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|
/* Solaris threads debugging interface.
Copyright (C) 1996-2013 Free Software Foundation, Inc.
This file is part of GDB.
This program is free software; you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation; either version 3 of the License, or
(at your option) any later version.
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with this program. If not, see <http://www.gnu.org/licenses/>. */
/* This module implements a sort of half target that sits between the
machine-independent parts of GDB and the /proc interface (procfs.c)
to provide access to the Solaris user-mode thread implementation.
Solaris threads are true user-mode threads, which are invoked via
the thr_* and pthread_* (native and POSIX respectivly) interfaces.
These are mostly implemented in user-space, with all thread context
kept in various structures that live in the user's heap. These
should not be confused with lightweight processes (LWPs), which are
implemented by the kernel, and scheduled without explicit
intervention by the process.
Just to confuse things a little, Solaris threads (both native and
POSIX) are actually implemented using LWPs. In general, there are
going to be more threads than LWPs. There is no fixed
correspondence between a thread and an LWP. When a thread wants to
run, it gets scheduled onto the first available LWP and can
therefore migrate from one LWP to another as time goes on. A
sleeping thread may not be associated with an LWP at all!
To make it possible to mess with threads, Sun provides a library
called libthread_db.so.1 (not to be confused with
libthread_db.so.0, which doesn't have a published interface). This
interface has an upper part, which it provides, and a lower part
which we provide. The upper part consists of the td_* routines,
which allow us to find all the threads, query their state, etc...
The lower part consists of all of the ps_*, which are used by the
td_* routines to read/write memory, manipulate LWPs, lookup
symbols, etc... The ps_* routines actually do most of their work
by calling functions in procfs.c. */
#include "defs.h"
#include <thread.h>
#include <proc_service.h>
#include <thread_db.h>
#include "gdbthread.h"
#include "target.h"
#include "inferior.h"
#include <fcntl.h>
#include "gdb_stat.h"
#include <dlfcn.h>
#include "gdbcmd.h"
#include "gdbcore.h"
#include "regcache.h"
#include "solib.h"
#include "symfile.h"
#include "observer.h"
#include "gdb_string.h"
#include "procfs.h"
struct target_ops sol_thread_ops;
/* Prototypes for supply_gregset etc. */
#include "gregset.h"
/* This struct is defined by us, but mainly used for the proc_service
interface. We don't have much use for it, except as a handy place
to get a real PID for memory accesses. */
struct ps_prochandle
{
ptid_t ptid;
};
struct string_map
{
int num;
char *str;
};
static struct ps_prochandle main_ph;
static td_thragent_t *main_ta;
static int sol_thread_active = 0;
static void init_sol_thread_ops (void);
/* Default definitions: These must be defined in tm.h if they are to
be shared with a process module such as procfs. */
#define GET_PID(ptid) ptid_get_pid (ptid)
#define GET_LWP(ptid) ptid_get_lwp (ptid)
#define GET_THREAD(ptid) ptid_get_tid (ptid)
#define is_lwp(ptid) (GET_LWP (ptid) != 0)
#define is_thread(ptid) (GET_THREAD (ptid) != 0)
#define BUILD_LWP(lwp, pid) ptid_build (pid, lwp, 0)
#define BUILD_THREAD(tid, pid) ptid_build (pid, 0, tid)
/* Pointers to routines from libthread_db resolved by dlopen(). */
static void (*p_td_log)(const int on_off);
static td_err_e (*p_td_ta_new)(const struct ps_prochandle *ph_p,
td_thragent_t **ta_pp);
static td_err_e (*p_td_ta_delete)(td_thragent_t *ta_p);
static td_err_e (*p_td_init)(void);
static td_err_e (*p_td_ta_get_ph)(const td_thragent_t *ta_p,
struct ps_prochandle **ph_pp);
static td_err_e (*p_td_ta_get_nthreads)(const td_thragent_t *ta_p,
int *nthread_p);
static td_err_e (*p_td_ta_tsd_iter)(const td_thragent_t *ta_p,
td_key_iter_f *cb, void *cbdata_p);
static td_err_e (*p_td_ta_thr_iter)(const td_thragent_t *ta_p,
td_thr_iter_f *cb, void *cbdata_p,
td_thr_state_e state, int ti_pri,
sigset_t *ti_sigmask_p,
unsigned ti_user_flags);
static td_err_e (*p_td_thr_validate)(const td_thrhandle_t *th_p);
static td_err_e (*p_td_thr_tsd)(const td_thrhandle_t * th_p,
const thread_key_t key, void **data_pp);
static td_err_e (*p_td_thr_get_info)(const td_thrhandle_t *th_p,
td_thrinfo_t *ti_p);
static td_err_e (*p_td_thr_getfpregs)(const td_thrhandle_t *th_p,
prfpregset_t *fpregset);
static td_err_e (*p_td_thr_getxregsize)(const td_thrhandle_t *th_p,
int *xregsize);
static td_err_e (*p_td_thr_getxregs)(const td_thrhandle_t *th_p,
const caddr_t xregset);
static td_err_e (*p_td_thr_sigsetmask)(const td_thrhandle_t *th_p,
const sigset_t ti_sigmask);
static td_err_e (*p_td_thr_setprio)(const td_thrhandle_t *th_p,
const int ti_pri);
static td_err_e (*p_td_thr_setsigpending)(const td_thrhandle_t *th_p,
const uchar_t ti_pending_flag,
const sigset_t ti_pending);
static td_err_e (*p_td_thr_setfpregs)(const td_thrhandle_t *th_p,
const prfpregset_t *fpregset);
static td_err_e (*p_td_thr_setxregs)(const td_thrhandle_t *th_p,
const caddr_t xregset);
static td_err_e (*p_td_ta_map_id2thr)(const td_thragent_t *ta_p,
thread_t tid,
td_thrhandle_t *th_p);
static td_err_e (*p_td_ta_map_lwp2thr)(const td_thragent_t *ta_p,
lwpid_t lwpid,
td_thrhandle_t *th_p);
static td_err_e (*p_td_thr_getgregs)(const td_thrhandle_t *th_p,
prgregset_t regset);
static td_err_e (*p_td_thr_setgregs)(const td_thrhandle_t *th_p,
const prgregset_t regset);
/* Return the libthread_db error string associated with ERRCODE. If
ERRCODE is unknown, return an appropriate message. */
static char *
td_err_string (td_err_e errcode)
{
static struct string_map td_err_table[] =
{
{ TD_OK, "generic \"call succeeded\"" },
{ TD_ERR, "generic error." },
{ TD_NOTHR, "no thread can be found to satisfy query" },
{ TD_NOSV, "no synch. variable can be found to satisfy query" },
{ TD_NOLWP, "no lwp can be found to satisfy query" },
{ TD_BADPH, "invalid process handle" },
{ TD_BADTH, "invalid thread handle" },
{ TD_BADSH, "invalid synchronization handle" },
{ TD_BADTA, "invalid thread agent" },
{ TD_BADKEY, "invalid key" },
{ TD_NOMSG, "td_thr_event_getmsg() called when there was no message" },
{ TD_NOFPREGS, "FPU register set not available for given thread" },
{ TD_NOLIBTHREAD, "application not linked with libthread" },
{ TD_NOEVENT, "requested event is not supported" },
{ TD_NOCAPAB, "capability not available" },
{ TD_DBERR, "Debugger service failed" },
{ TD_NOAPLIC, "Operation not applicable to" },
{ TD_NOTSD, "No thread specific data for this thread" },
{ TD_MALLOC, "Malloc failed" },
{ TD_PARTIALREG, "Only part of register set was written/read" },
{ TD_NOXREGS, "X register set not available for given thread" }
};
const int td_err_size = sizeof td_err_table / sizeof (struct string_map);
int i;
static char buf[50];
for (i = 0; i < td_err_size; i++)
if (td_err_table[i].num == errcode)
return td_err_table[i].str;
xsnprintf (buf, sizeof (buf), "Unknown libthread_db error code: %d",
errcode);
return buf;
}
/* Return the libthread_db state string assicoated with STATECODE.
If STATECODE is unknown, return an appropriate message. */
static char *
td_state_string (td_thr_state_e statecode)
{
static struct string_map td_thr_state_table[] =
{
{ TD_THR_ANY_STATE, "any state" },
{ TD_THR_UNKNOWN, "unknown" },
{ TD_THR_STOPPED, "stopped" },
{ TD_THR_RUN, "run" },
{ TD_THR_ACTIVE, "active" },
{ TD_THR_ZOMBIE, "zombie" },
{ TD_THR_SLEEP, "sleep" },
{ TD_THR_STOPPED_ASLEEP, "stopped asleep" }
};
const int td_thr_state_table_size =
sizeof td_thr_state_table / sizeof (struct string_map);
int i;
static char buf[50];
for (i = 0; i < td_thr_state_table_size; i++)
if (td_thr_state_table[i].num == statecode)
return td_thr_state_table[i].str;
xsnprintf (buf, sizeof (buf), "Unknown libthread_db state code: %d",
statecode);
return buf;
}
/* Convert a POSIX or Solaris thread ID into a LWP ID. If THREAD_ID
doesn't exist, that's an error. If it's an inactive thread, return
DEFAULT_LWP.
NOTE: This function probably shouldn't call error(). */
static ptid_t
thread_to_lwp (ptid_t thread_id, int default_lwp)
{
td_thrinfo_t ti;
td_thrhandle_t th;
td_err_e val;
if (is_lwp (thread_id))
return thread_id; /* It's already an LWP ID. */
/* It's a thread. Convert to LWP. */
val = p_td_ta_map_id2thr (main_ta, GET_THREAD (thread_id), &th);
if (val == TD_NOTHR)
return pid_to_ptid (-1); /* Thread must have terminated. */
else if (val != TD_OK)
error (_("thread_to_lwp: td_ta_map_id2thr %s"), td_err_string (val));
val = p_td_thr_get_info (&th, &ti);
if (val == TD_NOTHR)
return pid_to_ptid (-1); /* Thread must have terminated. */
else if (val != TD_OK)
error (_("thread_to_lwp: td_thr_get_info: %s"), td_err_string (val));
if (ti.ti_state != TD_THR_ACTIVE)
{
if (default_lwp != -1)
return pid_to_ptid (default_lwp);
error (_("thread_to_lwp: thread state not active: %s"),
td_state_string (ti.ti_state));
}
return BUILD_LWP (ti.ti_lid, PIDGET (thread_id));
}
/* Convert an LWP ID into a POSIX or Solaris thread ID. If LWP_ID
doesn't exists, that's an error.
NOTE: This function probably shouldn't call error(). */
static ptid_t
lwp_to_thread (ptid_t lwp)
{
td_thrinfo_t ti;
td_thrhandle_t th;
td_err_e val;
if (is_thread (lwp))
return lwp; /* It's already a thread ID. */
/* It's an LWP. Convert it to a thread ID. */
if (!target_thread_alive (lwp))
return pid_to_ptid (-1); /* Must be a defunct LPW. */
val = p_td_ta_map_lwp2thr (main_ta, GET_LWP (lwp), &th);
if (val == TD_NOTHR)
return pid_to_ptid (-1); /* Thread must have terminated. */
else if (val != TD_OK)
error (_("lwp_to_thread: td_ta_map_lwp2thr: %s."), td_err_string (val));
val = p_td_thr_validate (&th);
if (val == TD_NOTHR)
return lwp; /* Unknown to libthread; just return LPW, */
else if (val != TD_OK)
error (_("lwp_to_thread: td_thr_validate: %s."), td_err_string (val));
val = p_td_thr_get_info (&th, &ti);
if (val == TD_NOTHR)
return pid_to_ptid (-1); /* Thread must have terminated. */
else if (val != TD_OK)
error (_("lwp_to_thread: td_thr_get_info: %s."), td_err_string (val));
return BUILD_THREAD (ti.ti_tid, PIDGET (lwp));
}
/* Most target vector functions from here on actually just pass
through to the layer beneath, as they don't need to do anything
specific for threads. */
/* Take a program previously attached to and detaches it. The program
resumes execution and will no longer stop on signals, etc. We'd
better not have left any breakpoints in the program or it'll die
when it hits one. For this to work, it may be necessary for the
process to have been previously attached. It *might* work if the
program was started via the normal ptrace (PTRACE_TRACEME). */
static void
sol_thread_detach (struct target_ops *ops, char *args, int from_tty)
{
struct target_ops *beneath = find_target_beneath (ops);
sol_thread_active = 0;
inferior_ptid = pid_to_ptid (PIDGET (main_ph.ptid));
unpush_target (ops);
beneath->to_detach (beneath, args, from_tty);
}
/* Resume execution of process PTID. If STEP is nozero, then just
single step it. If SIGNAL is nonzero, restart it with that signal
activated. We may have to convert PTID from a thread ID to an LWP
ID for procfs. */
static void
sol_thread_resume (struct target_ops *ops,
ptid_t ptid, int step, enum gdb_signal signo)
{
struct cleanup *old_chain;
struct target_ops *beneath = find_target_beneath (ops);
old_chain = save_inferior_ptid ();
inferior_ptid = thread_to_lwp (inferior_ptid, PIDGET (main_ph.ptid));
if (PIDGET (inferior_ptid) == -1)
inferior_ptid = procfs_first_available ();
if (PIDGET (ptid) != -1)
{
ptid_t save_ptid = ptid;
ptid = thread_to_lwp (ptid, -2);
if (PIDGET (ptid) == -2) /* Inactive thread. */
error (_("This version of Solaris can't start inactive threads."));
if (info_verbose && PIDGET (ptid) == -1)
warning (_("Specified thread %ld seems to have terminated"),
GET_THREAD (save_ptid));
}
beneath->to_resume (beneath, ptid, step, signo);
do_cleanups (old_chain);
}
/* Wait for any threads to stop. We may have to convert PTID from a
thread ID to an LWP ID, and vice versa on the way out. */
static ptid_t
sol_thread_wait (struct target_ops *ops,
ptid_t ptid, struct target_waitstatus *ourstatus, int options)
{
ptid_t rtnval;
ptid_t save_ptid;
struct target_ops *beneath = find_target_beneath (ops);
struct cleanup *old_chain;
save_ptid = inferior_ptid;
old_chain = save_inferior_ptid ();
inferior_ptid = thread_to_lwp (inferior_ptid, PIDGET (main_ph.ptid));
if (PIDGET (inferior_ptid) == -1)
inferior_ptid = procfs_first_available ();
if (PIDGET (ptid) != -1)
{
ptid_t save_ptid = ptid;
ptid = thread_to_lwp (ptid, -2);
if (PIDGET (ptid) == -2) /* Inactive thread. */
error (_("This version of Solaris can't start inactive threads."));
if (info_verbose && PIDGET (ptid) == -1)
warning (_("Specified thread %ld seems to have terminated"),
GET_THREAD (save_ptid));
}
rtnval = beneath->to_wait (beneath, ptid, ourstatus, options);
if (ourstatus->kind != TARGET_WAITKIND_EXITED)
{
/* Map the LWP of interest back to the appropriate thread ID. */
rtnval = lwp_to_thread (rtnval);
if (PIDGET (rtnval) == -1)
rtnval = save_ptid;
/* See if we have a new thread. */
if (is_thread (rtnval)
&& !ptid_equal (rtnval, save_ptid)
&& (!in_thread_list (rtnval)
|| is_exited (rtnval)))
add_thread (rtnval);
}
/* During process initialization, we may get here without the thread
package being initialized, since that can only happen after we've
found the shared libs. */
do_cleanups (old_chain);
return rtnval;
}
static void
sol_thread_fetch_registers (struct target_ops *ops,
struct regcache *regcache, int regnum)
{
thread_t thread;
td_thrhandle_t thandle;
td_err_e val;
prgregset_t gregset;
prfpregset_t fpregset;
gdb_gregset_t *gregset_p = &gregset;
gdb_fpregset_t *fpregset_p = &fpregset;
struct target_ops *beneath = find_target_beneath (ops);
if (!is_thread (inferior_ptid))
{
/* It's an LWP; pass the request on to the layer beneath. */
beneath->to_fetch_registers (beneath, regcache, regnum);
return;
}
/* Solaris thread: convert INFERIOR_PTID into a td_thrhandle_t. */
thread = GET_THREAD (inferior_ptid);
if (thread == 0)
error (_("sol_thread_fetch_registers: thread == 0"));
val = p_td_ta_map_id2thr (main_ta, thread, &thandle);
if (val != TD_OK)
error (_("sol_thread_fetch_registers: td_ta_map_id2thr: %s"),
td_err_string (val));
/* Get the general-purpose registers. */
val = p_td_thr_getgregs (&thandle, gregset);
if (val != TD_OK && val != TD_PARTIALREG)
error (_("sol_thread_fetch_registers: td_thr_getgregs %s"),
td_err_string (val));
/* For SPARC, TD_PARTIALREG means that only %i0...%i7, %l0..%l7, %pc
and %sp are saved (by a thread context switch). */
/* And, now the floating-point registers. */
val = p_td_thr_getfpregs (&thandle, &fpregset);
if (val != TD_OK && val != TD_NOFPREGS)
error (_("sol_thread_fetch_registers: td_thr_getfpregs %s"),
td_err_string (val));
/* Note that we must call supply_gregset and supply_fpregset *after*
calling the td routines because the td routines call ps_lget*
which affect the values stored in the registers array. */
supply_gregset (regcache, (const gdb_gregset_t *) gregset_p);
supply_fpregset (regcache, (const gdb_fpregset_t *) fpregset_p);
}
static void
sol_thread_store_registers (struct target_ops *ops,
struct regcache *regcache, int regnum)
{
thread_t thread;
td_thrhandle_t thandle;
td_err_e val;
prgregset_t gregset;
prfpregset_t fpregset;
if (!is_thread (inferior_ptid))
{
struct target_ops *beneath = find_target_beneath (ops);
/* It's an LWP; pass the request on to the layer beneath. */
beneath->to_store_registers (beneath, regcache, regnum);
return;
}
/* Solaris thread: convert INFERIOR_PTID into a td_thrhandle_t. */
thread = GET_THREAD (inferior_ptid);
val = p_td_ta_map_id2thr (main_ta, thread, &thandle);
if (val != TD_OK)
error (_("sol_thread_store_registers: td_ta_map_id2thr %s"),
td_err_string (val));
if (regnum != -1)
{
/* Not writing all the registers. */
char old_value[MAX_REGISTER_SIZE];
/* Save new register value. */
regcache_raw_collect (regcache, regnum, old_value);
val = p_td_thr_getgregs (&thandle, gregset);
if (val != TD_OK)
error (_("sol_thread_store_registers: td_thr_getgregs %s"),
td_err_string (val));
val = p_td_thr_getfpregs (&thandle, &fpregset);
if (val != TD_OK)
error (_("sol_thread_store_registers: td_thr_getfpregs %s"),
td_err_string (val));
/* Restore new register value. */
regcache_raw_supply (regcache, regnum, old_value);
}
fill_gregset (regcache, (gdb_gregset_t *) &gregset, regnum);
fill_fpregset (regcache, (gdb_fpregset_t *) &fpregset, regnum);
val = p_td_thr_setgregs (&thandle, gregset);
if (val != TD_OK)
error (_("sol_thread_store_registers: td_thr_setgregs %s"),
td_err_string (val));
val = p_td_thr_setfpregs (&thandle, &fpregset);
if (val != TD_OK)
error (_("sol_thread_store_registers: td_thr_setfpregs %s"),
td_err_string (val));
}
/* Perform partial transfers on OBJECT. See target_read_partial and
target_write_partial for details of each variant. One, and only
one, of readbuf or writebuf must be non-NULL. */
static LONGEST
sol_thread_xfer_partial (struct target_ops *ops, enum target_object object,
const char *annex, gdb_byte *readbuf,
const gdb_byte *writebuf,
ULONGEST offset, LONGEST len)
{
int retval;
struct cleanup *old_chain;
struct target_ops *beneath = find_target_beneath (ops);
old_chain = save_inferior_ptid ();
if (is_thread (inferior_ptid) || !target_thread_alive (inferior_ptid))
{
/* It's either a thread or an LWP that isn't alive. Any live
LWP will do so use the first available.
NOTE: We don't need to call switch_to_thread; we're just
reading memory. */
inferior_ptid = procfs_first_available ();
}
retval = beneath->to_xfer_partial (beneath, object, annex,
readbuf, writebuf, offset, len);
do_cleanups (old_chain);
return retval;
}
static void
check_for_thread_db (void)
{
td_err_e err;
ptid_t ptid;
/* Do nothing if we couldn't load libthread_db.so.1. */
if (p_td_ta_new == NULL)
return;
if (sol_thread_active)
/* Nothing to do. The thread library was already detected and the
target vector was already activated. */
return;
/* Now, initialize libthread_db. This needs to be done after the
shared libraries are located because it needs information from
the user's thread library. */
err = p_td_init ();
if (err != TD_OK)
{
warning (_("sol_thread_new_objfile: td_init: %s"), td_err_string (err));
return;
}
/* Now attempt to open a connection to the thread library. */
err = p_td_ta_new (&main_ph, &main_ta);
switch (err)
{
case TD_NOLIBTHREAD:
/* No thread library was detected. */
break;
case TD_OK:
printf_unfiltered (_("[Thread debugging using libthread_db enabled]\n"));
/* The thread library was detected. Activate the sol_thread target. */
push_target (&sol_thread_ops);
sol_thread_active = 1;
main_ph.ptid = inferior_ptid; /* Save for xfer_memory. */
ptid = lwp_to_thread (inferior_ptid);
if (PIDGET (ptid) != -1)
inferior_ptid = ptid;
target_find_new_threads ();
break;
default:
warning (_("Cannot initialize thread debugging library: %s"),
td_err_string (err));
break;
}
}
/* This routine is called whenever a new symbol table is read in, or
when all symbol tables are removed. libthread_db can only be
initialized when it finds the right variables in libthread.so.
Since it's a shared library, those variables don't show up until
the library gets mapped and the symbol table is read in. */
static void
sol_thread_new_objfile (struct objfile *objfile)
{
if (objfile != NULL)
check_for_thread_db ();
}
/* Clean up after the inferior dies. */
static void
sol_thread_mourn_inferior (struct target_ops *ops)
{
struct target_ops *beneath = find_target_beneath (ops);
sol_thread_active = 0;
unpush_target (ops);
beneath->to_mourn_inferior (beneath);
}
/* Return true if PTID is still active in the inferior. */
static int
sol_thread_alive (struct target_ops *ops, ptid_t ptid)
{
if (is_thread (ptid))
{
/* It's a (user-level) thread. */
td_err_e val;
td_thrhandle_t th;
int pid;
pid = GET_THREAD (ptid);
if ((val = p_td_ta_map_id2thr (main_ta, pid, &th)) != TD_OK)
return 0; /* Thread not found. */
if ((val = p_td_thr_validate (&th)) != TD_OK)
return 0; /* Thread not valid. */
return 1; /* Known thread. */
}
else
{
struct target_ops *beneath = find_target_beneath (ops);
/* It's an LPW; pass the request on to the layer below. */
return beneath->to_thread_alive (beneath, ptid);
}
}
/* These routines implement the lower half of the thread_db interface,
i.e. the ps_* routines. */
/* Various versions of <proc_service.h> have slightly different
function prototypes. In particular, we have
NEWER OLDER
struct ps_prochandle * const struct ps_prochandle *
void* char*
const void* char*
int size_t
Which one you have depends on the Solaris version and what patches
you've applied. On the theory that there are only two major
variants, we have configure check the prototype of ps_pdwrite (),
and use that info to make appropriate typedefs here. */
#ifdef PROC_SERVICE_IS_OLD
typedef const struct ps_prochandle *gdb_ps_prochandle_t;
typedef char *gdb_ps_read_buf_t;
typedef char *gdb_ps_write_buf_t;
typedef int gdb_ps_size_t;
typedef psaddr_t gdb_ps_addr_t;
#else
typedef struct ps_prochandle *gdb_ps_prochandle_t;
typedef void *gdb_ps_read_buf_t;
typedef const void *gdb_ps_write_buf_t;
typedef size_t gdb_ps_size_t;
typedef psaddr_t gdb_ps_addr_t;
#endif
/* The next four routines are called by libthread_db to tell us to
stop and stop a particular process or lwp. Since GDB ensures that
these are all stopped by the time we call anything in thread_db,
these routines need to do nothing. */
/* Process stop. */
ps_err_e
ps_pstop (gdb_ps_prochandle_t ph)
{
return PS_OK;
}
/* Process continue. */
ps_err_e
ps_pcontinue (gdb_ps_prochandle_t ph)
{
return PS_OK;
}
/* LWP stop. */
ps_err_e
ps_lstop (gdb_ps_prochandle_t ph, lwpid_t lwpid)
{
return PS_OK;
}
/* LWP continue. */
ps_err_e
ps_lcontinue (gdb_ps_prochandle_t ph, lwpid_t lwpid)
{
return PS_OK;
}
/* Looks up the symbol LD_SYMBOL_NAME in the debugger's symbol table. */
ps_err_e
ps_pglobal_lookup (gdb_ps_prochandle_t ph, const char *ld_object_name,
const char *ld_symbol_name, gdb_ps_addr_t *ld_symbol_addr)
{
struct minimal_symbol *ms;
ms = lookup_minimal_symbol (ld_symbol_name, NULL, NULL);
if (!ms)
return PS_NOSYM;
*ld_symbol_addr = SYMBOL_VALUE_ADDRESS (ms);
return PS_OK;
}
/* Common routine for reading and writing memory. */
static ps_err_e
rw_common (int dowrite, const struct ps_prochandle *ph, gdb_ps_addr_t addr,
char *buf, int size)
{
int ret;
struct cleanup *old_chain;
old_chain = save_inferior_ptid ();
if (is_thread (inferior_ptid) || !target_thread_alive (inferior_ptid))
{
/* It's either a thread or an LWP that isn't alive. Any live
LWP will do so use the first available.
NOTE: We don't need to call switch_to_thread; we're just
reading memory. */
inferior_ptid = procfs_first_available ();
}
#if defined (__sparcv9)
/* For Sparc64 cross Sparc32, make sure the address has not been
accidentally sign-extended (or whatever) to beyond 32 bits. */
if (bfd_get_arch_size (exec_bfd) == 32)
addr &= 0xffffffff;
#endif
if (dowrite)
ret = target_write_memory (addr, buf, size);
else
ret = target_read_memory (addr, buf, size);
do_cleanups (old_chain);
return (ret == 0 ? PS_OK : PS_ERR);
}
/* Copies SIZE bytes from target process .data segment to debugger memory. */
ps_err_e
ps_pdread (gdb_ps_prochandle_t ph, gdb_ps_addr_t addr,
gdb_ps_read_buf_t buf, gdb_ps_size_t size)
{
return rw_common (0, ph, addr, buf, size);
}
/* Copies SIZE bytes from debugger memory .data segment to target process. */
ps_err_e
ps_pdwrite (gdb_ps_prochandle_t ph, gdb_ps_addr_t addr,
gdb_ps_write_buf_t buf, gdb_ps_size_t size)
{
return rw_common (1, ph, addr, (char *) buf, size);
}
/* Copies SIZE bytes from target process .text segment to debugger memory. */
ps_err_e
ps_ptread (gdb_ps_prochandle_t ph, gdb_ps_addr_t addr,
gdb_ps_read_buf_t buf, gdb_ps_size_t size)
{
return rw_common (0, ph, addr, buf, size);
}
/* Copies SIZE bytes from debugger memory .text segment to target process. */
ps_err_e
ps_ptwrite (gdb_ps_prochandle_t ph, gdb_ps_addr_t addr,
gdb_ps_write_buf_t buf, gdb_ps_size_t size)
{
return rw_common (1, ph, addr, (char *) buf, size);
}
/* Get general-purpose registers for LWP. */
ps_err_e
ps_lgetregs (gdb_ps_prochandle_t ph, lwpid_t lwpid, prgregset_t gregset)
{
struct cleanup *old_chain;
struct regcache *regcache;
old_chain = save_inferior_ptid ();
inferior_ptid = BUILD_LWP (lwpid, PIDGET (inferior_ptid));
regcache = get_thread_arch_regcache (inferior_ptid, target_gdbarch ());
target_fetch_registers (regcache, -1);
fill_gregset (regcache, (gdb_gregset_t *) gregset, -1);
do_cleanups (old_chain);
return PS_OK;
}
/* Set general-purpose registers for LWP. */
ps_err_e
ps_lsetregs (gdb_ps_prochandle_t ph, lwpid_t lwpid,
const prgregset_t gregset)
{
struct cleanup *old_chain;
struct regcache *regcache;
old_chain = save_inferior_ptid ();
inferior_ptid = BUILD_LWP (lwpid, PIDGET (inferior_ptid));
regcache = get_thread_arch_regcache (inferior_ptid, target_gdbarch ());
supply_gregset (regcache, (const gdb_gregset_t *) gregset);
target_store_registers (regcache, -1);
do_cleanups (old_chain);
return PS_OK;
}
/* Log a message (sends to gdb_stderr). */
void
ps_plog (const char *fmt, ...)
{
va_list args;
va_start (args, fmt);
vfprintf_filtered (gdb_stderr, fmt, args);
}
/* Get floating-point registers for LWP. */
ps_err_e
ps_lgetfpregs (gdb_ps_prochandle_t ph, lwpid_t lwpid,
prfpregset_t *fpregset)
{
struct cleanup *old_chain;
struct regcache *regcache;
old_chain = save_inferior_ptid ();
inferior_ptid = BUILD_LWP (lwpid, PIDGET (inferior_ptid));
regcache = get_thread_arch_regcache (inferior_ptid, target_gdbarch ());
target_fetch_registers (regcache, -1);
fill_fpregset (regcache, (gdb_fpregset_t *) fpregset, -1);
do_cleanups (old_chain);
return PS_OK;
}
/* Set floating-point regs for LWP. */
ps_err_e
ps_lsetfpregs (gdb_ps_prochandle_t ph, lwpid_t lwpid,
const prfpregset_t * fpregset)
{
struct cleanup *old_chain;
struct regcache *regcache;
old_chain = save_inferior_ptid ();
inferior_ptid = BUILD_LWP (lwpid, PIDGET (inferior_ptid));
regcache = get_thread_arch_regcache (inferior_ptid, target_gdbarch ());
supply_fpregset (regcache, (const gdb_fpregset_t *) fpregset);
target_store_registers (regcache, -1);
do_cleanups (old_chain);
return PS_OK;
}
#ifdef PR_MODEL_LP64
/* Identify process as 32-bit or 64-bit. At the moment we're using
BFD to do this. There might be a more Solaris-specific
(e.g. procfs) method, but this ought to work. */
ps_err_e
ps_pdmodel (gdb_ps_prochandle_t ph, int *data_model)
{
if (exec_bfd == 0)
*data_model = PR_MODEL_UNKNOWN;
else if (bfd_get_arch_size (exec_bfd) == 32)
*data_model = PR_MODEL_ILP32;
else
*data_model = PR_MODEL_LP64;
return PS_OK;
}
#endif /* PR_MODEL_LP64 */
#if (defined(__i386__) || defined(__x86_64__)) && defined (sun)
/* Reads the local descriptor table of a LWP.
This function is necessary on x86-solaris only. Without it, the loading
of libthread_db would fail because of ps_lgetLDT being undefined. */
ps_err_e
ps_lgetLDT (gdb_ps_prochandle_t ph, lwpid_t lwpid,
struct ssd *pldt)
{
/* NOTE: only used on Solaris, therefore OK to refer to procfs.c. */
struct ssd *ret;
/* FIXME: can't I get the process ID from the prochandle or
something? */
if (PIDGET (inferior_ptid) <= 0 || lwpid <= 0)
return PS_BADLID;
ret = procfs_find_LDT_entry (BUILD_LWP (lwpid, PIDGET (inferior_ptid)));
if (ret)
{
memcpy (pldt, ret, sizeof (struct ssd));
return PS_OK;
}
else
/* LDT not found. */
return PS_ERR;
}
#endif
/* Convert PTID to printable form. */
static char *
solaris_pid_to_str (struct target_ops *ops, ptid_t ptid)
{
static char buf[100];
if (is_thread (ptid))
{
ptid_t lwp;
lwp = thread_to_lwp (ptid, -2);
if (PIDGET (lwp) == -1)
xsnprintf (buf, sizeof (buf), "Thread %ld (defunct)",
GET_THREAD (ptid));
else if (PIDGET (lwp) != -2)
xsnprintf (buf, sizeof (buf), "Thread %ld (LWP %ld)",
GET_THREAD (ptid), GET_LWP (lwp));
else
xsnprintf (buf, sizeof (buf), "Thread %ld ", GET_THREAD (ptid));
}
else if (GET_LWP (ptid) != 0)
xsnprintf (buf, sizeof (buf), "LWP %ld ", GET_LWP (ptid));
else
xsnprintf (buf, sizeof (buf), "process %d ", PIDGET (ptid));
return buf;
}
/* Worker bee for find_new_threads. Callback function that gets
called once per user-level thread (i.e. not for LWP's). */
static int
sol_find_new_threads_callback (const td_thrhandle_t *th, void *ignored)
{
td_err_e retval;
td_thrinfo_t ti;
ptid_t ptid;
retval = p_td_thr_get_info (th, &ti);
if (retval != TD_OK)
return -1;
ptid = BUILD_THREAD (ti.ti_tid, PIDGET (inferior_ptid));
if (!in_thread_list (ptid) || is_exited (ptid))
add_thread (ptid);
return 0;
}
static void
sol_find_new_threads (struct target_ops *ops)
{
struct target_ops *beneath = find_target_beneath (ops);
/* First Find any new LWP's. */
if (beneath->to_find_new_threads != NULL)
beneath->to_find_new_threads (beneath);
/* Then find any new user-level threads. */
p_td_ta_thr_iter (main_ta, sol_find_new_threads_callback, (void *) 0,
TD_THR_ANY_STATE, TD_THR_LOWEST_PRIORITY,
TD_SIGNO_MASK, TD_THR_ANY_USER_FLAGS);
}
/* Worker bee for the "info sol-thread" command. This is a callback
function that gets called once for each Solaris user-level thread
(i.e. not for LWPs) in the inferior. Print anything interesting
that we can think of. */
static int
info_cb (const td_thrhandle_t *th, void *s)
{
td_err_e ret;
td_thrinfo_t ti;
ret = p_td_thr_get_info (th, &ti);
if (ret == TD_OK)
{
printf_filtered ("%s thread #%d, lwp %d, ",
ti.ti_type == TD_THR_SYSTEM ? "system" : "user ",
ti.ti_tid, ti.ti_lid);
switch (ti.ti_state)
{
default:
case TD_THR_UNKNOWN:
printf_filtered ("<unknown state>");
break;
case TD_THR_STOPPED:
printf_filtered ("(stopped)");
break;
case TD_THR_RUN:
printf_filtered ("(run) ");
break;
case TD_THR_ACTIVE:
printf_filtered ("(active) ");
break;
case TD_THR_ZOMBIE:
printf_filtered ("(zombie) ");
break;
case TD_THR_SLEEP:
printf_filtered ("(asleep) ");
break;
case TD_THR_STOPPED_ASLEEP:
printf_filtered ("(stopped asleep)");
break;
}
/* Print thr_create start function. */
if (ti.ti_startfunc != 0)
{
struct minimal_symbol *msym;
msym = lookup_minimal_symbol_by_pc (ti.ti_startfunc);
if (msym)
printf_filtered (" startfunc: %s\n",
SYMBOL_PRINT_NAME (msym));
else
printf_filtered (" startfunc: %s\n",
paddress (target_gdbarch (), ti.ti_startfunc));
}
/* If thread is asleep, print function that went to sleep. */
if (ti.ti_state == TD_THR_SLEEP)
{
struct minimal_symbol *msym;
msym = lookup_minimal_symbol_by_pc (ti.ti_pc);
if (msym)
printf_filtered (" - Sleep func: %s\n",
SYMBOL_PRINT_NAME (msym));
else
printf_filtered (" - Sleep func: %s\n",
paddress (target_gdbarch (), ti.ti_startfunc));
}
/* Wrap up line, if necessary. */
if (ti.ti_state != TD_THR_SLEEP && ti.ti_startfunc == 0)
printf_filtered ("\n"); /* don't you hate counting newlines? */
}
else
warning (_("info sol-thread: failed to get info for thread."));
return 0;
}
/* List some state about each Solaris user-level thread in the
inferior. */
static void
info_solthreads (char *args, int from_tty)
{
p_td_ta_thr_iter (main_ta, info_cb, args,
TD_THR_ANY_STATE, TD_THR_LOWEST_PRIORITY,
TD_SIGNO_MASK, TD_THR_ANY_USER_FLAGS);
}
/* Callback routine used to find a thread based on the TID part of
its PTID. */
static int
thread_db_find_thread_from_tid (struct thread_info *thread, void *data)
{
long *tid = (long *) data;
if (ptid_get_tid (thread->ptid) == *tid)
return 1;
return 0;
}
static ptid_t
sol_get_ada_task_ptid (long lwp, long thread)
{
struct thread_info *thread_info =
iterate_over_threads (thread_db_find_thread_from_tid, &thread);
if (thread_info == NULL)
{
/* The list of threads is probably not up to date. Find any
thread that is missing from the list, and try again. */
sol_find_new_threads (¤t_target);
thread_info = iterate_over_threads (thread_db_find_thread_from_tid,
&thread);
}
gdb_assert (thread_info != NULL);
return (thread_info->ptid);
}
static void
init_sol_thread_ops (void)
{
sol_thread_ops.to_shortname = "solaris-threads";
sol_thread_ops.to_longname = "Solaris threads and pthread.";
sol_thread_ops.to_doc = "Solaris threads and pthread support.";
sol_thread_ops.to_detach = sol_thread_detach;
sol_thread_ops.to_resume = sol_thread_resume;
sol_thread_ops.to_wait = sol_thread_wait;
sol_thread_ops.to_fetch_registers = sol_thread_fetch_registers;
sol_thread_ops.to_store_registers = sol_thread_store_registers;
sol_thread_ops.to_xfer_partial = sol_thread_xfer_partial;
sol_thread_ops.to_mourn_inferior = sol_thread_mourn_inferior;
sol_thread_ops.to_thread_alive = sol_thread_alive;
sol_thread_ops.to_pid_to_str = solaris_pid_to_str;
sol_thread_ops.to_find_new_threads = sol_find_new_threads;
sol_thread_ops.to_stratum = thread_stratum;
sol_thread_ops.to_get_ada_task_ptid = sol_get_ada_task_ptid;
sol_thread_ops.to_magic = OPS_MAGIC;
}
/* Silence -Wmissing-prototypes. */
extern void _initialize_sol_thread (void);
void
_initialize_sol_thread (void)
{
void *dlhandle;
init_sol_thread_ops ();
dlhandle = dlopen ("libthread_db.so.1", RTLD_NOW);
if (!dlhandle)
goto die;
#define resolve(X) \
if (!(p_##X = dlsym (dlhandle, #X))) \
goto die;
resolve (td_log);
resolve (td_ta_new);
resolve (td_ta_delete);
resolve (td_init);
resolve (td_ta_get_ph);
resolve (td_ta_get_nthreads);
resolve (td_ta_tsd_iter);
resolve (td_ta_thr_iter);
resolve (td_thr_validate);
resolve (td_thr_tsd);
resolve (td_thr_get_info);
resolve (td_thr_getfpregs);
resolve (td_thr_getxregsize);
resolve (td_thr_getxregs);
resolve (td_thr_sigsetmask);
resolve (td_thr_setprio);
resolve (td_thr_setsigpending);
resolve (td_thr_setfpregs);
resolve (td_thr_setxregs);
resolve (td_ta_map_id2thr);
resolve (td_ta_map_lwp2thr);
resolve (td_thr_getgregs);
resolve (td_thr_setgregs);
add_target (&sol_thread_ops);
add_cmd ("sol-threads", class_maintenance, info_solthreads,
_("Show info on Solaris user threads."), &maintenanceinfolist);
/* Hook into new_objfile notification. */
observer_attach_new_objfile (sol_thread_new_objfile);
return;
die:
fprintf_unfiltered (gdb_stderr, "\
[GDB will not be able to debug user-mode threads: %s]\n", dlerror ());
if (dlhandle)
dlclose (dlhandle);
return;
}
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