OpenSolaris_b135/lib/brand/solaris10/librtld_db/common/solaris10_librtld_db.c
/*
* 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 2009 Sun Microsystems, Inc. All rights reserved.
* Use is subject to license terms.
*/
#include <assert.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <strings.h>
#include <libproc.h>
#include <proc_service.h>
#include <synch.h>
#include <sys/types.h>
#include <sys/link.h>
#include <rtld_db.h>
#include <s10_brand.h>
/*
* ATTENTION:
* Librtl_db brand plugin libraries should NOT directly invoke any
* libproc.so interfaces or be linked against libproc. If a librtl_db
* brand plugin library uses libproc.so interfaces then it may break
* any other librtld_db consumers (like mdb) that tries to attach
* to a branded process. The only safe interfaces that the a librtld_db
* brand plugin library can use to access a target process are the
* proc_service(3PROC) apis.
*/
/*
* M_DATA comes from some streams header file but is also redifined in
* _rtld_db.h, so nuke the old streams definition here.
*/
#ifdef M_DATA
#undef M_DATA
#endif /* M_DATA */
/*
* For 32-bit versions of this library, this file get's compiled once.
* For 64-bit versions of this library, this file get's compiled twice,
* once with _ELF64 defined and once without. The expectation is that
* the 64-bit version of the library can properly deal with both 32-bit
* and 64-bit elf files, hence in the 64-bit library there are two copies
* of all the interfaces in this file, one set named *32 and one named *64.
*
* This also means that we need to be careful when declaring local pointers
* that point to objects in another processes address space, since these
* pointers may not match the current processes pointer width. Basically,
* we should not use any objects that change size between 32 and 64 bit
* modes like: long, void *, uintprt_t, caddr_t, psaddr_t, size_t, etc.
* Instead we should declare all pointers as uint32_t. Then when we
* are compiled to deal with 64-bit targets we'll re-define uing32_t
* to be a uint64_t.
*/
#ifdef _LP64
#ifdef _ELF64
#define uint32_t uint64_t
#define Elf32_Dyn Elf64_Dyn
#define validate_rdebug32 validate_rdebug64
#define _rd_loadobj_iter32 _rd_loadobj_iter64
#define _rd_get_dyns32 _rd_get_dyns64
#define dummy_ldb32 dummy_ldb64
#define dummy_ldb_init32 dummy_ldb_init64
#define dummy_ldb_fini32 dummy_ldb_fini64
#define dummy_ldb_loadobj_iter32 dummy_ldb_loadobj_iter64
#define dummy_ldb_get_dyns32 dummy_ldb_get_dyns64
#define s10_ldb_init32 s10_ldb_init64
#define s10_ldb_fini32 s10_ldb_fini64
#define s10_ldb_loadobj_iter32 s10_ldb_loadobj_iter64
#define s10_ldb_get_dyns32 s10_ldb_get_dyns64
#endif /* _ELF64 */
#endif /* _LP64 */
/* Included from usr/src/cmd/sgs/librtld_db/common */
#include <_rtld_db.h>
/*ARGSUSED*/
static rd_helper_data_t
dummy_ldb_init32(rd_agent_t *rap, struct ps_prochandle *php)
{
return (NULL);
}
/*ARGSUSED*/
static void
dummy_ldb_fini32(rd_helper_data_t rhd)
{
}
/*ARGSUSED*/
static int
dummy_ldb_loadobj_iter32(rd_helper_data_t rhd, rl_iter_f *cb, void *client_data)
{
return (RD_OK);
}
/*ARGSUSED*/
static rd_err_e
dummy_ldb_get_dyns32(rd_helper_data_t rhd,
psaddr_t addr, void **dynpp, size_t *dynpp_sz)
{
*dynpp = NULL;
*dynpp_sz = 0;
return (RD_OK);
}
static rd_helper_ops_t dummy_ldb32 = {
LM_ID_BRAND,
dummy_ldb_init32,
dummy_ldb_fini32,
dummy_ldb_loadobj_iter32,
dummy_ldb_get_dyns32
};
static uint32_t
s10_ldb_getauxval32(struct ps_prochandle *php, int type)
{
const auxv_t *auxvp = NULL;
if (ps_pauxv(php, &auxvp) != PS_OK)
return ((uint32_t)-1);
while (auxvp->a_type != AT_NULL) {
if (auxvp->a_type == type)
return ((uint32_t)(uintptr_t)auxvp->a_un.a_ptr);
auxvp++;
}
return ((uint32_t)-1);
}
/*
* Normally, the native Solaris librtldb_db plugin uses a bunch of different
* methods to try and find the rdebug structure associated with the target
* process we're debugging. For details on the different methods see
* _rd_reset32(). Thankfully our job is easier. We know that the brand
* library is always linked against the native linker, and when the
* process was first executed we saved off a pointer to the brand linkers
* rdebug structure in one of our brand specific aux vectors,
* AT_SUN_BRAND_S10_LDDATA. So we'll just look that up here.
*/
/*ARGSUSED*/
static rd_helper_data_t
s10_ldb_init32(rd_agent_t *rap, struct ps_prochandle *php)
{
struct rd_agent *rap_new;
uint32_t lddata_addr;
int rd_dmodel;
if (ps_pdmodel(php, &rd_dmodel) != PS_OK) {
ps_plog("s10_ldb_init: lookup of data model failed");
return (NULL);
}
#ifdef _ELF64
assert(rd_dmodel == PR_MODEL_LP64);
#else /* !_ELF64 */
assert(rd_dmodel == PR_MODEL_ILP32);
#endif /* !_ELF64 */
lddata_addr = s10_ldb_getauxval32(php, AT_SUN_BRAND_S10_LDDATA);
if (lddata_addr == (uint32_t)-1) {
ps_plog("s10_ldb_init: no LDDATA found in aux vector");
return (NULL);
}
ps_plog("s10_ldb_init: found LDDATA auxv ld.so.1 data seg "
"at: 0x%p", lddata_addr);
/*
* Ok. So this is kinda ugly. Basically we know that we're going to
* be parsing data from link maps that are generated by a Solaris
* linker. As it turns out, that's exactly what the default
* Solaris librtld_db library is designed to do. So rather than
* duplicate all that link map parsing code here we'll simply
* invoke the native librtld_db that normally does this, and when
* we do we'll point them at our emulation libraries link map.
*
* Of course these interfacess aren't really public interfaces
* and they take a "struct rd_agent" as a parameter. So here
* we'll allocate and initialize a new "struct rd_agent", point
* it at our emulation libraries link map, and initialize just
* enough of the structure to make the librtld_db interfaces
* that we want to use happy.
*/
if ((rap_new = calloc(sizeof (*rap_new), 1)) == NULL) {
ps_plog("s10_ldb_init: can't allocate memory");
return (NULL);
}
rap_new->rd_dmodel = rd_dmodel;
rap_new->rd_psp = php;
rap_new->rd_rdebug = lddata_addr;
(void) mutex_init(&rap_new->rd_mutex, USYNC_THREAD, 0);
/*
* When we get invoked from librtld_db, and we call back into it,
* librtld_db will once again check if there is a plugin and
* invoke it. Since we don't want to enter a recursive loop
* we're going to specify a different plugin interface for
* our linkmap, and these new plugin interfaces won't actually
* do anything other than return.
*/
rap_new->rd_helper.rh_ops = &dummy_ldb32;
/*
* validate_rdebug32() requires the following "struct rd_agent"
* members to be initialized:
* rd_psp, rd_rdebug
*
* validate_rdebug32() initializes the following "struct rd_agent"
* members:
* rd_flags, rd_rdebugvers, rd_rtlddbpriv
*/
if (validate_rdebug32(rap_new) != RD_OK) {
ps_plog("s10_ldb_init: can't find valid r_debug data");
free(rap_new);
return (NULL);
}
ps_plog("s10_ldb_init: finished, helper_data=0x%p", rap_new);
return ((rd_helper_data_t)rap_new);
}
static void
s10_ldb_fini32(rd_helper_data_t rhd)
{
struct rd_agent *rap = (struct rd_agent *)rhd;
ps_plog("s10_ldb_fini: cleaning up s10 helper");
free(rap);
}
/*ARGSUSED*/
static int
s10_ldb_loadobj_iter32(rd_helper_data_t rhd, rl_iter_f *cb, void *client_data)
{
struct rd_agent *rap = (struct rd_agent *)rhd;
int err;
ps_plog("s10_ldb_loadobj_iter(helper_data=0x%p)", rhd);
assert(rap->rd_psp == php);
RDAGLOCK(rap);
/*
* _rd_loadobj_iter32() requires the following "struct rd_agent"
* members to be initialized:
* rd_rtlddbpriv, rd_rdebugvers, rd_flags,
* rd_helper.rh_ops, rd_dmodel
*/
err = _rd_loadobj_iter32(rap, cb, client_data);
RDAGUNLOCK(rap);
ps_plog("s10_ldb_loadobj_iter: finished, err = %d", err);
return (err);
}
/*ARGSUSED*/
static rd_err_e
s10_ldb_get_dyns32(rd_helper_data_t rhd,
psaddr_t addr, void **dynpp, size_t *dynpp_sz)
{
struct rd_agent *rap = (struct rd_agent *)rhd;
int err;
ps_plog("s10_ldb_get_dyns(helper_data=0x%p)", rhd);
err = _rd_get_dyns32(rap, addr, (Elf32_Dyn **)dynpp, dynpp_sz);
ps_plog("s10_ldb_get_dyns: finished, err = %d", err);
return (err);
}
/*
* Librtld_db plugin linkage struct.
*
* When we get loaded by librtld_db, it will look for the symbol below
* to find our plugin entry points.
*/
rd_helper_ops_t RTLD_DB_BRAND_OPS = {
LM_ID_NONE,
s10_ldb_init32,
s10_ldb_fini32,
s10_ldb_loadobj_iter32,
s10_ldb_get_dyns32
};