/* * CDDL HEADER START * * The contents of this file are subject to the terms of the * Common Development and Distribution License (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 2010 Sun Microsystems, Inc. All rights reserved. * Use is subject to license terms. */ #include #include #include #include #include #include #include #include #include <_rtld_db.h> #include #include #include #include /* * 64-bit builds are going to compile this module twice, the * second time with _ELF64 defined. These defines should make * all the necessary adjustments to the code. */ #ifdef _LP64 #ifdef _ELF64 #define _rd_event_enable32 _rd_event_enable64 #define _rd_event_getmsg32 _rd_event_getmsg64 #define _rd_get_dyns32 _rd_get_dyns64 #define _rd_get_ehdr32 _rd_get_ehdr64 #define _rd_objpad_enable32 _rd_objpad_enable64 #define _rd_loadobj_iter32 _rd_loadobj_iter64 #define _rd_reset32 _rd_reset64 #define find_dynamic_ent32 find_dynamic_ent64 #define validate_rdebug32 validate_rdebug64 #define TAPlist APlist #define TLm_list Lm_list #define TList List #define TListnode Listnode #define MSG_SYM_BRANDOPS MSG_SYM_BRANDOPS_64 #else /* ELF32 */ #define Rt_map Rt_map32 #define Rtld_db_priv Rtld_db_priv32 #define TAPlist APlist32 #define TLm_list Lm_list32 #define TList List32 #define TListnode Listnode32 #define Lm_list Lm_list32 #define MSG_SYM_BRANDOPS MSG_SYM_BRANDOPS_32 #endif /* _ELF64 */ #else /* _LP64 */ #define TAPlist APlist #define TLm_list Lm_list #define TList List #define TListnode Listnode #define MSG_SYM_BRANDOPS MSG_SYM_BRANDOPS_32 #endif /* _LP64 */ /* * BrandZ added ps_pbrandname(). Many debuggers that link directly * against librtld_db.so may not implement this interface. Hence * we won't call the function directly, instead we'll try to look it * up using the linker first and only invoke it if we find it. */ typedef ps_err_e (*ps_pbrandname_fp_t)(struct ps_prochandle *, char *, size_t); rd_err_e validate_rdebug32(struct rd_agent *rap) { struct ps_prochandle *php = rap->rd_psp; psaddr_t db_privp; Rtld_db_priv db_priv; if (rap->rd_rdebug == 0) return (RD_ERR); /* * The rtld_db_priv structure contains both the traditional (exposed) * r_debug structure as well as private data only available to * this library. */ db_privp = rap->rd_rdebug; /* * Verify that librtld_db & rtld are at the proper revision * levels. */ if (ps_pread(php, db_privp, (char *)&db_priv, sizeof (Rtld_db_priv)) != PS_OK) { LOG(ps_plog(MSG_ORIG(MSG_DB_READPRIVFAIL_1), EC_ADDR(db_privp))); return (RD_DBERR); } if ((db_priv.rtd_version < R_RTLDDB_VERSION1) || (db_priv.rtd_version > R_RTLDDB_VERSION)) { LOG(ps_plog(MSG_ORIG(MSG_DB_BADPVERS), db_priv.rtd_version, R_RTLDDB_VERSION)); return (RD_NOCAPAB); } /* * Is the image being examined from a core file or not. * If it is a core file then the following write will fail. */ if (ps_pwrite(php, db_privp, (char *)&db_priv, sizeof (Rtld_db_priv)) != PS_OK) rap->rd_flags |= RDF_FL_COREFILE; rap->rd_rdebugvers = db_priv.rtd_version; rap->rd_rtlddbpriv = db_privp; LOG(ps_plog(MSG_ORIG(MSG_DB_VALIDRDEBUG), EC_ADDR(rap->rd_rdebug), R_RTLDDB_VERSION, rap->rd_rdebugvers, rap->rd_flags & RDF_FL_COREFILE)); return (RD_OK); } rd_err_e find_dynamic_ent32(struct rd_agent *rap, psaddr_t dynaddr, Xword dyntag, Dyn *dyn) { struct ps_prochandle *php = rap->rd_psp; Dyn d; d.d_tag = DT_NULL; do { if (ps_pread(php, dynaddr, (void *)(&d), sizeof (d)) != PS_OK) { LOG(ps_plog(MSG_ORIG(MSG_DB_READFAIL_4), EC_ADDR(dynaddr))); return (RD_DBERR); } dynaddr += sizeof (d); if (d.d_tag == dyntag) break; } while (d.d_tag != DT_NULL); if (d.d_tag == dyntag) { *dyn = d; LOG(ps_plog(MSG_ORIG(MSG_DB_FINDDYNAMIC), EC_ADDR(dyntag), EC_ADDR(d.d_un.d_val))); return (RD_OK); } LOG(ps_plog(MSG_ORIG(MSG_DB_NODYNDEBUG), EC_ADDR(dyntag))); return (RD_DBERR); } extern char rtld_db_helper_path[MAXPATHLEN]; rd_err_e _rd_reset32(struct rd_agent *rap) { psaddr_t symaddr; struct ps_prochandle *php = rap->rd_psp; const auxv_t *auxvp = NULL; rd_err_e rc = RD_OK; char brandname[MAXPATHLEN]; char brandlib[MAXPATHLEN]; ps_pbrandname_fp_t ps_pbrandname; /* * librtld_db attempts three different methods to find * the r_debug structure which is required to * initialize itself. The methods are: * method1: * entirely independent of any text segment * and relies on the AT_SUN_LDDATA auxvector * to find the ld.so.1::rdebug structure. * method2: * lookup symbols in ld.so.1's symbol table * to find the r_debug symbol. * method3: * (old dbx method) dependent upon the * text segment/symbol table of the * executable and not ld.so.1. We lookup the * _DYNAMIC symbol in the executable and look for * the DT_DEBUG entry in the .dynamic table. This * points to rdebug. * * If none of that works - we fail. */ LOG(ps_plog(MSG_ORIG(MSG_DB_RDRESET), rap->rd_dmodel)); /* * Method1 * * Scan the aux vector looking for AT_BASE & AT_SUN_LDDATA */ if (ps_pauxv(php, &auxvp) != PS_OK) { LOG(ps_plog(MSG_ORIG(MSG_DB_NOAUXV))); rc = RD_ERR; } rap->rd_rdebug = 0; if (auxvp != NULL) { rc = RD_ERR; while (auxvp->a_type != AT_NULL) { if (auxvp->a_type == AT_SUN_LDDATA) { /* LINTED */ rap->rd_rdebug = (uintptr_t)auxvp->a_un.a_ptr; LOG(ps_plog(MSG_ORIG(MSG_DB_FLDDATA), rap->rd_rdebug)); rc = validate_rdebug32(rap); break; } auxvp++; } } /* * method2 - look for r_rdebug symbol in ld.so.1 */ if (rc != RD_OK) { /* * If the AT_SUN_LDDATA auxv vector is not present * fall back on doing a symlookup of * the r_debug symbol. This is for backward * compatiblity with older OS's */ LOG(ps_plog(MSG_ORIG(MSG_DB_NOLDDATA))); if (ps_pglobal_lookup(php, PS_OBJ_LDSO, MSG_ORIG(MSG_SYM_DEBUG), &symaddr) != PS_OK) { LOG(ps_plog(MSG_ORIG(MSG_DB_LOOKFAIL), MSG_ORIG(MSG_SYM_DEBUG))); rc = RD_DBERR; } else { rap->rd_rdebug = symaddr; LOG(ps_plog(MSG_ORIG(MSG_DB_SYMRDEBUG), EC_ADDR(symaddr))); rc = validate_rdebug32(rap); } } /* * method3 - find DT_DEBUG in the executables .dynamic section. */ if (rc != RD_OK) { Dyn dyn; if (ps_pglobal_lookup(php, PS_OBJ_EXEC, MSG_ORIG(MSG_SYM_DYNAMIC), &symaddr) != PS_OK) { LOG(ps_plog(MSG_ORIG(MSG_DB_NODYNAMIC))); LOG(ps_plog(MSG_ORIG(MSG_DB_INITFAILED))); return (rc); } rc = find_dynamic_ent32(rap, symaddr, DT_DEBUG, &dyn); if (rc != RD_OK) { LOG(ps_plog(MSG_ORIG(MSG_DB_INITFAILED))); return (rc); } rap->rd_rdebug = dyn.d_un.d_ptr; rc = validate_rdebug32(rap); if (rc != RD_OK) { LOG(ps_plog(MSG_ORIG(MSG_DB_INITFAILED))); return (rc); } } /* * If we are debugging a branded executable, load the appropriate * helper library, and call its initialization routine. Being unable * to load the helper library is not a critical error. (Hopefully * we'll still be able to access some objects in the target.) */ ps_pbrandname = (ps_pbrandname_fp_t)dlsym(RTLD_PROBE, "ps_pbrandname"); while ((ps_pbrandname != NULL) && (ps_pbrandname(php, brandname, MAXPATHLEN) == PS_OK)) { const char *isa = ""; #ifdef _LP64 isa = MSG_ORIG(MSG_DB_64BIT_PREFIX); #endif /* _LP64 */ if (rtld_db_helper_path[0] != '\0') (void) snprintf(brandlib, MAXPATHLEN, MSG_ORIG(MSG_DB_BRAND_HELPERPATH_PREFIX), rtld_db_helper_path, MSG_ORIG(MSG_DB_HELPER_PREFIX), brandname, isa, brandname); else (void) snprintf(brandlib, MAXPATHLEN, MSG_ORIG(MSG_DB_BRAND_HELPERPATH), MSG_ORIG(MSG_DB_HELPER_PREFIX), brandname, isa, brandname); rap->rd_helper.rh_dlhandle = dlopen(brandlib, RTLD_LAZY | RTLD_LOCAL); if (rap->rd_helper.rh_dlhandle == NULL) { LOG(ps_plog(MSG_ORIG(MSG_DB_HELPERLOADFAILED), brandlib)); break; } rap->rd_helper.rh_ops = dlsym(rap->rd_helper.rh_dlhandle, MSG_ORIG(MSG_SYM_BRANDOPS)); if (rap->rd_helper.rh_ops == NULL) { LOG(ps_plog(MSG_ORIG(MSG_DB_HELPERNOOPS), brandlib)); (void) dlclose(rap->rd_helper.rh_dlhandle); rap->rd_helper.rh_dlhandle = NULL; break; } rap->rd_helper.rh_data = rap->rd_helper.rh_ops->rho_init(rap, php); if (rap->rd_helper.rh_data == NULL) { LOG(ps_plog(MSG_ORIG(MSG_DB_HELPERINITFAILED))); (void) dlclose(rap->rd_helper.rh_dlhandle); rap->rd_helper.rh_dlhandle = NULL; rap->rd_helper.rh_ops = NULL; break; } LOG(ps_plog(MSG_ORIG(MSG_DB_HELPERLOADED), brandname)); break; /* NOTREACHED */ } if ((rap->rd_flags & RDF_FL_COREFILE) == 0) { if (ps_pglobal_lookup(php, PS_OBJ_LDSO, MSG_ORIG(MSG_SYM_PREINIT), &symaddr) != PS_OK) { LOG(ps_plog(MSG_ORIG(MSG_DB_LOOKFAIL), MSG_ORIG(MSG_SYM_PREINIT))); return (RD_DBERR); } rap->rd_preinit = symaddr; if (ps_pglobal_lookup(php, PS_OBJ_LDSO, MSG_ORIG(MSG_SYM_POSTINIT), &symaddr) != PS_OK) { LOG(ps_plog(MSG_ORIG(MSG_DB_LOOKFAIL), MSG_ORIG(MSG_SYM_POSTINIT))); return (RD_DBERR); } rap->rd_postinit = symaddr; if (ps_pglobal_lookup(php, PS_OBJ_LDSO, MSG_ORIG(MSG_SYM_DLACT), &symaddr) != PS_OK) { LOG(ps_plog(MSG_ORIG(MSG_DB_LOOKFAIL), MSG_ORIG(MSG_SYM_DLACT))); return (RD_DBERR); } rap->rd_dlact = symaddr; rap->rd_tbinder = 0; } return (RD_OK); } rd_err_e _rd_get_ehdr32(struct rd_agent *rap, psaddr_t addr, Ehdr *ehdr, uint_t *phnum) { struct ps_prochandle *php = rap->rd_psp; Shdr shdr; if (ps_pread(php, addr, ehdr, sizeof (*ehdr)) != PS_OK) { LOG(ps_plog(MSG_ORIG(MSG_DB_READFAIL_5), EC_ADDR(addr))); return (RD_ERR); } if (phnum == NULL) return (RD_OK); if (ehdr->e_phnum != PN_XNUM) { *phnum = ehdr->e_phnum; return (RD_OK); } /* deal with elf extended program headers */ if ((ehdr->e_shoff == 0) || (ehdr->e_shentsize < sizeof (shdr))) return (RD_ERR); addr += ehdr->e_shoff; if (ps_pread(php, addr, &shdr, sizeof (shdr)) != PS_OK) { LOG(ps_plog(MSG_ORIG(MSG_DB_READFAIL_5), EC_ADDR(addr))); return (RD_ERR); } if (shdr.sh_info == 0) return (RD_ERR); *phnum = shdr.sh_info; return (RD_OK); } rd_err_e _rd_get_dyns32(rd_agent_t *rap, psaddr_t addr, Dyn **dynpp, size_t *dynpp_sz) { struct ps_prochandle *php = rap->rd_psp; rd_err_e err; uint_t phnum; Ehdr ehdr; Phdr phdr; Dyn *dynp; int i; /* We only need to muck with dyn elements for ET_DYN objects */ if ((err = _rd_get_ehdr32(rap, addr, &ehdr, &phnum)) != RD_OK) return (err); for (i = 0; i < phnum; i++) { psaddr_t a = addr + ehdr.e_phoff + (i * ehdr.e_phentsize); if (ps_pread(php, a, &phdr, sizeof (phdr)) != PS_OK) { LOG(ps_plog(MSG_ORIG(MSG_DB_READFAIL_6), EC_ADDR(a))); return (RD_ERR); } if (phdr.p_type == PT_DYNAMIC) break; } if (i == phnum) return (RD_ERR); if ((dynp = malloc(phdr.p_filesz)) == NULL) return (RD_ERR); if (ehdr.e_type == ET_DYN) phdr.p_vaddr += addr; if (ps_pread(php, phdr.p_vaddr, dynp, phdr.p_filesz) != PS_OK) { free(dynp); LOG(ps_plog(MSG_ORIG(MSG_DB_READFAIL_6), EC_ADDR(phdr.p_vaddr))); return (RD_ERR); } *dynpp = dynp; if (dynpp_sz != NULL) *dynpp_sz = phdr.p_filesz; return (RD_OK); } rd_err_e _rd_event_enable32(rd_agent_t *rap, int onoff) { struct ps_prochandle *php = rap->rd_psp; Rtld_db_priv rdb; LOG(ps_plog(MSG_ORIG(MSG_DB_RDEVENTENABLE), rap->rd_dmodel, onoff)); /* * Tell the debugged process that debugging is occuring * This will enable the storing of event messages so that * the can be gathered by the debugger. */ if (ps_pread(php, rap->rd_rdebug, (char *)&rdb, sizeof (Rtld_db_priv)) != PS_OK) { LOG(ps_plog(MSG_ORIG(MSG_DB_READFAIL_1), EC_ADDR((uintptr_t)&rdb))); return (RD_DBERR); } if (onoff) rdb.rtd_rdebug.r_flags |= RD_FL_DBG; else rdb.rtd_rdebug.r_flags &= ~RD_FL_DBG; if (ps_pwrite(php, rap->rd_rdebug, (char *)&rdb, sizeof (Rtld_db_priv)) != PS_OK) { LOG(ps_plog(MSG_ORIG(MSG_DB_WRITEFAIL_1), EC_ADDR((uintptr_t)&rdb))); return (RD_DBERR); } return (RD_OK); } rd_err_e _rd_event_getmsg32(rd_agent_t *rap, rd_event_msg_t *emsg) { Rtld_db_priv rdb; if (ps_pread(rap->rd_psp, rap->rd_rdebug, (char *)&rdb, sizeof (Rtld_db_priv)) != PS_OK) { LOG(ps_plog(MSG_ORIG(MSG_DB_READDBGFAIL_2), EC_ADDR(rap->rd_rdebug))); return (RD_DBERR); } emsg->type = rdb.rtd_rdebug.r_rdevent; if (emsg->type == RD_DLACTIVITY) { switch (rdb.rtd_rdebug.r_state) { case RT_CONSISTENT: emsg->u.state = RD_CONSISTENT; break; case RT_ADD: emsg->u.state = RD_ADD; break; case RT_DELETE: emsg->u.state = RD_DELETE; break; } } else emsg->u.state = RD_NOSTATE; LOG(ps_plog(MSG_ORIG(MSG_DB_RDEVENTGETMSG), rap->rd_dmodel, emsg->type, emsg->u.state)); return (RD_OK); } rd_err_e _rd_objpad_enable32(struct rd_agent *rap, size_t padsize) { Rtld_db_priv db_priv; struct ps_prochandle *php = rap->rd_psp; LOG(ps_plog(MSG_ORIG(MSG_DB_RDOBJPADE), EC_ADDR(padsize))); if (ps_pread(php, rap->rd_rtlddbpriv, (char *)&db_priv, sizeof (Rtld_db_priv)) != PS_OK) { LOG(ps_plog(MSG_ORIG(MSG_DB_READFAIL_3), EC_ADDR(rap->rd_rtlddbpriv))); return (RD_DBERR); } #if defined(_LP64) && !defined(_ELF64) /*LINTED*/ db_priv.rtd_objpad = (uint32_t)padsize; #else db_priv.rtd_objpad = padsize; #endif if (ps_pwrite(php, rap->rd_rtlddbpriv, (char *)&db_priv, sizeof (Rtld_db_priv)) != PS_OK) { LOG(ps_plog(MSG_ORIG(MSG_DB_WRITEFAIL_2), EC_ADDR(rap->rd_rtlddbpriv))); return (RD_DBERR); } return (RD_OK); } static rd_err_e iter_map(rd_agent_t *rap, unsigned long ident, psaddr_t lmaddr, rl_iter_f *cb, void *client_data, uint_t *abort_iterp) { while (lmaddr) { Rt_map rmap; rd_loadobj_t lobj; int i; ulong_t off; Ehdr ehdr; Phdr phdr; if (ps_pread(rap->rd_psp, lmaddr, (char *)&rmap, sizeof (Rt_map)) != PS_OK) { LOG(ps_plog(MSG_ORIG(MSG_DB_LKMAPFAIL))); return (RD_DBERR); } /* * As of 'VERSION5' we only report objects * which have been fully relocated. While the maps * might be in a consistent state - if a object hasn't * been relocated - it's not really ready for the debuggers * to examine. This is mostly due to the fact that we * might still be mucking with the text-segment, if * we are - we could conflict with any break-points * the debuggers might have set. */ if (rap->rd_rdebugvers >= R_RTLDDB_VERSION5) { if ((FLAGS(&rmap) & FLG_RT_RELOCED) == 0) { lmaddr = (psaddr_t)NEXT(&rmap); continue; } } lobj.rl_base = (psaddr_t)ADDR(&rmap); lobj.rl_flags = 0; lobj.rl_refnameaddr = (psaddr_t)REFNAME(&rmap); if ((rap->rd_helper.rh_ops != NULL) && (rap->rd_helper.rh_ops->rho_lmid != LM_ID_NONE)) lobj.rl_lmident = rap->rd_helper.rh_ops->rho_lmid; else lobj.rl_lmident = ident; /* * refnameaddr is only valid from a core file * which is VERSION3 or greater. */ if (rap->rd_rdebugvers < R_RTLDDB_VERSION3) { lobj.rl_nameaddr = (psaddr_t)NAME(&rmap); lobj.rl_bend = 0; lobj.rl_padstart = 0; lobj.rl_padend = 0; } else { lobj.rl_nameaddr = (psaddr_t)PATHNAME(&rmap); lobj.rl_bend = ADDR(&rmap) + MSIZE(&rmap); lobj.rl_padstart = PADSTART(&rmap); lobj.rl_padend = PADSTART(&rmap) + PADIMLEN(&rmap); } if (rtld_db_version >= RD_VERSION2) if (FLAGS(&rmap) & FLG_RT_IMGALLOC) lobj.rl_flags |= RD_FLG_MEM_OBJECT; if (rtld_db_version >= RD_VERSION2) { lobj.rl_dynamic = (psaddr_t)DYN(&rmap); } if (rtld_db_version >= RD_VERSION4) lobj.rl_tlsmodid = TLSMODID(&rmap); /* * Look for beginning of data segment. * * NOTE: the data segment can only be found for full * processes and not from core images. */ lobj.rl_data_base = 0; if (rap->rd_flags & RDF_FL_COREFILE) lobj.rl_data_base = 0; else { off = ADDR(&rmap); if (ps_pread(rap->rd_psp, off, (char *)&ehdr, sizeof (Ehdr)) != PS_OK) { LOG(ps_plog(MSG_ORIG(MSG_DB_LKMAPFAIL))); return (RD_DBERR); } off += sizeof (Ehdr); for (i = 0; i < ehdr.e_phnum; i++) { if (ps_pread(rap->rd_psp, off, (char *)&phdr, sizeof (Phdr)) != PS_OK) { LOG(ps_plog(MSG_ORIG( MSG_DB_LKMAPFAIL))); return (RD_DBERR); } if ((phdr.p_type == PT_LOAD) && (phdr.p_flags & PF_W)) { lobj.rl_data_base = phdr.p_vaddr; if (ehdr.e_type == ET_DYN) lobj.rl_data_base += ADDR(&rmap); break; } off += ehdr.e_phentsize; } } /* * When we transfer control to the client we free the * lock and re-atain it after we've returned from the * client. This is to avoid any deadlock situations. */ LOG(ps_plog(MSG_ORIG(MSG_DB_ITERMAP), cb, client_data, EC_ADDR(lobj.rl_base), EC_ADDR(lobj.rl_lmident))); RDAGUNLOCK(rap); if ((*cb)(&lobj, client_data) == 0) { LOG(ps_plog(MSG_ORIG(MSG_DB_CALLBACKR0))); RDAGLOCK(rap); *abort_iterp = 1; break; } RDAGLOCK(rap); lmaddr = (psaddr_t)NEXT(&rmap); } return (RD_OK); } static rd_err_e _rd_loadobj_iter32_native(rd_agent_t *rap, rl_iter_f *cb, void *client_data, uint_t *abort_iterp) { Rtld_db_priv db_priv; TAPlist apl; uintptr_t datap, nitems; Addr addr; rd_err_e rc; LOG(ps_plog(MSG_ORIG(MSG_DB_LOADOBJITER), rap->rd_dmodel, cb, client_data)); /* * First, determine whether the link-map information has been * established. Some debuggers have made an initial call to this * function with a null call back function (cb), but expect a * RD_NOMAPS error return rather than a RD_ERR return when the * link-maps aren't available. */ if (ps_pread(rap->rd_psp, rap->rd_rtlddbpriv, (char *)&db_priv, sizeof (Rtld_db_priv)) != PS_OK) { LOG(ps_plog(MSG_ORIG(MSG_DB_READDBGFAIL_1), EC_ADDR(rap->rd_rtlddbpriv))); return (RD_DBERR); } if (db_priv.rtd_dynlmlst == NULL) { LOG(ps_plog(MSG_ORIG(MSG_DB_LKMAPNOINIT), EC_ADDR((uintptr_t)db_priv.rtd_dynlmlst))); return (RD_NOMAPS); } if (ps_pread(rap->rd_psp, (psaddr_t)db_priv.rtd_dynlmlst, (char *)&addr, sizeof (Addr)) != PS_OK) { LOG(ps_plog(MSG_ORIG(MSG_DB_READDBGFAIL_3), EC_ADDR((uintptr_t)db_priv.rtd_dynlmlst))); return (RD_DBERR); } if (addr == NULL) { LOG(ps_plog(MSG_ORIG(MSG_DB_LKMAPNOINIT_1), EC_ADDR((uintptr_t)db_priv.rtd_dynlmlst))); return (RD_NOMAPS); } /* * Having determined we have link-maps, ensure we have an iterator * call back function. */ if (cb == NULL) { LOG(ps_plog(MSG_ORIG(MSG_DB_NULLITER))); return (RD_ERR); } /* * As of VERSION6, rtd_dynlmlst points to an APlist. Prior to VERSION6 * rtd_dynlmlst pointed to a List. But, there was a window where the * version was not incremented, and this must be worked around by * interpreting the APlist data. Read the initial APlist information. */ if (ps_pread(rap->rd_psp, (psaddr_t)addr, (char *)&apl, sizeof (TAPlist)) != PS_OK) { LOG(ps_plog(MSG_ORIG(MSG_DB_READDBGFAIL_4), EC_ADDR((uintptr_t)addr))); return (RD_DBERR); } /* * The rtd_dynlmlst change from a List to an APlist occurred under * 6801536 in snv_112. However, this change neglected to preserve * backward compatibility by maintaining List processing and using a * version increment to detect the change. 6862967, intergrated in * snv_121 corrects the version detection. However, to catch objects * built between these releases, we look at the first element of the * APlist. apl_arritems indicates the number of APlist items that are * available. This was originally initialized with a AL_CNT_DYNLIST * value of 2 (one entry for LM_ID_BASE and one entry for LM_ID_LDSO). * It is possible that the use of an auditor results in an additional * link-map list, in which case the original apl_arritems would have * been doubled. * * Therefore, if the debugging verion is VERSION6, or the apl_arritems * entry has a value less than or equal to 4 and the debugging version * is VERSION5, then we process APlists. Otherwise, fall back to List * processing. */ if ((rap->rd_rdebugvers >= R_RTLDDB_VERSION6) || ((rap->rd_rdebugvers == R_RTLDDB_VERSION5) && (apl.apl_arritems <= 4))) { /* * Iterate through each apl.ap_data[] entry. */ for (datap = (uintptr_t)((char *)(uintptr_t)addr + ((size_t)(((TAPlist *)0)->apl_data))), nitems = 0; nitems < apl.apl_nitems; nitems++, datap += sizeof (Addr)) { TLm_list lm; ulong_t ident; /* * Obtain the Lm_list address for this apl.ap_data[] * entry. */ if (ps_pread(rap->rd_psp, (psaddr_t)datap, (char *)&addr, sizeof (Addr)) != PS_OK) { LOG(ps_plog(MSG_ORIG(MSG_DB_READDBGFAIL_5), EC_ADDR(datap))); return (RD_DBERR); } /* * Obtain the Lm_list data for this Lm_list address. */ if (ps_pread(rap->rd_psp, (psaddr_t)addr, (char *)&lm, sizeof (TLm_list)) != PS_OK) { LOG(ps_plog(MSG_ORIG(MSG_DB_READDBGFAIL_6), EC_ADDR((uintptr_t)addr))); return (RD_DBERR); } /* * Determine IDENT of current LM_LIST */ if (lm.lm_flags & LML_FLG_BASELM) ident = LM_ID_BASE; else if (lm.lm_flags & LML_FLG_RTLDLM) ident = LM_ID_LDSO; else ident = (ulong_t)addr; if ((rc = iter_map(rap, ident, (psaddr_t)lm.lm_head, cb, client_data, abort_iterp)) != RD_OK) return (rc); if (*abort_iterp != 0) break; } } else { TList list; TListnode lnode; Addr lnp; /* * Re-read the dynlmlst address to obtain a List structure. */ if (ps_pread(rap->rd_psp, (psaddr_t)db_priv.rtd_dynlmlst, (char *)&list, sizeof (TList)) != PS_OK) { LOG(ps_plog(MSG_ORIG(MSG_DB_READDBGFAIL_3), EC_ADDR((uintptr_t)db_priv.rtd_dynlmlst))); return (RD_DBERR); } /* * Iterate through the link-map list. */ for (lnp = (Addr)list.head; lnp; lnp = (Addr)lnode.next) { Lm_list lml; ulong_t ident; /* * Iterate through the List of Lm_list's. */ if (ps_pread(rap->rd_psp, (psaddr_t)lnp, (char *)&lnode, sizeof (TListnode)) != PS_OK) { LOG(ps_plog(MSG_ORIG(MSG_DB_READDBGFAIL_4), EC_ADDR(lnp))); return (RD_DBERR); } if (ps_pread(rap->rd_psp, (psaddr_t)lnode.data, (char *)&lml, sizeof (Lm_list)) != PS_OK) { LOG(ps_plog(MSG_ORIG(MSG_DB_READDBGFAIL_5), EC_ADDR((uintptr_t)lnode.data))); return (RD_DBERR); } /* * Determine IDENT of current LM_LIST */ if (lml.lm_flags & LML_FLG_BASELM) ident = LM_ID_BASE; else if (lml.lm_flags & LML_FLG_RTLDLM) ident = LM_ID_LDSO; else ident = (unsigned long)lnode.data; if ((rc = iter_map(rap, ident, (psaddr_t)lml.lm_head, cb, client_data, abort_iterp)) != RD_OK) return (rc); if (*abort_iterp != 0) break; } } return (rc); } rd_err_e _rd_loadobj_iter32(rd_agent_t *rap, rl_iter_f *cb, void *client_data) { rd_err_e rc, rc_brand = RD_OK; uint_t abort_iter = 0; /* First iterate over the native target objects */ rc = _rd_loadobj_iter32_native(rap, cb, client_data, &abort_iter); if (abort_iter != 0) return (rc); /* Then iterate over any branded objects. */ if ((rap->rd_helper.rh_ops != NULL) && (rap->rd_helper.rh_ops->rho_loadobj_iter != NULL)) rc_brand = rap->rd_helper.rh_ops->rho_loadobj_iter( rap->rd_helper.rh_data, cb, client_data); rc = (rc != RD_OK) ? rc : rc_brand; return (rc); }