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|
/* Trace RPCs sent to selected ports
Copyright (C) 1998, 1999, 2001, 2002, 2003, 2005, 2006, 2009
Free Software Foundation, Inc.
This file is part of the GNU Hurd.
The GNU Hurd 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 2, or (at
your option) any later version.
The GNU Hurd 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, write to the Free Software
Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA
02111-1307, USA. */
#include <hurd.h>
#include <hurd/ports.h>
#include <hurd/ihash.h>
#include <mach/message.h>
#include <assert.h>
#include <fcntl.h>
#include <fnmatch.h>
#include <sys/stat.h>
#include <dirent.h>
#include <unistd.h>
#include <argp.h>
#include <error.h>
#include <string.h>
#include <version.h>
#include <sys/wait.h>
#include <inttypes.h>
#include <stdbool.h>
#include <stddef.h>
#include <argz.h>
const char *argp_program_version = STANDARD_HURD_VERSION (rpctrace);
#define STD_MSGIDS_DIR DATADIR "/msgids/"
#define OPT_NOSTDINC -1
static const struct argp_option options[] =
{
{"output", 'o', "FILE", 0, "Send trace output to FILE instead of stderr."},
{"nostdinc", OPT_NOSTDINC, 0, 0,
"Do not search inside the standard system directory, `" STD_MSGIDS_DIR
"', for `.msgids' files."},
{"rpc-list", 'i', "FILE", 0,
"Read FILE for assocations of message ID numbers to names."},
{0, 'I', "DIR", 0,
"Add the directory DIR to the list of directories to be searched for files "
"containing message ID numbers."},
{0}
};
static const char args_doc[] = "COMMAND [ARG...]";
static const char doc[] = "Trace Mach Remote Procedure Calls.";
/* The msgid_ihash table maps msgh_id values to names. */
struct msgid_info
{
char *name;
char *subsystem;
};
static void
msgid_ihash_cleanup (void *element, void *arg)
{
struct msgid_info *info = element;
free (info->name);
free (info->subsystem);
free (info);
}
static struct hurd_ihash msgid_ihash
= HURD_IHASH_INITIALIZER (HURD_IHASH_NO_LOCP);
/* Parse a file of RPC names and message IDs as output by mig's -list
option: "subsystem base-id routine n request-id reply-id". Put each
request-id value into `msgid_ihash' with the routine name as its value. */
static void
parse_msgid_list (const char *filename)
{
FILE *fp;
char *buffer = NULL;
size_t bufsize = 0;
unsigned int lineno = 0;
char *name, *subsystem;
unsigned int msgid;
error_t err;
fp = fopen (filename, "r");
if (fp == 0)
{
error (2, errno, "%s", filename);
return;
}
while (getline (&buffer, &bufsize, fp) > 0)
{
++lineno;
if (buffer[0] == '#' || buffer[0] == '\0')
continue;
if (sscanf (buffer, "%as %*u %as %*u %u %*u\n",
&subsystem, &name, &msgid) != 3)
error (0, 0, "%s:%u: invalid format in RPC list file",
filename, lineno);
else
{
struct msgid_info *info = malloc (sizeof *info);
if (info == 0)
error (1, errno, "malloc");
info->name = name;
info->subsystem = subsystem;
err = hurd_ihash_add (&msgid_ihash, msgid, info);
if (err)
error (1, err, "hurd_ihash_add");
}
}
free (buffer);
fclose (fp);
}
/* Look for a name describing MSGID. We check the table directly, and
also check if this looks like the ID of a reply message whose request
ID is already in the table. */
static const struct msgid_info *
msgid_info (mach_msg_id_t msgid)
{
const struct msgid_info *info = hurd_ihash_find (&msgid_ihash, msgid);
if (info == 0 && (msgid / 100) % 2 == 1)
{
/* This message ID is not in the table, and its number makes it
what should be an RPC reply message ID. So look up the message
ID of the corresponding RPC request and synthesize a name from
that. Then stash that name in the table so the next time the
lookup will match directly. */
info = hurd_ihash_find (&msgid_ihash, msgid - 100);
if (info != 0)
{
struct msgid_info *reply_info = malloc (sizeof *info);
if (reply_info != 0)
{
reply_info->subsystem = strdup (info->subsystem);
reply_info->name = 0;
asprintf (&reply_info->name, "%s-reply", info->name);
hurd_ihash_add (&msgid_ihash, msgid, reply_info);
info = reply_info;
}
else
info = 0;
}
}
return info;
}
static const char *
msgid_name (mach_msg_id_t msgid)
{
const struct msgid_info *info = msgid_info (msgid);
return info ? info->name : 0;
}
/* Return true if this message's data should be printed out.
For a request message, that means the in parameters.
For a reply messages, that means the return code and out parameters. */
static int
msgid_display (const struct msgid_info *info)
{
return 1;
}
/* Return true if we should interpose on this RPC's reply port. If this
returns false, we will pass the caller's original reply port through so
we never see the reply message at all. */
static int
msgid_trace_replies (const struct msgid_info *info)
{
return 1;
}
/* We keep one of these structures for each port right we are tracing. */
struct traced_info
{
struct port_info pi;
mach_port_t forward; /* real port */
mach_msg_type_name_t type;
char *name; /* null or a string describing this */
union
{
struct traced_info *nextfree; /* Link when on free list. */
struct /* For a send right wrapper. */
{
hurd_ihash_locp_t locp; /* position in the traced_names hash table */
} send;
struct /* For a send-once right wrapper. */
{
/* We keep track of the send right to which the message containing
this send-once right as its reply port was sent, and the msgid of
that request. We don't hold a reference to the send right; it is
just a hint to indicate a match with a send right on which we just
forwarded a message. */
mach_port_t sent_to;
mach_msg_id_t sent_msgid;
} send_once;
} u;
};
#define INFO_SEND_ONCE(info) ((info)->type == MACH_MSG_TYPE_MOVE_SEND_ONCE)
static struct traced_info *freelist;
struct hurd_ihash traced_names
= HURD_IHASH_INITIALIZER (offsetof (struct traced_info, u.send.locp));
struct port_class *traced_class;
struct port_bucket *traced_bucket;
FILE *ostream;
/* These are the calls made from the tracing engine into
the output formatting code. */
/* Called for a message that does not look like an RPC reply.
The header has already been swapped into the sender's view
with interposed ports. */
static void print_request_header (struct traced_info *info,
mach_msg_header_t *header);
/* Called for a message that looks like an RPC reply. */
static void print_reply_header (struct traced_info *info,
mig_reply_header_t *header);
/* Called for each data item (which might be an array).
Always called after one of the above two. */
static void print_data (mach_msg_type_name_t type,
const void *data,
mach_msg_type_number_t nelt,
mach_msg_type_number_t eltsize);
/*** Mechanics of tracing messages and interposing on ports ***/
/* Create a new wrapper port and do `ports_get_right' on it. */
static struct traced_info *
new_send_wrapper (mach_port_t right, mach_port_t *wrapper_right)
{
error_t err;
struct traced_info *info;
/* Use a free send-once wrapper port if we have one. */
if (freelist)
{
info = freelist;
freelist = info->u.nextfree;
}
else
{
/* Create a new wrapper port that forwards to *RIGHT. */
err = ports_create_port (traced_class, traced_bucket,
sizeof *info, &info);
assert_perror (err);
info->name = 0;
}
info->forward = right;
info->type = MACH_MSG_TYPE_MOVE_SEND;
/* Store it in the reverse-lookup hash table, so we can
look up this same right again to find the wrapper port.
The entry in the hash table holds a weak ref on INFO. */
err = hurd_ihash_add (&traced_names, info->forward, info);
assert_perror (err);
ports_port_ref_weak (info);
assert (info->u.send.locp != 0);
*wrapper_right = ports_get_right (info);
ports_port_deref (info);
return info;
}
/* Create a new wrapper port and do `ports_get_right' on it. */
static struct traced_info *
new_send_once_wrapper (mach_port_t right, mach_port_t *wrapper_right)
{
error_t err;
struct traced_info *info;
/* Use a free send-once wrapper port if we have one. */
if (freelist)
{
info = freelist;
freelist = info->u.nextfree;
}
else
{
/* Create a new wrapper port that forwards to *RIGHT. */
err = ports_create_port (traced_class, traced_bucket,
sizeof *info, &info);
assert_perror (err);
info->name = 0;
}
info->forward = right;
info->type = MACH_MSG_TYPE_MOVE_SEND_ONCE;
/* Send-once rights never compare equal to any other right (even
another send-once right), so there is no point in putting them
in the reverse-lookup table.
Since we never make send rights to this port, we don't want to
use the normal libports mechanisms (ports_get_right) that are
designed for send rights and no-senders notifications.
Instead, we hold on to the initial hard ref to INFO until we
receive a message on it. The kernel automatically sends a
MACH_NOTIFY_SEND_ONCE message if the send-once right dies. */
*wrapper_right = info->pi.port_right;
memset (&info->u.send_once, 0, sizeof info->u.send_once);
return info;
}
/* This gets called when a wrapper port has no hard refs (send rights),
only weak refs. The only weak ref is the one held in the reverse-lookup
hash table. */
static void
traced_dropweak (void *pi)
{
struct traced_info *const info = pi;
assert (info->type == MACH_MSG_TYPE_MOVE_SEND);
assert (info->u.send.locp);
/* Remove INFO from the hash table. */
hurd_ihash_locp_remove (&traced_names, info->u.send.locp);
ports_port_deref_weak (info);
/* Deallocate the forward port, so the real port also sees no-senders. */
mach_port_deallocate (mach_task_self (), info->forward);
/* There are no rights to this port, so we can reuse it.
Add a hard ref and put INFO on the free list. */
ports_port_ref (info);
free (info->name);
info->name = 0;
info->u.nextfree = freelist;
freelist = info;
}
/* Rewrite a port right in a message with an appropriate wrapper port. */
static struct traced_info *
rewrite_right (mach_port_t *right, mach_msg_type_name_t *type)
{
error_t err;
struct traced_info *info;
/* We can never do anything special with a null or dead port right. */
if (!MACH_PORT_VALID (*right))
return 0;
switch (*type)
{
case MACH_MSG_TYPE_PORT_SEND:
/* See if we are already tracing this port. */
info = hurd_ihash_find (&traced_names, *right);
if (info)
{
/* We are already tracing this port. We will pass on a right
to our existing wrapper port. */
*right = ports_get_right (info);
*type = MACH_MSG_TYPE_MAKE_SEND;
return info;
}
/* See if this is already one of our own wrapper ports. */
info = ports_lookup_port (traced_bucket, *right, 0);
if (info)
{
/* This is a send right to one of our own wrapper ports.
Instead, send along the original send right. */
mach_port_deallocate (mach_task_self (), *right); /* eat msg ref */
*right = info->forward;
err = mach_port_mod_refs (mach_task_self (), *right,
MACH_PORT_RIGHT_SEND, +1);
assert_perror (err);
ports_port_deref (info);
return info;
}
/* We have never seen this port before. Create a new wrapper port
and replace the right in the message with a right to it. */
*type = MACH_MSG_TYPE_MAKE_SEND;
return new_send_wrapper (*right, right);
case MACH_MSG_TYPE_PORT_SEND_ONCE:
/* There is no way to know if this send-once right is to the same
receive right as any other send-once or send right we have seen.
Fortunately, it doesn't matter, since the recipient of the
send-once right we pass along can't tell either. We always just
make a new send-once wrapper object, that will trace the one
message it receives, and then die. */
*type = MACH_MSG_TYPE_MAKE_SEND_ONCE;
return new_send_once_wrapper (*right, right);
case MACH_MSG_TYPE_PORT_RECEIVE:
/* We have got a receive right, call it A. We will pass along a
different receive right of our own, call it B. We ourselves will
receive messages on A, trace them, and forward them on to B.
If A is the receive right to a send right that we have wrapped,
then B must be that wrapper receive right, moved from us to the
intended receiver of A--that way it matches previous send rights
to A that were sent through and replaced with our wrapper (B).
If not, we create a new receive right. */
{
mach_port_t rr; /* B */
char *name;
info = hurd_ihash_find (&traced_names, *right);
if (info)
{
/* This is a receive right that we have been tracing sends to. */
name = info->name;
rr = ports_claim_right (info);
/* That released the refs on INFO, so it's been freed now. */
}
else
{
/* This is a port we know nothing about. */
rr = mach_reply_port ();
name = 0;
}
/* Create a new wrapper object that receives on this port. */
err = ports_import_port (traced_class, traced_bucket,
*right, sizeof *info, &info);
assert_perror (err);
info->name = name;
info->type = MACH_MSG_TYPE_MOVE_SEND; /* XXX ? */
/* Get us a send right that we will forward on. */
err = mach_port_insert_right (mach_task_self (), rr, rr,
MACH_MSG_TYPE_MAKE_SEND);
assert_perror (err);
info->forward = rr;
err = hurd_ihash_add (&traced_names, info->forward, info);
assert_perror (err);
ports_port_ref_weak (info);
/* If there are no extant send rights to this port, then INFO will
die right here and release its send right to RR.
XXX what to do?
*/
ports_port_deref (info);
*right = rr;
return info;
}
default:
assert (!"??? bogus port type from kernel!");
}
return 0;
}
static void
print_contents (mach_msg_header_t *inp,
void *msg_buf_ptr)
{
error_t err;
int first = 1;
/* Process the message data, wrapping ports and printing data. */
while (msg_buf_ptr < (void *) inp + inp->msgh_size)
{
mach_msg_type_t *const type = msg_buf_ptr;
mach_msg_type_long_t *const lt = (void *) type;
void *data;
mach_msg_type_number_t nelt; /* Number of data items. */
mach_msg_type_size_t eltsize; /* Bytes per item. */
mach_msg_type_name_t name; /* MACH_MSG_TYPE_* code */
if (!type->msgt_longform)
{
name = type->msgt_name;
nelt = type->msgt_number;
eltsize = type->msgt_size / 8;
data = msg_buf_ptr = type + 1;
}
else
{
name = lt->msgtl_name;
nelt = lt->msgtl_number;
eltsize = lt->msgtl_size / 8;
data = msg_buf_ptr = lt + 1;
}
if (!type->msgt_inline)
{
/* This datum is out-of-line, meaning the message actually
contains a pointer to a vm_allocate'd region of data. */
data = *(void **) data;
msg_buf_ptr += sizeof (void *);
}
else
msg_buf_ptr += ((nelt * eltsize + sizeof(natural_t) - 1)
& ~(sizeof(natural_t) - 1));
if (first)
first = 0;
else
putc (' ', ostream);
/* Note that MACH_MSG_TYPE_PORT_NAME does not indicate a port right.
It indicates a port name, i.e. just an integer--and we don't know
what task that port name is meaningful in. If it's meaningful in
a traced task, then it refers to our intercepting port rather than
the original port anyway. */
if (MACH_MSG_TYPE_PORT_ANY_RIGHT (name))
{
/* These are port rights. Translate them into wrappers. */
mach_port_t *const portnames = data;
mach_msg_type_number_t i;
mach_msg_type_name_t newtypes[nelt];
int poly;
struct traced_info *ti;
assert (inp->msgh_bits & MACH_MSGH_BITS_COMPLEX);
assert (eltsize == sizeof (mach_port_t));
poly = 0;
for (i = 0; i < nelt; ++i)
{
newtypes[i] = name;
if (inp->msgh_id == 3215) /* mach_port_insert_right */
{
/* XXX
*/
fprintf (ostream,
"\t\t[%d] = pass through port %d, type %d\n",
i, portnames[i], name);
continue;
}
ti = rewrite_right (&portnames[i], &newtypes[i]);
putc ((i == 0 && nelt > 1) ? '{' : ' ', ostream);
if (portnames[i] == MACH_PORT_NULL)
fprintf (ostream, "(null)");
else if (portnames[i] == MACH_PORT_DEAD)
fprintf (ostream, "(dead)");
else
{
assert (ti);
if (ti->name != 0)
fprintf (ostream, "%s", ti->name);
else
fprintf (ostream, "%3u", (unsigned int) portnames[i]);
}
if (i > 0 && newtypes[i] != newtypes[0])
poly = 1;
}
if (nelt > 1)
putc ('}', ostream);
if (poly)
{
if (name == MACH_MSG_TYPE_MOVE_SEND_ONCE)
{
/* Some of the new rights are MAKE_SEND_ONCE.
Turn them all into MOVE_SEND_ONCE. */
for (i = 0; i < nelt; ++i)
if (newtypes[i] == MACH_MSG_TYPE_MAKE_SEND_ONCE)
{
err = mach_port_insert_right (mach_task_self (),
portnames[i],
portnames[i],
newtypes[i]);
assert_perror (err);
}
else
assert (newtypes[i] == MACH_MSG_TYPE_MOVE_SEND_ONCE);
}
else
{
for (i = 0; i < nelt; ++i)
switch (newtypes[i])
{
case MACH_MSG_TYPE_COPY_SEND:
err = mach_port_mod_refs (mach_task_self (),
portnames[i],
MACH_PORT_RIGHT_SEND, +1);
assert_perror (err);
break;
case MACH_MSG_TYPE_MAKE_SEND:
err = mach_port_insert_right (mach_task_self (),
portnames[i],
portnames[i],
newtypes[i]);
assert_perror (err);
break;
default:
assert (newtypes[i] == MACH_MSG_TYPE_MOVE_SEND);
break;
}
name = MACH_MSG_TYPE_MOVE_SEND;
}
if (type->msgt_longform)
lt->msgtl_name = name;
else
type->msgt_name = name;
}
else if (nelt > 0 && newtypes[0] != name)
if (type->msgt_longform)
lt->msgtl_name = newtypes[0];
else
type->msgt_name = newtypes[0];
}
else
print_data (name, data, nelt, eltsize);
}
}
int
trace_and_forward (mach_msg_header_t *inp, mach_msg_header_t *outp)
{
const mach_msg_type_t RetCodeType =
{
MACH_MSG_TYPE_INTEGER_32, /* msgt_name = */
32, /* msgt_size = */
1, /* msgt_number = */
TRUE, /* msgt_inline = */
FALSE, /* msgt_longform = */
FALSE, /* msgt_deallocate = */
0 /* msgt_unused = */
};
error_t err;
const struct msgid_info *msgid;
struct traced_info *info;
mach_msg_bits_t complex;
/* Look up our record for the receiving port. There is no need to check
the class, because our port bucket only ever contains one class of
ports (traced_class). */
info = ports_lookup_port (traced_bucket, inp->msgh_local_port, 0);
assert (info);
/* A notification message from the kernel appears to have been sent
with a send-once right, even if there have never really been any. */
if (MACH_MSGH_BITS_LOCAL (inp->msgh_bits) == MACH_MSG_TYPE_MOVE_SEND_ONCE)
{
if (inp->msgh_id == MACH_NOTIFY_DEAD_NAME)
{
/* If INFO is a send-once wrapper, this could be a forged
notification; oh well. XXX */
const mach_dead_name_notification_t *const n = (void *) inp;
assert (n->not_port == info->forward);
/* Deallocate extra ref allocated by the notification. */
mach_port_deallocate (mach_task_self (), n->not_port);
ports_destroy_right (info);
ports_port_deref (info);
((mig_reply_header_t *) outp)->RetCode = MIG_NO_REPLY;
return 1;
}
else if (inp->msgh_id == MACH_NOTIFY_NO_SENDERS
&& !INFO_SEND_ONCE (info))
{
/* No more senders for a send right we are tracing. Now INFO
will die, and we will release the tracee send right so it too
can see a no-senders notification. */
mach_no_senders_notification_t *n = (void *) inp;
ports_no_senders (info, n->not_count);
ports_port_deref (info);
((mig_reply_header_t *) outp)->RetCode = MIG_NO_REPLY;
return 1;
}
}
assert (MACH_MSGH_BITS_LOCAL (inp->msgh_bits) == info->type);
complex = inp->msgh_bits & MACH_MSGH_BITS_COMPLEX;
msgid = msgid_info (inp->msgh_id);
/* Swap the header data like a crossover cable. */
{
mach_msg_type_name_t this_type = MACH_MSGH_BITS_LOCAL (inp->msgh_bits);
mach_msg_type_name_t reply_type = MACH_MSGH_BITS_REMOTE (inp->msgh_bits);
inp->msgh_local_port = inp->msgh_remote_port;
if (reply_type && msgid_trace_replies (msgid))
{
struct traced_info *info;
info = rewrite_right (&inp->msgh_local_port, &reply_type);
assert (info);
if (info->name == 0)
{
if (msgid == 0)
asprintf (&info->name, "reply(%u:%u)",
(unsigned int) info->pi.port_right,
(unsigned int) inp->msgh_id);
else
asprintf (&info->name, "reply(%u:%s)",
(unsigned int) info->pi.port_right, msgid->name);
}
if (info->type == MACH_MSG_TYPE_MOVE_SEND_ONCE)
{
info->u.send_once.sent_to = info->pi.port_right;
info->u.send_once.sent_msgid = inp->msgh_id;
}
}
inp->msgh_remote_port = info->forward;
if (this_type == MACH_MSG_TYPE_MOVE_SEND_ONCE)
{
/* We have a message to forward for a send-once wrapper object.
Since each wrapper object only lives for a single message, this
one can be reclaimed now. We continue to hold a hard ref to the
ports object, but we know that nothing else refers to it now, and
we are consuming its `forward' right in the message we send. */
free (info->name);
info->name = 0;
info->u.nextfree = freelist;
freelist = info;
}
else
this_type = MACH_MSG_TYPE_COPY_SEND;
inp->msgh_bits = complex | MACH_MSGH_BITS (this_type, reply_type);
}
/* The message now appears as it would if we were the sender.
It is ready to be resent. */
if (msgid_display (msgid))
{
if (inp->msgh_local_port == MACH_PORT_NULL
&& info->type == MACH_MSG_TYPE_MOVE_SEND_ONCE
&& inp->msgh_size >= sizeof (mig_reply_header_t)
&& (*(int *) &((mig_reply_header_t *) inp)->RetCodeType
== *(int *)&RetCodeType))
{
/* This sure looks like an RPC reply message. */
mig_reply_header_t *rh = (void *) inp;
print_reply_header (info, rh);
putc (' ', ostream);
print_contents (&rh->Head, rh + 1);
putc ('\n', ostream);
}
else
{
/* Print something about the message header. */
print_request_header (info, inp);
print_contents (inp, inp + 1);
if (inp->msgh_local_port == MACH_PORT_NULL) /* simpleroutine */
fprintf (ostream, ");\n");
else
/* Leave a partial line that will be finished later. */
fprintf (ostream, ")");
}
}
/* Resend the message to the tracee. */
err = mach_msg (inp, MACH_SEND_MSG, inp->msgh_size, 0,
MACH_PORT_NULL, MACH_MSG_TIMEOUT_NONE, MACH_PORT_NULL);
if (err == MACH_SEND_INVALID_DEST)
{
/* The tracee port died. No doubt we are about to receive the dead-name
notification. */
/* XXX MAKE_SEND, MAKE_SEND_ONCE rights in msg not handled */
mach_msg_destroy (inp);
}
else
assert_perror (err);
ports_port_deref (info);
/* We already sent the message, so the server loop shouldn't do it again. */
((mig_reply_header_t *) outp)->RetCode = MIG_NO_REPLY;
return 1;
}
/* This function runs in the tracing thread and drives all the tracing. */
static any_t
trace_thread_function (void *arg)
{
struct port_bucket *const bucket = arg;
ports_manage_port_operations_one_thread (bucket, trace_and_forward, 0);
return 0;
}
/*** Output formatting ***/
#if 0
struct msg_type
{
const char *name;
const char *letter;
};
static const char *const msg_types[] =
{
[MACH_MSG_TYPE_BIT] = {"bool", "b"},
[MACH_MSG_TYPE_INTEGER_16] = {"int16", "h"},
[MACH_MSG_TYPE_INTEGER_32] = {"int32", "i"},
[MACH_MSG_TYPE_CHAR] = {"char", "c"},
[MACH_MSG_TYPE_INTEGER_8] = {"int8", "B"},
[MACH_MSG_TYPE_REAL] = {"float", "f"},
[MACH_MSG_TYPE_INTEGER_64] = {"int64", "q"},
[MACH_MSG_TYPE_STRING] = {"string", "s"},
[MACH_MSG_TYPE_MOVE_RECEIVE] = {"move-receive", "R"},
[MACH_MSG_TYPE_MOVE_SEND] = {"move-send", "S"},
[MACH_MSG_TYPE_MOVE_SEND_ONCE]= {"move-send-once", "O"},
[MACH_MSG_TYPE_COPY_SEND] = {"copy-send", "s"},
[MACH_MSG_TYPE_MAKE_SEND] = {"make-send", ""},
[MACH_MSG_TYPE_MAKE_SEND_ONCE]= {"make-send-once", ""},
[MACH_MSG_TYPE_PORT_NAME] = {"port-name", "n"},
};
#endif
static mach_port_t expected_reply_port;
static void
print_request_header (struct traced_info *receiver, mach_msg_header_t *msg)
{
const char *msgname = msgid_name (msg->msgh_id);
expected_reply_port = msg->msgh_local_port;
if (receiver->name != 0)
fprintf (ostream, "%4s->", receiver->name);
else
fprintf (ostream, "%4u->", (unsigned int) receiver->pi.port_right);
if (msgname != 0)
fprintf (ostream, "%5s (", msgname);
else
fprintf (ostream, "%5u (", (unsigned int) msg->msgh_id);
}
static void
unfinished_line (void)
{
/* A partial line was printed by print_request_header, but
cannot be finished before we print something else.
Finish this line with the name of the reply port that
will appear in the disconnected reply later on. */
fprintf (ostream, " > %4u ...\n", expected_reply_port);
}
static void
print_reply_header (struct traced_info *info, mig_reply_header_t *reply)
{
if (info->pi.port_right == expected_reply_port)
{
/* We have printed a partial line for the request message,
and now we have the corresponding reply. */
if (reply->Head.msgh_id == info->u.send_once.sent_msgid + 100)
fprintf (ostream, " = "); /* normal case */
else
/* This is not the proper reply message ID. */
fprintf (ostream, " =(%u != %u) ",
reply->Head.msgh_id,
info->u.send_once.sent_msgid + 100);
}
else
{
/* This does not match up with the last thing printed. */
if (expected_reply_port != MACH_PORT_NULL)
/* We don't print anything if the last call was a simpleroutine. */
unfinished_line ();
if (info->name == 0)
/* This was not a reply port in previous message sent
through our wrappers. */
fprintf (ostream, "reply?%4u",
(unsigned int) info->pi.port_right);
else
fprintf (ostream, "%s%4u",
info->name, (unsigned int) info->pi.port_right);
if (reply->Head.msgh_id == info->u.send_once.sent_msgid + 100)
/* This is a normal reply to a previous request. */
fprintf (ostream, " > ");
else
{
/* Weirdo. */
const char *msgname = msgid_name (reply->Head.msgh_id);
if (msgname == 0)
fprintf (ostream, " >(%u) ", reply->Head.msgh_id);
else
fprintf (ostream, " >(%s) ", msgname);
}
}
if (reply->RetCode == 0)
fprintf (ostream, "0");
else
{
const char *str = strerror (reply->RetCode);
if (str == 0)
fprintf (ostream, "%#x", reply->RetCode);
else
fprintf (ostream, "%#x (%s)", reply->RetCode, str);
}
expected_reply_port = MACH_PORT_NULL;
}
static void
print_data (mach_msg_type_name_t type,
const void *data,
mach_msg_type_number_t nelt,
mach_msg_type_number_t eltsize)
{
switch (type)
{
case MACH_MSG_TYPE_PORT_NAME:
assert (eltsize == sizeof (mach_port_t));
{
mach_msg_type_number_t i;
fprintf (ostream, "pn{");
for (i = 0; i < nelt; ++i)
{
fprintf (ostream, "%*u", (i > 0) ? 4 : 3,
(unsigned int) ((mach_port_t *) data)[i]);
}
fprintf (ostream, "}");
return;
}
case MACH_MSG_TYPE_STRING:
case MACH_MSG_TYPE_CHAR:
fprintf (ostream, "\"%.*s\"",
(int) (nelt * eltsize), (const char *) data);
return;
#if 0
case MACH_MSG_TYPE_CHAR:
if (eltsize == 1)
FMT ("'%c'", unsigned char);
break;
#endif
#define FMT(fmt, ctype) do { \
mach_msg_type_number_t i; \
for (i = 0; i < nelt; ++i) \
{ \
fprintf (ostream, "%s" fmt, \
(i == 0 && nelt > 1) ? "{" : i > 0 ? " " : "", \
*(const ctype *) data); \
data += eltsize; \
} \
if (nelt > 1) \
putc ('}', ostream); \
return; \
} while (0)
case MACH_MSG_TYPE_BIT:
case MACH_MSG_TYPE_INTEGER_8:
case MACH_MSG_TYPE_INTEGER_16:
case MACH_MSG_TYPE_INTEGER_32:
case MACH_MSG_TYPE_INTEGER_64:
switch (eltsize)
{
case 1: FMT ("%"PRId8, int8_t);
case 2: FMT ("%"PRId16, int16_t);
case 4: FMT ("%"PRId32, int32_t);
case 8: FMT ("%"PRId64, int64_t);
}
break;
case MACH_MSG_TYPE_REAL:
if (eltsize == sizeof (float))
FMT ("%g", float);
else if (eltsize == sizeof (double))
FMT ("%g", double);
else if (eltsize == sizeof (long double))
FMT ("%Lg", long double);
else
abort ();
break;
}
/* XXX */
fprintf (ostream, "\t%#x (type %d, %d*%d)\n", *(const int *)data, type,
nelt, eltsize);
}
/*** Main program and child startup ***/
task_t traced_task;
/* Run a child and have it do more or else `execvpe (argv, envp);'. */
pid_t
traced_spawn (char **argv, char **envp)
{
error_t err;
pid_t pid;
mach_port_t task_wrapper;
struct traced_info *ti;
file_t file = file_name_path_lookup (argv[0], getenv ("PATH"),
O_EXEC, 0, 0);
if (file == MACH_PORT_NULL)
error (1, errno, "command not found: %s", argv[0]);
err = task_create (mach_task_self (),
#ifdef KERN_INVALID_LEDGER
NULL, 0, /* OSF Mach */
#endif
0, &traced_task);
assert_perror (err);
/* Declare the new task to be our child. This is what a fork does. */
err = proc_child (getproc (), traced_task);
if (err)
error (2, err, "proc_child");
pid = task2pid (traced_task);
if (pid < 0)
error (2, errno, "task2pid");
/* Create a trace wrapper for the task port. */
ti = new_send_wrapper (traced_task, &task_wrapper);/* consumes ref */
asprintf (&ti->name, "task%d", (int) pid);
/* Replace the task's kernel port with the wrapper. When this task calls
`mach_task_self ()', it will get our wrapper send right instead of its
own real task port. */
err = mach_port_insert_right (mach_task_self (), task_wrapper,
task_wrapper, MACH_MSG_TYPE_MAKE_SEND);
assert_perror (err);
err = task_set_special_port (traced_task, TASK_KERNEL_PORT, task_wrapper);
assert_perror (err);
/* Now actually run the command they told us to trace. We do the exec on
the actual task, so the RPCs to map in the program itself do not get
traced. Could have an option to use TASK_WRAPPER here instead. */
err = _hurd_exec (traced_task, file, argv, envp);
if (err)
error (2, err, "cannot exec `%s'", argv[0]);
/* We were keeping this send right alive so that the wrapper object
cannot die and hence our TRACED_TASK ref cannot have been released. */
mach_port_deallocate (mach_task_self (), task_wrapper);
return pid;
}
static void
scan_msgids_dir (char **argz, size_t *argz_len, char *dir, bool append)
{
struct dirent **eps;
int n;
int
msgids_file_p (const struct dirent *eps)
{
if (fnmatch ("*.msgids", eps->d_name, 0) != FNM_NOMATCH)
return 1;
return 0;
}
n = scandir (dir, &eps, msgids_file_p, NULL);
if (n >= 0)
{
for (int cnt = 0; cnt < n; ++cnt)
{
char *msgids_file;
if (asprintf (&msgids_file, "%s/%s", dir, eps[cnt]->d_name) < 0)
error (1, errno, "asprintf");
if (append == TRUE)
{
if (argz_add (argz, argz_len, msgids_file) != 0)
error (1, errno, "argz_add");
}
else
{
if (argz_insert (argz, argz_len, *argz, msgids_file) != 0)
error (1, errno, "argz_insert");
}
free (msgids_file);
}
}
/* If the directory couldn't be scanned for whatever reason, just ignore
it. */
}
int
main (int argc, char **argv, char **envp)
{
char *msgids_files_argz = NULL;
size_t msgids_files_argz_len = 0;
bool nostdinc = FALSE;
const char *outfile = 0;
char **cmd_argv = 0;
/* Parse our options... */
error_t parse_opt (int key, char *arg, struct argp_state *state)
{
switch (key)
{
case 'o':
outfile = arg;
break;
case OPT_NOSTDINC:
nostdinc = TRUE;
break;
case 'i':
if (argz_add (&msgids_files_argz, &msgids_files_argz_len,
arg) != 0)
error (1, errno, "argz_add");
break;
case 'I':
scan_msgids_dir (&msgids_files_argz, &msgids_files_argz_len,
arg, TRUE);
break;
case ARGP_KEY_NO_ARGS:
argp_usage (state);
return EINVAL;
case ARGP_KEY_ARG:
cmd_argv = &state->argv[state->next - 1];
state->next = state->argc;
break;
default:
return ARGP_ERR_UNKNOWN;
}
return 0;
}
const struct argp argp = { options, parse_opt, args_doc, doc };
/* Parse our arguments. */
argp_parse (&argp, argc, argv, ARGP_IN_ORDER, 0, 0);
/* Insert the files from STD_MSGIDS_DIR at the beginning of the list, so that
their content can be overridden by subsequently parsed files. */
if (nostdinc == FALSE)
scan_msgids_dir (&msgids_files_argz, &msgids_files_argz_len,
STD_MSGIDS_DIR, FALSE);
if (msgids_files_argz != NULL)
{
char *msgids_file = NULL;
while ((msgids_file = argz_next (msgids_files_argz,
msgids_files_argz_len, msgids_file)))
parse_msgid_list (msgids_file);
free (msgids_files_argz);
}
if (outfile)
{
ostream = fopen (outfile, "w");
if (!ostream)
error (1, errno, "%s", outfile);
}
else
ostream = stderr;
setlinebuf (ostream);
traced_bucket = ports_create_bucket ();
traced_class = ports_create_class (0, &traced_dropweak);
hurd_ihash_set_cleanup (&msgid_ihash, msgid_ihash_cleanup, 0);
/* Spawn a single thread that will receive intercepted messages, print
them, and interpose on the ports they carry. The access to the
`traced_info' and ihash data structures is all single-threaded,
happening only in this new thread. */
cthread_detach (cthread_fork (trace_thread_function, traced_bucket));
/* Run the program on the command line and wait for it to die.
The other thread does all the tracing and interposing. */
{
pid_t child, pid;
int status;
child = traced_spawn (cmd_argv, envp);
pid = waitpid (child, &status, 0);
sleep (1); /* XXX gives other thread time to print */
if (pid != child)
error (1, errno, "waitpid");
if (WIFEXITED (status))
fprintf (ostream, "Child %d exited with %d\n",
pid, WEXITSTATUS (status));
else
fprintf (ostream, "Child %d %s\n", pid, strsignal (WTERMSIG (status)));
}
return 0;
}
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