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Current File : //usr/src/cddl/contrib/opensolaris/lib/libdtrace/common/dt_pcb.c |
/* * 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" /* * DTrace Parsing Control Block * * A DTrace Parsing Control Block (PCB) contains all of the state that is used * by a single pass of the D compiler, other than the global variables used by * lex and yacc. The routines in this file are used to set up and tear down * PCBs, which are kept on a stack pointed to by the libdtrace global 'yypcb'. * The main engine of the compiler, dt_compile(), is located in dt_cc.c and is * responsible for calling these routines to begin and end a compilation pass. * * Sun's lex/yacc are not MT-safe or re-entrant, but we permit limited nested * use of dt_compile() once the entire parse tree has been constructed but has * not yet executed the "cooking" pass (see dt_cc.c for more information). The * PCB design also makes it easier to debug (since all global state is kept in * one place) and could permit us to make the D compiler MT-safe or re-entrant * in the future by adding locks to libdtrace or switching to Flex and Bison. */ #include <strings.h> #include <stdlib.h> #include <assert.h> #include <dt_impl.h> #include <dt_program.h> #include <dt_provider.h> #include <dt_pcb.h> /* * Initialize the specified PCB by zeroing it and filling in a few default * members, and then pushing it on to the top of the PCB stack and setting * yypcb to point to it. Increment the current handle's generation count. */ void dt_pcb_push(dtrace_hdl_t *dtp, dt_pcb_t *pcb) { /* * Since lex/yacc are not re-entrant and we don't implement state save, * assert that if another PCB is active, it is from the same handle and * has completed execution of yyparse(). If the first assertion fires, * the caller is calling libdtrace without proper MT locking. If the * second assertion fires, dt_compile() is being called recursively * from an illegal location in libdtrace, or a dt_pcb_pop() is missing. */ if (yypcb != NULL) { assert(yypcb->pcb_hdl == dtp); assert(yypcb->pcb_yystate == YYS_DONE); } bzero(pcb, sizeof (dt_pcb_t)); dt_scope_create(&pcb->pcb_dstack); dt_idstack_push(&pcb->pcb_globals, dtp->dt_globals); dt_irlist_create(&pcb->pcb_ir); pcb->pcb_hdl = dtp; pcb->pcb_prev = dtp->dt_pcb; dtp->dt_pcb = pcb; dtp->dt_gen++; yyinit(pcb); } static int dt_pcb_pop_ident(dt_idhash_t *dhp, dt_ident_t *idp, void *arg) { dtrace_hdl_t *dtp = arg; if (idp->di_gen == dtp->dt_gen) dt_idhash_delete(dhp, idp); return (0); } /* * Pop the topmost PCB from the PCB stack and destroy any data structures that * are associated with it. If 'err' is non-zero, destroy any intermediate * state that is left behind as part of a compilation that has failed. */ void dt_pcb_pop(dtrace_hdl_t *dtp, int err) { dt_pcb_t *pcb = yypcb; uint_t i; assert(pcb != NULL); assert(pcb == dtp->dt_pcb); while (pcb->pcb_dstack.ds_next != NULL) (void) dt_scope_pop(); dt_scope_destroy(&pcb->pcb_dstack); dt_irlist_destroy(&pcb->pcb_ir); dt_node_link_free(&pcb->pcb_list); dt_node_link_free(&pcb->pcb_hold); if (err != 0) { dt_xlator_t *dxp, *nxp; dt_provider_t *pvp, *nvp; if (pcb->pcb_prog != NULL) dt_program_destroy(dtp, pcb->pcb_prog); if (pcb->pcb_stmt != NULL) dtrace_stmt_destroy(dtp, pcb->pcb_stmt); if (pcb->pcb_ecbdesc != NULL) dt_ecbdesc_release(dtp, pcb->pcb_ecbdesc); for (dxp = dt_list_next(&dtp->dt_xlators); dxp; dxp = nxp) { nxp = dt_list_next(dxp); if (dxp->dx_gen == dtp->dt_gen) dt_xlator_destroy(dtp, dxp); } for (pvp = dt_list_next(&dtp->dt_provlist); pvp; pvp = nvp) { nvp = dt_list_next(pvp); if (pvp->pv_gen == dtp->dt_gen) dt_provider_destroy(dtp, pvp); } (void) dt_idhash_iter(dtp->dt_aggs, dt_pcb_pop_ident, dtp); dt_idhash_update(dtp->dt_aggs); (void) dt_idhash_iter(dtp->dt_globals, dt_pcb_pop_ident, dtp); dt_idhash_update(dtp->dt_globals); (void) dt_idhash_iter(dtp->dt_tls, dt_pcb_pop_ident, dtp); dt_idhash_update(dtp->dt_tls); (void) ctf_discard(dtp->dt_cdefs->dm_ctfp); (void) ctf_discard(dtp->dt_ddefs->dm_ctfp); } if (pcb->pcb_pragmas != NULL) dt_idhash_destroy(pcb->pcb_pragmas); if (pcb->pcb_locals != NULL) dt_idhash_destroy(pcb->pcb_locals); if (pcb->pcb_idents != NULL) dt_idhash_destroy(pcb->pcb_idents); if (pcb->pcb_inttab != NULL) dt_inttab_destroy(pcb->pcb_inttab); if (pcb->pcb_strtab != NULL) dt_strtab_destroy(pcb->pcb_strtab); if (pcb->pcb_regs != NULL) dt_regset_destroy(pcb->pcb_regs); for (i = 0; i < pcb->pcb_asxreflen; i++) dt_free(dtp, pcb->pcb_asxrefs[i]); dt_free(dtp, pcb->pcb_asxrefs); dt_difo_free(dtp, pcb->pcb_difo); free(pcb->pcb_filetag); free(pcb->pcb_sflagv); dtp->dt_pcb = pcb->pcb_prev; bzero(pcb, sizeof (dt_pcb_t)); yyinit(dtp->dt_pcb); }