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      1 /*
      2  * This file is part of ltrace.
      3  * Copyright (C) 2010,2011,2012,2013,2014 Petr Machata, Red Hat Inc.
      4  * Copyright (C) 2010 Joe Damato
      5  * Copyright (C) 1998,2001,2008,2009 Juan Cespedes
      6  *
      7  * This program is free software; you can redistribute it and/or
      8  * modify it under the terms of the GNU General Public License as
      9  * published by the Free Software Foundation; either version 2 of the
     10  * License, or (at your option) any later version.
     11  *
     12  * This program is distributed in the hope that it will be useful, but
     13  * WITHOUT ANY WARRANTY; without even the implied warranty of
     14  * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU
     15  * General Public License for more details.
     16  *
     17  * You should have received a copy of the GNU General Public License
     18  * along with this program; if not, write to the Free Software
     19  * Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA
     20  * 02110-1301 USA
     21  */
     22 
     23 #ifndef _PROC_H_
     24 #define _PROC_H_
     25 
     26 #include "config.h"
     27 
     28 #include <sys/time.h>
     29 #include <stdint.h>
     30 
     31 #if defined(HAVE_LIBDW)
     32 # include <elfutils/libdwfl.h>
     33 #endif
     34 
     35 #if defined(HAVE_LIBUNWIND)
     36 # include <libunwind.h>
     37 # include <libunwind-ptrace.h>
     38 #endif /* defined(HAVE_LIBUNWIND) */
     39 
     40 #include "ltrace.h"
     41 #include "dict.h"
     42 #include "sysdep.h"
     43 #include "callback.h"
     44 #include "forward.h"
     45 
     46 struct event_handler {
     47 	/* Event handler that overrides the default one.  Should
     48 	 * return NULL if the event was handled, otherwise the
     49 	 * returned event is passed to the default handler.  */
     50 	Event *(*on_event)(struct event_handler *self, Event *event);
     51 
     52 	/* Called when the event handler removal is requested.  */
     53 	void (*destroy)(struct event_handler *self);
     54 };
     55 
     56 enum process_state {
     57 	STATE_ATTACHED = 0,
     58 	STATE_BEING_CREATED,
     59 	STATE_IGNORED  /* ignore this process (it's a fork and no -f was used) */
     60 };
     61 
     62 struct output_state {
     63 	size_t params_left;
     64 	int need_delim;
     65 };
     66 
     67 struct callstack_element {
     68 	union {
     69 		int syscall;
     70 		struct library_symbol * libfunc;
     71 	} c_un;
     72 	int is_syscall;
     73 	arch_addr_t return_addr;
     74 	struct timeval enter_time;
     75 	struct fetch_context *fetch_context;
     76 	struct value_dict *arguments;
     77 	struct output_state out;
     78 };
     79 
     80 /* XXX We should get rid of this.  */
     81 #define MAX_CALLDEPTH 64
     82 
     83 /* XXX We would rather have this all organized a little differently,
     84  * have struct process for the whole group and struct task (or struct
     85  * lwp, struct thread) for what's there for per-thread stuff.  But for
     86  * now this is the less invasive way of structuring it.  */
     87 struct process {
     88 	enum process_state state;
     89 	struct process *parent;         /* needed by STATE_BEING_CREATED */
     90 	char * filename;
     91 	pid_t pid;
     92 
     93 	/* Dictionary of breakpoints (which is a mapping
     94 	 * address->breakpoint).  This is NULL for non-leader
     95 	 * processes.  */
     96 	struct dict *breakpoints;
     97 
     98 	int mask_32bit;           /* 1 if 64-bit ltrace is tracing 32-bit process */
     99 	unsigned int personality;
    100 	int tracesysgood;         /* signal indicating a PTRACE_SYSCALL trap */
    101 
    102 	size_t callstack_depth;
    103 	struct callstack_element callstack[MAX_CALLDEPTH];
    104 
    105 	/* Linked list of libraries in backwards order of mapping.
    106 	 * The last element is the executed binary itself.  */
    107 	struct library *libraries;
    108 
    109 	/* Arch-dependent: */
    110 	void * instruction_pointer;
    111 	void * stack_pointer;      /* To get return addr, args... */
    112 	void * arch_ptr;
    113 
    114 	/* XXX We would like to replace this with a pointer to ABI
    115 	 * object that would provide the relevant services, instead of
    116 	 * checking the necessary flags in the back end ad
    117 	 * nauseam.  */
    118 	short e_machine;
    119 	char e_class;
    120 
    121 #if defined(HAVE_LIBDW)
    122 	/* Unwind info for leader, NULL for non-leader procs. */
    123 	Dwfl *dwfl;
    124 #endif /* defined(HAVE_LIBDW) */
    125 
    126 #if defined(HAVE_LIBUNWIND)
    127 	/* libunwind address space */
    128 	unw_addr_space_t unwind_as;
    129 	void *unwind_priv;
    130 #endif /* defined(HAVE_LIBUNWIND) */
    131 
    132 	/* Set in leader.  */
    133 	struct event_handler *event_handler;
    134 
    135 	/**
    136 	 * Process chaining.
    137 	 **/
    138 	struct process *next;
    139 
    140 	/* LEADER points to the leader thread of the POSIX.1 process.
    141 	   If X->LEADER == X, then X is the leader thread and the
    142 	   process structures chained by NEXT represent other threads,
    143 	   up until, but not including, the next leader thread.
    144 	   LEADER may be NULL after the leader has already exited.  In
    145 	   that case this process is waiting to be collected.  */
    146 	struct process *leader;
    147 
    148 	struct os_process_data os;
    149 	struct arch_process_data arch;
    150 };
    151 
    152 /* Initialize a process given a path to binary FILENAME, with a PID,
    153  * and add the process to an internal chain of traced processes.  */
    154 int process_init(struct process *proc, const char *filename, pid_t pid);
    155 
    156 /* PROC underwent an exec.  This is a bit like process_destroy
    157  * followed by process_init, except that some state is kept and the
    158  * process doesn't lose it's place in the list of processes.  */
    159 int process_exec(struct process *proc);
    160 
    161 /* Release any memory allocated for PROC (but not PROC itself).  Does
    162  * NOT remove PROC from internal chain.
    163  *
    164  * XXX clearly this init/destroy pair is different than others and
    165  * should be fixed.  process_init should presumably be separate from
    166  * process_add.  */
    167 void process_destroy(struct process *proc);
    168 
    169 struct process *open_program(const char *filename, pid_t pid);
    170 void open_pid(pid_t pid);
    171 struct process *pid2proc(pid_t pid);
    172 
    173 /* Clone the contents of PROC into the memory referenced by RETP.
    174  * Returns 0 on success or a negative value on failure.  */
    175 int process_clone(struct process *retp, struct process *proc, pid_t pid);
    176 
    177 /* Iterate through the processes that ltrace currently traces.  Tasks
    178  * are considered to be processes for the purpose of this iterator.
    179  * See callback.h for notes on iteration interfaces.  */
    180 struct process *each_process(struct process *start_after,
    181 			     enum callback_status (*cb)(struct process *proc,
    182 							void *data),
    183 			     void *data);
    184 
    185 /* Iterate through list of tasks of given process PROC.  See
    186  * callback.h for notes on iteration interfaces.  */
    187 struct process *each_task(struct process *proc, struct process *start_after,
    188 			  enum callback_status (*cb)(struct process *proc,
    189 						     void *data),
    190 			  void *data);
    191 
    192 void change_process_leader(struct process *proc, struct process *leader);
    193 
    194 /* Prepare those parts of process initialization that need to be done
    195  * after _start is hit (i.e. after dynamic linking was done).  */
    196 void process_hit_start(struct process *proc);
    197 
    198 /* Remove process from the list of traced processes, drop any events
    199  * in the event queue, destroy it and free memory.  */
    200 void remove_process(struct process *proc);
    201 
    202 void install_event_handler(struct process *proc, struct event_handler *handler);
    203 void destroy_event_handler(struct process *proc);
    204 
    205 /* Add a library LIB to the list of PROC's libraries.  */
    206 void proc_add_library(struct process *proc, struct library *lib);
    207 
    208 /* Remove LIB from list of PROC's libraries.  Returns 0 if the library
    209  * was found and unlinked, otherwise returns a negative value.  */
    210 int proc_remove_library(struct process *proc, struct library *lib);
    211 
    212 /* Clear a delayed flag.  If a symbol is neither latent, nor delayed,
    213  * a breakpoint is inserted for it.  Returns 0 if the activation was
    214  * successful or a negative value if it failed.  Note that if a symbol
    215  * is both latent and delayed, this will not enable the corresponding
    216  * breakpoint.  */
    217 int proc_activate_delayed_symbol(struct process *proc,
    218 				 struct library_symbol *libsym);
    219 
    220 /* Iterate through the libraries of PROC.  See callback.h for notes on
    221  * iteration interfaces.  */
    222 struct library *proc_each_library(struct process *proc,
    223 				  struct library *start_after,
    224 				  enum callback_status (*cb)(struct process *p,
    225 							     struct library *l,
    226 							     void *data),
    227 				  void *data);
    228 
    229 /* Insert BP into PROC.  */
    230 int proc_add_breakpoint(struct process *proc, struct breakpoint *bp);
    231 
    232 /* Remove BP from PROC.  This has no reason to fail in runtime.  If it
    233  * does not find BP in PROC, it's hard error guarded by assertion.  */
    234 void proc_remove_breakpoint(struct process *proc, struct breakpoint *bp);
    235 
    236 /* Iterate through the breakpoints of PROC.  See callback.h for notes
    237  * on iteration interfaces.  */
    238 arch_addr_t *proc_each_breakpoint(struct process *proc, arch_addr_t *start,
    239 				  enum callback_status (*cb)
    240 					(struct process *proc,
    241 					 struct breakpoint *bp,
    242 					 void *data),
    243 				  void *data);
    244 
    245 /* Iterate through the dynamic section at src_addr looking for D_TAG.
    246  * If tag is found, fill it's value in RET and return 0.
    247  * If tag is not found, return a negative value.  */
    248 int proc_find_dynamic_entry_addr(struct process *proc, arch_addr_t src_addr,
    249 				 int d_tag, arch_addr_t *ret);
    250 
    251 /* Finds a symbol corresponding to LIBSYM in a process PROC.  Returns
    252  * 0 and sets *RETLIB and *RETSYM if the corresponding pointer is
    253  * non-NULL.  Returns a negative value when the symbols couldn't be
    254  * found.  */
    255 int proc_find_symbol(struct process *proc, struct library_symbol *sym,
    256 		     struct library **retlib, struct library_symbol **retsym);
    257 
    258 /* Iterate through all symbols in all libraries of PROC.  See
    259  * callback.h for notes on this interface.  */
    260 struct library_symbol *proc_each_symbol
    261 	(struct process *proc, struct library_symbol *start_after,
    262 	 enum callback_status (*cb)(struct library_symbol *, void *),
    263 	 void *data);
    264 
    265 /* Read 8, 16, 32 or 64-bit quantity located at ADDR in PROC.  The
    266  * resulting value is stored in *LP.  0 is returned on success or a
    267  * negative value on failure.  This uses umovebytes under the hood
    268  * (see backend.h).  */
    269 int proc_read_8(struct process *proc, arch_addr_t addr, uint8_t *lp);
    270 int proc_read_16(struct process *proc, arch_addr_t addr, uint16_t *lp);
    271 int proc_read_32(struct process *proc, arch_addr_t addr, uint32_t *lp);
    272 int proc_read_64(struct process *proc, arch_addr_t addr, uint64_t *lp);
    273 
    274 #endif /* _PROC_H_ */
    275