptr(ta, ta->thread_list_addr, &pt); if (ret != 0) return (TD_ERR); if (ta->map[id].type == PT_LWP) { /* * if we are referencing a lwp, make sure it was not already * mapped to user thread. */ while (pt != 0) { ret = thr_pread_ptr(ta, pt + ta->thread_off_tcb, &tcb_addr); if (ret != 0) return (TD_ERR); ret = thr_pread_int(ta, tcb_addr + ta->thread_off_tmbx + offsetof(struct kse_thr_mailbox, tm_lwp), &lwp); if (ret != 0) return (TD_ERR); /* * If the lwp was already mapped to userland thread, * we shouldn't reference it directly in future. */ if (lwp == ta->map[id].lwp) { ta->map[id].type = PT_NONE; return (TD_NOTHR); } /* get next thread */ ret = thr_pread_ptr(ta, pt + ta->thread_off_next, &pt); if (ret != 0) return (TD_ERR); } /* check lwp */ ret = ps_lgetregs(ta->ph, ta->map[id].lwp, gregs); if (ret != PS_OK) { /* no longer exists */ ta->map[id].type = PT_NONE; return (TD_NOTHR); } } else { while (pt != 0 && ta->map[id].thr != pt) { ret = thr_pread_ptr(ta, pt + ta->thread_off_tcb, &tcb_addr); if (ret != 0) return (TD_ERR); /* get next thread */ ret = thr_pread_ptr(ta, pt + ta->thread_off_next, &pt); if (ret != 0) return (TD_ERR); } if (pt == 0) { /* no longer exists */ ta->map[id].type = PT_NONE; return (TD_NOTHR); } } th->th_ta = ta; th->th_tid = id; th->th_thread = pt; return (TD_OK); } static td_err_e pt_ta_map_lwp2thr(const td_thragent_t *ta, lwpid_t lwp, td_thrhandle_t *th) { psaddr_t pt, tcb_addr; lwpid_t lwp1; int ret; TDBG_FUNC(); ret = thr_pread_ptr(ta, ta->thread_list_addr, &pt); if (ret != 0) return (TD_ERR); while (pt != 0) { ret = thr_pread_ptr(ta, pt + ta->thread_off_tcb, &tcb_addr); if (ret != 0) return (TD_ERR); ret = thr_pread_int(ta, tcb_addr + ta->thread_off_tmbx + offsetof(struct kse_thr_mailbox, tm_lwp), &lwp1); if (ret != 0) return (TD_ERR); if (lwp1 == lwp) { th->th_ta = ta; th->th_tid = pt_map_thread(ta, pt, PT_USER); if (th->th_tid == -1) return (TD_MALLOC); pt_unmap_lwp(ta, lwp); th->th_thread = pt; return (TD_OK); } /* get next thread */ ret = thr_pread_ptr(ta, pt + ta->thread_off_next, &pt); if (ret != 0) return (TD_ERR); } return (TD_NOTHR); } static td_err_e pt_ta_thr_iter(const td_thragent_t *ta, td_thr_iter_f *callback, void *cbdata_p, td_thr_state_e state __unused, int ti_pri __unused, sigset_t *ti_sigmask_p __unused, unsigned int ti_user_flags __unused) { td_thrhandle_t th; psaddr_t pt; ps_err_e pserr; int activated, ret; TDBG_FUNC(); pserr = ps_pread(ta->ph, ta->thread_activated_addr, &activated, sizeof(int)); if (pserr != PS_OK) return (P2T(pserr)); if (!activated) return (TD_OK); ret = thr_pread_ptr(ta, ta->thread_list_addr, &pt); if (ret != 0) return (TD_ERR); while (pt != 0) { th.th_ta = ta; th.th_tid = pt_map_thread(ta, pt, PT_USER); th.th_thread = pt; /* should we unmap lwp here ? */ if (th.th_tid == -1) return (TD_MALLOC); if ((*callback)(&th, cbdata_p)) return (TD_DBERR); /* get next thread */ ret = thr_pread_ptr(ta, pt + ta->thread_off_next, &pt); if (ret != 0) return (TD_ERR); } return (TD_OK); } static td_err_e pt_ta_tsd_iter(const td_thragent_t *ta, td_key_iter_f *ki, void *arg) { void *keytable; void *destructor; int i, ret, allocated; TDBG_FUNC(); keytable = malloc(ta->thread_max_keys * ta->thread_size_key); if (keytable == NULL) return (TD_MALLOC); ret = ps_pread(ta->ph, (psaddr_t)ta->thread_keytable_addr, keytable, ta->thread_max_keys * ta->thread_size_key); if (ret != 0) { free(keytable); return (P2T(ret)); } for (i = 0; i < ta->thread_max_keys; i++) { allocated = *(int *)(void *)((uintptr_t)keytable + i * ta->thread_size_key + ta->thread_off_key_allocated); destructor = *(void **)(void *)((uintptr_t)keytable + i * ta->thread_size_key + ta->thread_off_key_destructor); if (allocated) { ret = (ki)(i, destructor, arg); if (ret != 0) { free(keytable); return (TD_DBERR); } } } free(keytable); return (TD_OK); } static td_err_e pt_ta_event_addr(const td_thragent_t *ta __unused, td_event_e event __unused, td_notify_t *ptr __unused) { TDBG_FUNC(); return (TD_ERR); } static td_err_e pt_ta_set_event(const td_thragent_t *ta __unused, td_thr_events_t *events __unused) { TDBG_FUNC(); return (0); } static td_err_e pt_ta_clear_event(const td_thragent_t *ta __unused, td_thr_events_t *events __unused) { TDBG_FUNC(); return (0); } static td_err_e pt_ta_event_getmsg(const td_thragent_t *ta __unused, td_event_msg_t *msg __unused) { TDBG_FUNC(); return (TD_NOMSG); } static td_err_e pt_dbsuspend(const td_thrhandle_t *th, int suspend) { const td_thragent_t *ta = th->th_ta; psaddr_t tcb_addr, tmbx_addr, ptr; lwpid_t lwp; uint32_t dflags; int attrflags, locklevel, ret; TDBG_FUNC(); ret = pt_validate(th); if (ret) return (ret); if (ta->map[th->th_tid].type == PT_LWP) { if (suspend) ret = ps_lstop(ta->ph, ta->map[th->th_tid].lwp); else ret = ps_lcontinue(ta->ph, ta->map[th->th_tid].lwp); return (P2T(ret)); } ret = ps_pread(ta->ph, ta->map[th->th_tid].thr + ta->thread_off_attr_flags, &attrflags, sizeof(attrflags)); if (ret != 0) return (P2T(ret)); ret = ps_pread(ta->ph, ta->map[th->th_tid].thr + ta->thread_off_tcb, &tcb_addr, sizeof(tcb_addr)); if (ret != 0) return (P2T(ret)); tmbx_addr = tcb_addr + ta->thread_off_tmbx; ptr = tmbx_addr + offsetof(struct kse_thr_mailbox, tm_lwp); ret = ps_pread(ta->ph, ptr, &lwp, sizeof(lwpid_t)); if (ret != 0) return (P2T(ret)); if (lwp != 0) { /* don't suspend signal thread */ if (attrflags & 0x200) return (0); if (attrflags & PTHREAD_SCOPE_SYSTEM) { /* * don't suspend system scope thread if it is holding * some low level locks */ ptr = ta->map[th->th_tid].thr + ta->thread_off_kse; ret = ps_pread(ta->ph, ptr, &ptr, sizeof(ptr)); if (ret != 0) return (P2T(ret)); ret = ps_pread(ta->ph, ptr + ta->thread_off_kse_locklevel, &locklevel, sizeof(int)); if (ret != 0) return (P2T(ret)); if (locklevel <= 0) { ptr = ta->map[th->th_tid].thr + ta->thread_off_thr_locklevel; ret = ps_pread(ta->ph, ptr, &locklevel, sizeof(int)); if (ret != 0) return (P2T(ret)); } if (suspend) { if (locklevel <= 0) ret = ps_lstop(ta->ph, lwp); } else { ret = ps_lcontinue(ta->ph, lwp); } if (ret != 0) return (P2T(ret)); /* FALLTHROUGH */ } else { struct ptrace_lwpinfo pl; if (ps_linfo(ta->ph, lwp, (caddr_t)&pl)) return (TD_ERR); if (suspend) { if (!(pl.pl_flags & PL_FLAG_BOUND)) ret = ps_lstop(ta->ph, lwp); } else { ret = ps_lcontinue(ta->ph, lwp); } if (ret != 0) return (P2T(ret)); /* FALLTHROUGH */ } } /* read tm_dflags */ ret = ps_pread(ta->ph, tmbx_addr + offsetof(struct kse_thr_mailbox, tm_dflags), &dflags, sizeof(dflags)); if (ret != 0) return (P2T(ret)); if (suspend) dflags |= TMDF_SUSPEND; else dflags &= ~TMDF_SUSPEND; ret = ps_pwrite(ta->ph, tmbx_addr + offsetof(struct kse_thr_mailbox, tm_dflags), &dflags, sizeof(dflags)); return (P2T(ret)); } static td_err_e pt_thr_dbresume(const td_thrhandle_t *th) { TDBG_FUNC(); return pt_dbsuspend(th, 0); } static td_err_e pt_thr_dbsuspend(const td_thrhandle_t *th) { TDBG_FUNC(); return pt_dbsuspend(th, 1); } static td_err_e pt_thr_validate(const td_thrhandle_t *th) { td_thrhandle_t temp; int ret; TDBG_FUNC(); ret = pt_ta_map_id2thr(th->th_ta, th->th_tid, &temp); return (ret); } static td_err_e pt_thr_old_get_info(const td_thrhandle_t *th, td_old_thrinfo_t *info) { const td_thragent_t *ta = th->th_ta; struct ptrace_lwpinfo linfo; psaddr_t tcb_addr; uint32_t dflags; lwpid_t lwp; int state; int ret; int attrflags; TDBG_FUNC(); bzero(info, sizeof(*info)); ret = pt_validate(th); if (ret) return (ret); memset(info, 0, sizeof(*info)); if (ta->map[th->th_tid].type == PT_LWP) { info->ti_type = TD_THR_SYSTEM; info->ti_lid = ta->map[th->th_tid].lwp; info->ti_tid = th->th_tid; info->ti_state = TD_THR_RUN; info->ti_type = TD_THR_SYSTEM; return (TD_OK); } ret = ps_pread(ta->ph, ta->map[th->th_tid].thr + ta->thread_off_attr_flags, &attrflags, sizeof(attrflags)); if (ret != 0) return (P2T(ret)); ret = ps_pread(ta->ph, ta->map[th->th_tid].thr + ta->thread_off_tcb, &tcb_addr, sizeof(tcb_addr)); if (ret != 0) return (P2T(ret)); ret = ps_pread(ta->ph, ta->map[th->th_tid].thr + ta->thread_off_state, &state, sizeof(state)); ret = ps_pread(ta->ph, tcb_addr + ta->thread_off_tmbx + offsetof(struct kse_thr_mailbox, tm_lwp), &info->ti_lid, sizeof(lwpid_t)); if (ret != 0) return (P2T(ret)); ret = ps_pread(ta->ph, tcb_addr + ta->thread_off_tmbx + offsetof(struct kse_thr_mailbox, tm_dflags), &dflags, sizeof(dflags)); if (ret != 0) return (P2T(ret)); ret = ps_pread(ta->ph, tcb_addr + ta->thread_off_tmbx + offsetof(struct kse_thr_mailbox, tm_lwp), &lwp, sizeof(lwpid_t)); if (ret != 0) return (P2T(ret)); info->ti_ta_p = th->th_ta; info->ti_tid = th->th_tid; if (attrflags & PTHREAD_SCOPE_SYSTEM) { ret = ps_linfo(ta->ph, lwp, &linfo); if (ret == PS_OK) { info->ti_sigmask = linfo.pl_sigmask; info->ti_pending = linfo.pl_siglist; } else return (ret); } else { ret = ps_pread(ta->ph, ta->map[th->th_tid].thr + ta->thread_off_sigmask, &info->ti_sigmask, sizeof(sigset_t)); if (ret) return (ret); ret = ps_pread(ta->ph, ta->map[th->th_tid].thr + ta->thread_off_sigpend, &info->ti_pending, sizeof(sigset_t)); if (ret) return (ret); } if (state == ta->thread_state_running) info->ti_state = TD_THR_RUN; else if (state == ta->thread_state_zoombie) info->ti_state = TD_THR_ZOMBIE; else info->ti_state = TD_THR_SLEEP; info->ti_db_suspended = ((dflags & TMDF_SUSPEND) != 0); info->ti_type = TD_THR_USER; return (0); } static td_err_e pt_thr_get_info(const td_thrhandle_t *th, td_thrinfo_t *info) { td_err_e e; e = pt_thr_old_get_info(th, (td_old_thrinfo_t *)info); bzero(&info->ti_siginfo, sizeof(info->ti_siginfo)); return (e); } #ifdef __i386__ static td_err_e pt_thr_getxmmregs(const td_thrhandle_t *th, char *fxsave) { const td_thragent_t *ta = th->th_ta; struct kse_thr_mailbox tmbx; psaddr_t tcb_addr, tmbx_addr, ptr; lwpid_t lwp; int ret; return TD_ERR; TDBG_FUNC(); ret = pt_validate(th); if (ret) return (ret); if (ta->map[th->th_tid].type == PT_LWP) { ret = ps_lgetxmmregs(ta->ph, ta->map[th->th_tid].lwp, fxsave); return (P2T(ret)); } ret = ps_pread(ta->ph, ta->map[th->th_tid].thr + ta->thread_off_tcb, &tcb_addr, sizeof(tcb_addr)); if (ret != 0) return (P2T(ret)); tmbx_addr = tcb_addr + ta->thread_off_tmbx; ptr = tmbx_addr + offsetof(struct kse_thr_mailbox, tm_lwp); ret = ps_pread(ta->ph, ptr, &lwp, sizeof(lwpid_t)); if (ret != 0) return (P2T(ret)); if (lwp != 0) { ret = ps_lgetxmmregs(ta->ph, lwp, fxsave); return (P2T(ret)); } ret = ps_pread(ta->ph, tmbx_addr, &tmbx, sizeof(tmbx)); if (ret != 0) return (P2T(ret)); pt_ucontext_to_fxsave(&tmbx.tm_context, fxsave); return (0); } #endif static td_err_e pt_thr_getfpregs(const td_thrhandle_t *th, prfpregset_t *fpregs) { const td_thragent_t *ta = th->th_ta; struct kse_thr_mailbox tmbx; psaddr_t tcb_addr, tmbx_addr, ptr; lwpid_t lwp; int ret; TDBG_FUNC(); ret = pt_validate(th); if (ret) return (ret); if (ta->map[th->th_tid].type == PT_LWP) { ret = ps_lgetfpregs(ta->ph, ta->map[th->th_tid].lwp, fpregs); return (P2T(ret)); } ret = ps_pread(ta->ph, ta->map[th->th_tid].thr + ta->thread_off_tcb, &tcb_addr, sizeof(tcb_addr)); if (ret != 0) return (P2T(ret)); tmbx_addr = tcb_addr + ta->thread_off_tmbx; ptr = tmbx_addr + offsetof(struct kse_thr_mailbox, tm_lwp); ret = ps_pread(ta->ph, ptr, &lwp, sizeof(lwpid_t)); if (ret != 0) return (P2T(ret)); if (lwp != 0) { ret = ps_lgetfpregs(ta->ph, lwp, fpregs); return (P2T(ret)); } ret = ps_pread(ta->ph, tmbx_addr, &tmbx, sizeof(tmbx)); if (ret != 0) return (P2T(ret)); pt_ucontext_to_fpreg(&tmbx.tm_context, fpregs); return (0); } static td_err_e pt_thr_getgregs(const td_thrhandle_t *th, prgregset_t gregs) { const td_thragent_t *ta = th->th_ta; struct kse_thr_mailbox tmbx; psaddr_t tcb_addr, tmbx_addr, ptr; lwpid_t lwp; int ret; TDBG_FUNC(); ret = pt_validate(th); if (ret) return (ret); if (ta->map[th->th_tid].type == PT_LWP) { ret = ps_lgetregs(ta->ph, ta->map[th->th_tid].lwp, gregs); return (P2T(ret)); } ret = ps_pread(ta->ph, ta->map[th->th_tid].thr + ta->thread_off_tcb, &tcb_addr, sizeof(tcb_addr)); if (ret != 0) return (P2T(ret)); tmbx_addr = tcb_addr + ta->thread_off_tmbx; ptr = tmbx_addr + offsetof(struct kse_thr_mailbox, tm_lwp); ret = ps_pread(ta->ph, ptr, &lwp, sizeof(lwpid_t)); if (ret != 0) return (P2T(ret)); if (lwp != 0) { ret = ps_lgetregs(ta->ph, lwp, gregs); return (P2T(ret)); } ret = ps_pread(ta->ph, tmbx_addr, &tmbx, sizeof(tmbx)); if (ret != 0) return (P2T(ret)); pt_ucontext_to_reg(&tmbx.tm_context, gregs); return (0); } #ifdef __i386__ static td_err_e pt_thr_setxmmregs(const td_thrhandle_t *th, const char *fxsave) { const td_thragent_t *ta = th->th_ta; struct kse_thr_mailbox tmbx; psaddr_t tcb_addr, tmbx_addr, ptr; lwpid_t lwp; int ret; return TD_ERR; TDBG_FUNC(); ret = pt_validate(th); if (ret) return (ret); if (ta->map[th->th_tid].type == PT_LWP) { ret = ps_lsetxmmregs(ta->ph, ta->map[th->th_tid].lwp, fxsave); return (P2T(ret)); } ret = ps_pread(ta->ph, ta->map[th->th_tid].thr + ta->thread_off_tcb, &tcb_addr, sizeof(tcb_addr)); if (ret != 0) return (P2T(ret)); tmbx_addr = tcb_addr + ta->thread_off_tmbx; ptr = tmbx_addr + offsetof(struct kse_thr_mailbox, tm_lwp); ret = ps_pread(ta->ph, ptr, &lwp, sizeof(lwpid_t)); if (ret != 0) return (P2T(ret)); if (lwp != 0) { ret = ps_lsetxmmregs(ta->ph, lwp, fxsave); return (P2T(ret)); } /* * Read a copy of context, this makes sure that registers * not covered by structure reg won't be clobbered */ ret = ps_pread(ta->ph, tmbx_addr, &tmbx, sizeof(tmbx)); if (ret != 0) return (P2T(ret)); pt_fxsave_to_ucontext(fxsave, &tmbx.tm_context); ret = ps_pwrite(ta->ph, tmbx_addr, &tmbx, sizeof(tmbx)); return (P2T(ret)); } #endif static td_err_e pt_thr_setfpregs(const td_thrhandle_t *th, const prfpregset_t *fpregs) { const td_thragent_t *ta = th->th_ta; struct kse_thr_mailbox tmbx; psaddr_t tcb_addr, tmbx_addr, ptr; lwpid_t lwp; int ret; TDBG_FUNC(); ret = pt_validate(th); if (ret) return (ret); if (ta->map[th->th_tid].type == PT_LWP) { ret = ps_lsetfpregs(ta->ph, ta->map[th->th_tid].lwp, fpregs); return (P2T(ret)); } ret = ps_pread(ta->ph, ta->map[th->th_tid].thr + ta->thread_off_tcb, &tcb_addr, sizeof(tcb_addr)); if (ret != 0) return (P2T(ret)); tmbx_addr = tcb_addr + ta->thread_off_tmbx; ptr = tmbx_addr + offsetof(struct kse_thr_mailbox, tm_lwp); ret = ps_pread(ta->ph, ptr, &lwp, sizeof(lwpid_t)); if (ret != 0) return (P2T(ret)); if (lwp != 0) { ret = ps_lsetfpregs(ta->ph, lwp, fpregs); return (P2T(ret)); } /* * Read a copy of context, this makes sure that registers * not covered by structure reg won't be clobbered */ ret = ps_pread(ta->ph, tmbx_addr, &tmbx, sizeof(tmbx)); if (ret != 0) return (P2T(ret)); pt_fpreg_to_ucontext(fpregs, &tmbx.tm_context); ret = ps_pwrite(ta->ph, tmbx_addr, &tmbx, sizeof(tmbx)); return (P2T(ret)); } static td_err_e pt_thr_setgregs(const td_thrhandle_t *th, const prgregset_t gregs) { const td_thragent_t *ta = th->th_ta; struct kse_thr_mailbox tmbx; psaddr_t tcb_addr, tmbx_addr, ptr; lwpid_t lwp; int ret; TDBG_FUNC(); ret = pt_validate(th); if (ret) return (ret); if (ta->map[th->th_tid].type == PT_LWP) { ret = ps_lsetregs(ta->ph, ta->map[th->th_tid].lwp, gregs); return (P2T(ret)); } ret = ps_pread(ta->ph, ta->map[th->th_tid].thr + ta->thread_off_tcb, &tcb_addr, sizeof(tcb_addr)); if (ret != 0) return (P2T(ret)); tmbx_addr = tcb_addr + ta->thread_off_tmbx; ptr = tmbx_addr + offsetof(struct kse_thr_mailbox, tm_lwp); ret = ps_pread(ta->ph, ptr, &lwp, sizeof(lwpid_t)); if (ret != 0) return (P2T(ret)); if (lwp != 0) { ret = ps_lsetregs(ta->ph, lwp, gregs); return (P2T(ret)); } /* * Read a copy of context, make sure that registers * not covered by structure reg won't be clobbered */ ret = ps_pread(ta->ph, tmbx_addr, &tmbx, sizeof(tmbx)); if (ret != 0) return (P2T(ret)); pt_reg_to_ucontext(gregs, &tmbx.tm_context); ret = ps_pwrite(ta->ph, tmbx_addr, &tmbx, sizeof(tmbx)); return (P2T(ret)); } static td_err_e pt_thr_event_enable(const td_thrhandle_t *th __unused, int en __unused) { TDBG_FUNC(); return (0); } static td_err_e pt_thr_set_event(const td_thrhandle_t *th __unused, td_thr_events_t *setp __unused) { TDBG_FUNC(); return (0); } static td_err_e pt_thr_clear_event(const td_thrhandle_t *th __unused, td_thr_events_t *setp __unused) { TDBG_FUNC(); return (0); } static td_err_e pt_thr_event_getmsg(const td_thrhandle_t *th __unused, td_event_msg_t *msg __unused) { TDBG_FUNC(); return (TD_NOMSG); } static td_err_e pt_thr_sstep(const td_thrhandle_t *th, int step) { const td_thragent_t *ta = th->th_ta; struct kse_thr_mailbox tmbx; struct reg regs; psaddr_t tcb_addr, tmbx_addr; uint32_t dflags; lwpid_t lwp; int ret; TDBG_FUNC(); ret = pt_validate(th); if (ret) return (ret); if (ta->map[th->th_tid].type == PT_LWP) return (TD_BADTH); ret = ps_pread(ta->ph, ta->map[th->th_tid].thr + ta->thread_off_tcb, &tcb_addr, sizeof(tcb_addr)); if (ret != 0) return (P2T(ret)); /* Clear or set single step flag in thread mailbox */ ret = ps_pread(ta->ph, tcb_addr + ta->thread_off_tmbx + offsetof(struct kse_thr_mailbox, tm_dflags), &dflags, sizeof(uint32_t)); if (ret != 0) return (P2T(ret)); if (step != 0) dflags |= TMDF_SSTEP; else dflags &= ~TMDF_SSTEP; ret = ps_pwrite(ta->ph, tcb_addr + ta->thread_off_tmbx + offsetof(struct kse_thr_mailbox, tm_dflags), &dflags, sizeof(uint32_t)); if (ret != 0) return (P2T(ret)); /* Get lwp */ ret = ps_pread(ta->ph, tcb_addr + ta->thread_off_tmbx + offsetof(struct kse_thr_mailbox, tm_lwp), &lwp, sizeof(lwpid_t)); if (ret != 0) return (P2T(ret)); if (lwp != 0) return (0); tmbx_addr = tcb_addr + ta->thread_off_tmbx; /* * context is in userland, some architectures store * single step status in registers, we should change * these registers. */ ret = ps_pread(ta->ph, tmbx_addr, &tmbx, sizeof(tmbx)); if (ret == 0) { pt_ucontext_to_reg(&tmbx.tm_context, ®s); /* only write out if it is really changed. */ if (pt_reg_sstep(®s, step) != 0) { pt_reg_to_ucontext(®s, &tmbx.tm_context); ret = ps_pwrite(ta->ph, tmbx_addr, &tmbx, sizeof(tmbx)); } } return (P2T(ret)); } static void pt_unmap_lwp(const td_thragent_t *ta, lwpid_t lwp) { int i; for (i = 0; i < ta->map_len; ++i) { if (ta->map[i].type == PT_LWP && ta->map[i].lwp == lwp) { ta->map[i].type = PT_NONE; return; } } } static int pt_validate(const td_thrhandle_t *th) { if (th->th_tid < 0 || th->th_tid >= th->th_ta->map_len || th->th_ta->map[th->th_tid].type == PT_NONE) return (TD_NOTHR); return (TD_OK); } static td_err_e pt_thr_tls_get_addr(const td_thrhandle_t *th, psaddr_t _linkmap, size_t offset, psaddr_t *address) { const td_thragent_t *ta = th->th_ta; psaddr_t dtv_addr, obj_entry, tcb_addr; int tls_index, ret; /* linkmap is a member of Obj_Entry */ obj_entry = _linkmap - ta->thread_off_linkmap; /* get tlsindex of the object file */ ret = ps_pread(ta->ph, obj_entry + ta->thread_off_tlsindex, &tls_index, sizeof(tls_index)); if (ret != 0) return (P2T(ret)); /* get thread tcb */ ret = ps_pread(ta->ph, ta->map[th->th_tid].thr + ta->thread_off_tcb, &tcb_addr, sizeof(tcb_addr)); if (ret != 0) return (P2T(ret)); /* get dtv array address */ ret = ps_pread(ta->ph, tcb_addr + ta->thread_off_dtv, &dtv_addr, sizeof(dtv_addr)); if (ret != 0) return (P2T(ret)); /* now get the object's tls block base address */ ret = ps_pread(ta->ph, dtv_addr + sizeof(void *) * (tls_index + 1), address, sizeof(*address)); if (ret != 0) return (P2T(ret)); *address += offset; return (TD_OK); } static struct ta_ops libpthread_db_ops = { .to_init = pt_init, .to_ta_clear_event = pt_ta_clear_event, .to_ta_delete = pt_ta_delete, .to_ta_event_addr = pt_ta_event_addr, .to_ta_event_getmsg = pt_ta_event_getmsg, .to_ta_map_id2thr = pt_ta_map_id2thr, .to_ta_map_lwp2thr = pt_ta_map_lwp2thr, .to_ta_new = pt_ta_new, .to_ta_set_event = pt_ta_set_event, .to_ta_thr_iter = pt_ta_thr_iter, .to_ta_tsd_iter = pt_ta_tsd_iter, .to_thr_clear_event = pt_thr_clear_event, .to_thr_dbresume = pt_thr_dbresume, .to_thr_dbsuspend = pt_thr_dbsuspend, .to_thr_event_enable = pt_thr_event_enable, .to_thr_event_getmsg = pt_thr_event_getmsg, .to_thr_old_get_info = pt_thr_old_get_info, .to_thr_get_info = pt_thr_get_info, .to_thr_getfpregs = pt_thr_getfpregs, .to_thr_getgregs = pt_thr_getgregs, .to_thr_set_event = pt_thr_set_event, .to_thr_setfpregs = pt_thr_setfpregs, .to_thr_setgregs = pt_thr_setgregs, .to_thr_validate = pt_thr_validate, .to_thr_tls_get_addr = pt_thr_tls_get_addr, /* FreeBSD specific extensions. */ .to_thr_sstep = pt_thr_sstep, #ifdef __i386__ .to_thr_getxmmregs = pt_thr_getxmmregs, .to_thr_setxmmregs = pt_thr_setxmmregs, #endif }; DATA_SET(__ta_ops, libpthread_db_ops);