process_event.c - fp2-dev/platform/external/ltrace - Gitiles

 #if HAVE_CONFIG_H
 #include "config.h"
 #endif

 #define _GNU_SOURCE
 #include <stdio.h>
 #include <string.h>
 #include <stdlib.h>
 #include <signal.h>
 #include <assert.h>
 #include <sys/time.h>

 #include "ltrace.h"
 #include "output.h"
 #include "options.h"
 #include "elf.h"
 #include "debug.h"

 #ifdef __powerpc__
 #include <sys/ptrace.h>
 #endif

 static void process_signal(struct event *event);
 static void process_exit(struct event *event);
 static void process_exit_signal(struct event *event);
 static void process_syscall(struct event *event);
 static void process_sysret(struct event *event);
 static void process_breakpoint(struct event *event);
 static void remove_proc(struct process *proc);

 static void callstack_push_syscall(struct process *proc, int sysnum);
 static void callstack_push_symfunc(struct process *proc,
 				   struct library_symbol *sym);
 static void callstack_pop(struct process *proc);

 static char *shortsignal(struct process *proc, int signum)
 {
 	static char *signalent0[] = {
 #include "signalent.h"
 	};
 	static char *signalent1[] = {
 #include "signalent1.h"
 	};
 	static char **signalents[] = { signalent0, signalent1 };
 	int nsignals[] = { sizeof signalent0 / sizeof signalent0[0],
 		sizeof signalent1 / sizeof signalent1[0]
 	};

 	if (proc->personality > sizeof signalents / sizeof signalents[0])
 		abort();
 	if (signum < 0 || signum >= nsignals[proc->personality]) {
 		return "UNKNOWN_SIGNAL";
 	} else {
 		return signalents[proc->personality][signum];
 	}
 }

 static char *sysname(struct process *proc, int sysnum)
 {
 	static char result[128];
 	static char *syscalent0[] = {
 #include "syscallent.h"
 	};
 	static char *syscalent1[] = {
 #include "syscallent1.h"
 	};
 	static char **syscalents[] = { syscalent0, syscalent1 };
 	int nsyscals[] = { sizeof syscalent0 / sizeof syscalent0[0],
 		sizeof syscalent1 / sizeof syscalent1[0]
 	};

 	if (proc->personality > sizeof syscalents / sizeof syscalents[0])
 		abort();
 	if (sysnum < 0 || sysnum >= nsyscals[proc->personality]) {
 		sprintf(result, "SYS_%d", sysnum);
 		return result;
 	} else {
 		sprintf(result, "SYS_%s",
 			syscalents[proc->personality][sysnum]);
 		return result;
 	}
 }

 void process_event(struct event *event)
 {
 	switch (event->thing) {
 	case LT_EV_NONE:
 		debug(1, "event: none");
 		return;
 	case LT_EV_SIGNAL:
 		debug(1, "event: signal (%s [%d])",
 		      shortsignal(event->proc, event->e_un.signum),
 		      event->e_un.signum);
 		process_signal(event);
 		return;
 	case LT_EV_EXIT:
 		debug(1, "event: exit (%d)", event->e_un.ret_val);
 		process_exit(event);
 		return;
 	case LT_EV_EXIT_SIGNAL:
 		debug(1, "event: exit signal (%s [%d])",
 		      shortsignal(event->proc, event->e_un.signum),
 		      event->e_un.signum);
 		process_exit_signal(event);
 		return;
 	case LT_EV_SYSCALL:
 		debug(1, "event: syscall (%s [%d])",
 		      sysname(event->proc, event->e_un.sysnum),
 		      event->e_un.sysnum);
 		process_syscall(event);
 		return;
 	case LT_EV_SYSRET:
 		debug(1, "event: sysret (%s [%d])",
 		      sysname(event->proc, event->e_un.sysnum),
 		      event->e_un.sysnum);
 		process_sysret(event);
 		return;
 	case LT_EV_BREAKPOINT:
 		debug(1, "event: breakpoint");
 		process_breakpoint(event);
 		return;
 	default:
 		fprintf(stderr, "Error! unknown event?\n");
 		exit(1);
 	}
 }

 static void process_signal(struct event *event)
 {
 	if (exiting && event->e_un.signum == SIGSTOP) {
 		pid_t pid = event->proc->pid;
 		disable_all_breakpoints(event->proc);
 		untrace_pid(pid);
 		remove_proc(event->proc);
 		continue_after_signal(pid, event->e_un.signum);
 		return;
 	}
 	output_line(event->proc, "--- %s (%s) ---",
 		    shortsignal(event->proc, event->e_un.signum),
 		    strsignal(event->e_un.signum));
 	continue_after_signal(event->proc->pid, event->e_un.signum);
 }

 static void process_exit(struct event *event)
 {
 	output_line(event->proc, "+++ exited (status %d) +++",
 		    event->e_un.ret_val);
 	remove_proc(event->proc);
 }

 static void process_exit_signal(struct event *event)
 {
 	output_line(event->proc, "+++ killed by %s +++",
 		    shortsignal(event->proc, event->e_un.signum));
 	remove_proc(event->proc);
 }

 static void remove_proc(struct process *proc)
 {
 	struct process *tmp, *tmp2;

 	debug(1, "Removing pid %u\n", proc->pid);

 	if (list_of_processes == proc) {
 		tmp = list_of_processes;
 		list_of_processes = list_of_processes->next;
 		free(tmp);
 		return;
 	}
 	tmp = list_of_processes;
 	while (tmp->next) {
 		if (tmp->next == proc) {
 			tmp2 = tmp->next;
 			tmp->next = tmp->next->next;
 			free(tmp2);
 			continue;
 		}
 		tmp = tmp->next;
 	}
 }

 static void process_syscall(struct event *event)
 {
 	if (opt_S) {
 		output_left(LT_TOF_SYSCALL, event->proc,
 			    sysname(event->proc, event->e_un.sysnum));
 	}
 	if (fork_p(event->proc, event->e_un.sysnum)
 	    || exec_p(event->proc, event->e_un.sysnum)) {
 		disable_all_breakpoints(event->proc);
 	} else if (event->proc->breakpoints_enabled == 0) {
 		enable_all_breakpoints(event->proc);
 	}
 	callstack_push_syscall(event->proc, event->e_un.sysnum);
 	continue_process(event->proc->pid);
 }

 struct timeval current_time_spent;

 static void calc_time_spent(struct process *proc)
 {
 	struct timeval tv;
 	struct timezone tz;
 	struct timeval diff;
 	struct callstack_element *elem;

 	elem = &proc->callstack[proc->callstack_depth - 1];

 	gettimeofday(&tv, &tz);

 	diff.tv_sec = tv.tv_sec - elem->time_spent.tv_sec;
 	if (tv.tv_usec >= elem->time_spent.tv_usec) {
 		diff.tv_usec = tv.tv_usec - elem->time_spent.tv_usec;
 	} else {
 		diff.tv_sec++;
 		diff.tv_usec = 1000000 + tv.tv_usec - elem->time_spent.tv_usec;
 	}
 	current_time_spent = diff;
 }

 static void process_sysret(struct event *event)
 {
 	if (opt_T || opt_c) {
 		calc_time_spent(event->proc);
 	}
 	if (fork_p(event->proc, event->e_un.sysnum)) {
 		if (opt_f) {
 			pid_t child =
 			    gimme_arg(LT_TOF_SYSCALLR, event->proc, -1);
 			if (child > 0) {
 				open_pid(child, 0);
 			}
 		}
 		enable_all_breakpoints(event->proc);
 	}
 	callstack_pop(event->proc);
 	if (opt_S) {
 		output_right(LT_TOF_SYSCALLR, event->proc,
 			     sysname(event->proc, event->e_un.sysnum));
 	}
 	if (exec_p(event->proc, event->e_un.sysnum)) {
 		if (gimme_arg(LT_TOF_SYSCALLR, event->proc, -1) == 0) {
 			pid_t saved_pid;
 			event->proc->mask_32bit = 0;
 			event->proc->personality = 0;
 			/* FIXME: Leak, should have arch_dep_free.
 			   But we are leaking here much more than that.  */
 			event->proc->arch_ptr = NULL;
 			event->proc->filename = pid2name(event->proc->pid);
 			saved_pid = event->proc->pid;
 			event->proc->pid = 0;
 			breakpoints_init(event->proc);
 			event->proc->pid = saved_pid;
 		} else
 			enable_all_breakpoints(event->proc);
 	}
 	continue_process(event->proc->pid);
 }

 static void process_breakpoint(struct event *event)
 {
 	int i, j;
 	struct breakpoint *sbp;

 	debug(2, "event: breakpoint (%p)", event->e_un.brk_addr);
 	if (event->proc->breakpoint_being_enabled) {
 		/* Reinsert breakpoint */
 		continue_enabling_breakpoint(event->proc->pid,
 					     event->proc->
 					     breakpoint_being_enabled);
 		event->proc->breakpoint_being_enabled = NULL;
 		return;
 	}

 	for (i = event->proc->callstack_depth - 1; i >= 0; i--) {
 		if (event->e_un.brk_addr ==
 		    event->proc->callstack[i].return_addr) {
 #ifdef __powerpc__
 			/*
 			 * PPC HACK! (XXX FIXME TODO)
 			 * The PLT gets modified during the first call,
 			 * so be sure to re-enable the breakpoint.
 			 */
 			unsigned long a;
 			struct library_symbol *libsym =
 			    event->proc->callstack[i].c_un.libfunc;
 			void *addr = plt2addr(event->proc, libsym->enter_addr);

 			if (event->proc->e_machine == EM_PPC) {
 				unsigned char break_insn[] = BREAKPOINT_VALUE;

 				sbp = address2bpstruct(event->proc, addr);
 				assert(sbp);
 				a = ptrace(PTRACE_PEEKTEXT, event->proc->pid,
 					   addr);

 				if (memcmp(&a, break_insn, 4)) {
 					sbp->enabled--;
 					insert_breakpoint(event->proc, addr,
 							  libsym);
 				}
 			} else {
 				sbp = libsym->brkpnt;
 				assert(sbp);
 				if (addr != sbp->addr)
 					insert_breakpoint(event->proc, addr,
 							  libsym);
 			}
 #endif
 			for (j = event->proc->callstack_depth - 1; j > i; j--) {
 				callstack_pop(event->proc);
 			}
 			if (opt_T || opt_c) {
 				calc_time_spent(event->proc);
 			}
 			callstack_pop(event->proc);
 			event->proc->return_addr = event->e_un.brk_addr;
 			output_right(LT_TOF_FUNCTIONR, event->proc,
 				     event->proc->callstack[i].c_un.libfunc->
 				     name);
 			continue_after_breakpoint(event->proc,
 						  address2bpstruct(event->proc,
 								   event->e_un.
 								   brk_addr));
 			return;
 		}
 	}

 	if ((sbp = address2bpstruct(event->proc, event->e_un.brk_addr))) {
 		event->proc->stack_pointer = get_stack_pointer(event->proc);
 		event->proc->return_addr =
 		    get_return_addr(event->proc, event->proc->stack_pointer);
 		output_left(LT_TOF_FUNCTION, event->proc, sbp->libsym->name);
 		callstack_push_symfunc(event->proc, sbp->libsym);
 		if (PLTs_initialized_by_here
 		    && event->proc->need_to_reinitialize_breakpoints
 		    && (strcmp(sbp->libsym->name, PLTs_initialized_by_here) ==
 			0))
 			reinitialize_breakpoints(event->proc);

 		continue_after_breakpoint(event->proc, sbp);
 		return;
 	}

 	output_line(event->proc, "unexpected breakpoint at %p",
 		    (void *)event->e_un.brk_addr);
 	continue_process(event->proc->pid);
 }

 static void callstack_push_syscall(struct process *proc, int sysnum)
 {
 	struct callstack_element *elem;

 	/* FIXME: not good -- should use dynamic allocation. 19990703 mortene. */
 	if (proc->callstack_depth == MAX_CALLDEPTH - 1) {
 		fprintf(stderr, "Error: call nesting too deep!\n");
 		return;
 	}

 	elem = &proc->callstack[proc->callstack_depth];
 	elem->is_syscall = 1;
 	elem->c_un.syscall = sysnum;
 	elem->return_addr = NULL;

 	proc->callstack_depth++;
 	if (opt_T || opt_c) {
 		struct timezone tz;
 		gettimeofday(&elem->time_spent, &tz);
 	}
 }

 static void
 callstack_push_symfunc(struct process *proc, struct library_symbol *sym)
 {
 	struct callstack_element *elem;

 	/* FIXME: not good -- should use dynamic allocation. 19990703 mortene. */
 	if (proc->callstack_depth == MAX_CALLDEPTH - 1) {
 		fprintf(stderr, "Error: call nesting too deep!\n");
 		return;
 	}

 	elem = &proc->callstack[proc->callstack_depth];
 	elem->is_syscall = 0;
 	elem->c_un.libfunc = sym;

 	elem->return_addr = proc->return_addr;
 	insert_breakpoint(proc, elem->return_addr, 0);

 	proc->callstack_depth++;
 	if (opt_T || opt_c) {
 		struct timezone tz;
 		gettimeofday(&elem->time_spent, &tz);
 	}
 }

 static void callstack_pop(struct process *proc)
 {
 	struct callstack_element *elem;
 	assert(proc->callstack_depth > 0);

 	elem = &proc->callstack[proc->callstack_depth - 1];
 	if (!elem->is_syscall) {
 		delete_breakpoint(proc, elem->return_addr);
 	}
 	proc->callstack_depth--;
 }
	#if HAVE_CONFIG_H
	#include "config.h"
	#endif

	#define _GNU_SOURCE
	#include <stdio.h>
	#include <string.h>
	#include <stdlib.h>
	#include <signal.h>
	#include <assert.h>
	#include <sys/time.h>

	#include "ltrace.h"
	#include "output.h"
	#include "options.h"
	#include "elf.h"
	#include "debug.h"

	#ifdef __powerpc__
	#include <sys/ptrace.h>
	#endif

	static void process_signal(struct event *event);
	static void process_exit(struct event *event);
	static void process_exit_signal(struct event *event);
	static void process_syscall(struct event *event);
	static void process_sysret(struct event *event);
	static void process_breakpoint(struct event *event);
	static void remove_proc(struct process *proc);

	static void callstack_push_syscall(struct process *proc, int sysnum);
	static void callstack_push_symfunc(struct process *proc,
	struct library_symbol *sym);
	static void callstack_pop(struct process *proc);

	static char shortsignal(struct process proc, int signum)
	{
	static char *signalent0[] = {
	#include "signalent.h"
	};
	static char *signalent1[] = {
	#include "signalent1.h"
	};
	static char **signalents[] = { signalent0, signalent1 };
	int nsignals[] = { sizeof signalent0 / sizeof signalent0[0],
	sizeof signalent1 / sizeof signalent1[0]
	};

	if (proc->personality > sizeof signalents / sizeof signalents[0])
	abort();
	if (signum < 0 \|\| signum >= nsignals[proc->personality]) {
	return "UNKNOWN_SIGNAL";
	} else {
	return signalents[proc->personality][signum];
	}
	}

	static char sysname(struct process proc, int sysnum)
	{
	static char result[128];
	static char *syscalent0[] = {
	#include "syscallent.h"
	};
	static char *syscalent1[] = {
	#include "syscallent1.h"
	};
	static char **syscalents[] = { syscalent0, syscalent1 };
	int nsyscals[] = { sizeof syscalent0 / sizeof syscalent0[0],
	sizeof syscalent1 / sizeof syscalent1[0]
	};

	if (proc->personality > sizeof syscalents / sizeof syscalents[0])
	abort();
	if (sysnum < 0 \|\| sysnum >= nsyscals[proc->personality]) {
	sprintf(result, "SYS_%d", sysnum);
	return result;
	} else {
	sprintf(result, "SYS_%s",
	syscalents[proc->personality][sysnum]);
	return result;
	}
	}

	void process_event(struct event *event)
	{
	switch (event->thing) {
	case LT_EV_NONE:
	debug(1, "event: none");
	return;
	case LT_EV_SIGNAL:
	debug(1, "event: signal (%s [%d])",
	shortsignal(event->proc, event->e_un.signum),
	event->e_un.signum);
	process_signal(event);
	return;
	case LT_EV_EXIT:
	debug(1, "event: exit (%d)", event->e_un.ret_val);
	process_exit(event);
	return;
	case LT_EV_EXIT_SIGNAL:
	debug(1, "event: exit signal (%s [%d])",
	shortsignal(event->proc, event->e_un.signum),
	event->e_un.signum);
	process_exit_signal(event);
	return;
	case LT_EV_SYSCALL:
	debug(1, "event: syscall (%s [%d])",
	sysname(event->proc, event->e_un.sysnum),
	event->e_un.sysnum);
	process_syscall(event);
	return;
	case LT_EV_SYSRET:
	debug(1, "event: sysret (%s [%d])",
	sysname(event->proc, event->e_un.sysnum),
	event->e_un.sysnum);
	process_sysret(event);
	return;
	case LT_EV_BREAKPOINT:
	debug(1, "event: breakpoint");
	process_breakpoint(event);
	return;
	default:
	fprintf(stderr, "Error! unknown event?\n");
	exit(1);
	}
	}

	static void process_signal(struct event *event)
	{
	if (exiting && event->e_un.signum == SIGSTOP) {
	pid_t pid = event->proc->pid;
	disable_all_breakpoints(event->proc);
	untrace_pid(pid);
	remove_proc(event->proc);
	continue_after_signal(pid, event->e_un.signum);
	return;
	}
	output_line(event->proc, "--- %s (%s) ---",
	shortsignal(event->proc, event->e_un.signum),
	strsignal(event->e_un.signum));
	continue_after_signal(event->proc->pid, event->e_un.signum);
	}

	static void process_exit(struct event *event)
	{
	output_line(event->proc, "+++ exited (status %d) +++",
	event->e_un.ret_val);
	remove_proc(event->proc);
	}

	static void process_exit_signal(struct event *event)
	{
	output_line(event->proc, "+++ killed by %s +++",
	shortsignal(event->proc, event->e_un.signum));
	remove_proc(event->proc);
	}

	static void remove_proc(struct process *proc)
	{
	struct process tmp, tmp2;

	debug(1, "Removing pid %u\n", proc->pid);

	if (list_of_processes == proc) {
	tmp = list_of_processes;
	list_of_processes = list_of_processes->next;
	free(tmp);
	return;
	}
	tmp = list_of_processes;
	while (tmp->next) {
	if (tmp->next == proc) {
	tmp2 = tmp->next;
	tmp->next = tmp->next->next;
	free(tmp2);
	continue;
	}
	tmp = tmp->next;
	}
	}

	static void process_syscall(struct event *event)
	{
	if (opt_S) {
	output_left(LT_TOF_SYSCALL, event->proc,
	sysname(event->proc, event->e_un.sysnum));
	}
	if (fork_p(event->proc, event->e_un.sysnum)
	\|\| exec_p(event->proc, event->e_un.sysnum)) {
	disable_all_breakpoints(event->proc);
	} else if (event->proc->breakpoints_enabled == 0) {
	enable_all_breakpoints(event->proc);
	}
	callstack_push_syscall(event->proc, event->e_un.sysnum);
	continue_process(event->proc->pid);
	}

	struct timeval current_time_spent;

	static void calc_time_spent(struct process *proc)
	{
	struct timeval tv;
	struct timezone tz;
	struct timeval diff;
	struct callstack_element *elem;

	elem = &proc->callstack[proc->callstack_depth - 1];

	gettimeofday(&tv, &tz);

	diff.tv_sec = tv.tv_sec - elem->time_spent.tv_sec;
	if (tv.tv_usec >= elem->time_spent.tv_usec) {
	diff.tv_usec = tv.tv_usec - elem->time_spent.tv_usec;
	} else {
	diff.tv_sec++;
	diff.tv_usec = 1000000 + tv.tv_usec - elem->time_spent.tv_usec;
	}
	current_time_spent = diff;
	}

	static void process_sysret(struct event *event)
	{
	if (opt_T \|\| opt_c) {
	calc_time_spent(event->proc);
	}
	if (fork_p(event->proc, event->e_un.sysnum)) {
	if (opt_f) {
	pid_t child =
	gimme_arg(LT_TOF_SYSCALLR, event->proc, -1);
	if (child > 0) {
	open_pid(child, 0);
	}
	}
	enable_all_breakpoints(event->proc);
	}
	callstack_pop(event->proc);
	if (opt_S) {
	output_right(LT_TOF_SYSCALLR, event->proc,
	sysname(event->proc, event->e_un.sysnum));
	}
	if (exec_p(event->proc, event->e_un.sysnum)) {
	if (gimme_arg(LT_TOF_SYSCALLR, event->proc, -1) == 0) {
	pid_t saved_pid;
	event->proc->mask_32bit = 0;
	event->proc->personality = 0;
	/* FIXME: Leak, should have arch_dep_free.
	But we are leaking here much more than that. */
	event->proc->arch_ptr = NULL;
	event->proc->filename = pid2name(event->proc->pid);
	saved_pid = event->proc->pid;
	event->proc->pid = 0;
	breakpoints_init(event->proc);
	event->proc->pid = saved_pid;
	} else
	enable_all_breakpoints(event->proc);
	}
	continue_process(event->proc->pid);
	}

	static void process_breakpoint(struct event *event)
	{
	int i, j;
	struct breakpoint *sbp;

	debug(2, "event: breakpoint (%p)", event->e_un.brk_addr);
	if (event->proc->breakpoint_being_enabled) {
	/* Reinsert breakpoint */
	continue_enabling_breakpoint(event->proc->pid,
	event->proc->
	breakpoint_being_enabled);
	event->proc->breakpoint_being_enabled = NULL;
	return;
	}

	for (i = event->proc->callstack_depth - 1; i >= 0; i--) {
	if (event->e_un.brk_addr ==
	event->proc->callstack[i].return_addr) {
	#ifdef __powerpc__
	/*
	* PPC HACK! (XXX FIXME TODO)
	* The PLT gets modified during the first call,
	* so be sure to re-enable the breakpoint.
	*/
	unsigned long a;
	struct library_symbol *libsym =
	event->proc->callstack[i].c_un.libfunc;
	void *addr = plt2addr(event->proc, libsym->enter_addr);

	if (event->proc->e_machine == EM_PPC) {
	unsigned char break_insn[] = BREAKPOINT_VALUE;

	sbp = address2bpstruct(event->proc, addr);
	assert(sbp);
	a = ptrace(PTRACE_PEEKTEXT, event->proc->pid,
	addr);

	if (memcmp(&a, break_insn, 4)) {
	sbp->enabled--;
	insert_breakpoint(event->proc, addr,
	libsym);
	}
	} else {
	sbp = libsym->brkpnt;
	assert(sbp);
	if (addr != sbp->addr)
	insert_breakpoint(event->proc, addr,
	libsym);
	}
	#endif
	for (j = event->proc->callstack_depth - 1; j > i; j--) {
	callstack_pop(event->proc);
	}
	if (opt_T \|\| opt_c) {
	calc_time_spent(event->proc);
	}
	callstack_pop(event->proc);
	event->proc->return_addr = event->e_un.brk_addr;
	output_right(LT_TOF_FUNCTIONR, event->proc,
	event->proc->callstack[i].c_un.libfunc->
	name);
	continue_after_breakpoint(event->proc,
	address2bpstruct(event->proc,
	event->e_un.
	brk_addr));
	return;
	}
	}

	if ((sbp = address2bpstruct(event->proc, event->e_un.brk_addr))) {
	event->proc->stack_pointer = get_stack_pointer(event->proc);
	event->proc->return_addr =
	get_return_addr(event->proc, event->proc->stack_pointer);
	output_left(LT_TOF_FUNCTION, event->proc, sbp->libsym->name);
	callstack_push_symfunc(event->proc, sbp->libsym);
	if (PLTs_initialized_by_here
	&& event->proc->need_to_reinitialize_breakpoints
	&& (strcmp(sbp->libsym->name, PLTs_initialized_by_here) ==
	0))
	reinitialize_breakpoints(event->proc);

	continue_after_breakpoint(event->proc, sbp);
	return;
	}

	output_line(event->proc, "unexpected breakpoint at %p",
	(void *)event->e_un.brk_addr);
	continue_process(event->proc->pid);
	}

	static void callstack_push_syscall(struct process *proc, int sysnum)
	{
	struct callstack_element *elem;

	/* FIXME: not good -- should use dynamic allocation. 19990703 mortene. */
	if (proc->callstack_depth == MAX_CALLDEPTH - 1) {
	fprintf(stderr, "Error: call nesting too deep!\n");
	return;
	}

	elem = &proc->callstack[proc->callstack_depth];
	elem->is_syscall = 1;
	elem->c_un.syscall = sysnum;
	elem->return_addr = NULL;

	proc->callstack_depth++;
	if (opt_T \|\| opt_c) {
	struct timezone tz;
	gettimeofday(&elem->time_spent, &tz);
	}
	}

	static void
	callstack_push_symfunc(struct process proc, struct library_symbol sym)
	{
	struct callstack_element *elem;

	/* FIXME: not good -- should use dynamic allocation. 19990703 mortene. */
	if (proc->callstack_depth == MAX_CALLDEPTH - 1) {
	fprintf(stderr, "Error: call nesting too deep!\n");
	return;
	}

	elem = &proc->callstack[proc->callstack_depth];
	elem->is_syscall = 0;
	elem->c_un.libfunc = sym;

	elem->return_addr = proc->return_addr;
	insert_breakpoint(proc, elem->return_addr, 0);

	proc->callstack_depth++;
	if (opt_T \|\| opt_c) {
	struct timezone tz;
	gettimeofday(&elem->time_spent, &tz);
	}
	}

	static void callstack_pop(struct process *proc)
	{
	struct callstack_element *elem;
	assert(proc->callstack_depth > 0);

	elem = &proc->callstack[proc->callstack_depth - 1];
	if (!elem->is_syscall) {
	delete_breakpoint(proc, elem->return_addr);
	}
	proc->callstack_depth--;
	}