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The indentation in LibGTop was done with the following command:

Browse Source 
find . -name \*.[ch] | xargs -i emacs -batch {} \
		-l /gnome/compile/libgtop/misc/format.el -f save-buffer

December 26, 1999
Martin
This commit is contained in:
Martin Baulig
1999-12-26 14:05:32 +00:00
parent d7f088bef0
commit f1a6e1ead8
272 changed files with 6300 additions and 5751 deletions
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394
src/daemon/slave.c
View File

@@ -1,3 +1,5 @@
/* -*- Mode: C; tab-width: 8; indent-tabs-mode: t; c-basic-offset: 4 -*- */
/* $Id$ */
/* Copyright (C) 1998-99 Martin Baulig
@@ -26,269 +28,269 @@
void
handle_slave_connection (int input, int output)
{
glibtop *server G_GNUC_UNUSED = glibtop_global_server;
int64_t *param_ptr G_GNUC_UNUSED;
const void *ptr G_GNUC_UNUSED;
int ret G_GNUC_UNUSED = -1;
glibtop *server G_GNUC_UNUSED = glibtop_global_server;
int64_t *param_ptr G_GNUC_UNUSED;
const void *ptr G_GNUC_UNUSED;
int ret G_GNUC_UNUSED = -1;
u_int64_t interface G_GNUC_UNUSED;
u_int64_t number G_GNUC_UNUSED;
u_int64_t instance G_GNUC_UNUSED;
u_int64_t strategy G_GNUC_UNUSED;
u_int64_t transport G_GNUC_UNUSED;
u_int64_t protocol G_GNUC_UNUSED;
u_int64_t interface G_GNUC_UNUSED;
u_int64_t number G_GNUC_UNUSED;
u_int64_t instance G_GNUC_UNUSED;
u_int64_t strategy G_GNUC_UNUSED;
u_int64_t transport G_GNUC_UNUSED;
u_int64_t protocol G_GNUC_UNUSED;
unsigned short max_len G_GNUC_UNUSED;
pid_t pid G_GNUC_UNUSED;
unsigned short max_len G_GNUC_UNUSED;
pid_t pid G_GNUC_UNUSED;
glibtop_response _resp, *resp = &_resp;
glibtop_command _cmnd, *cmnd = &_cmnd;
char parameter [BUFSIZ];
glibtop_response _resp, *resp = &_resp;
glibtop_command _cmnd, *cmnd = &_cmnd;
char parameter [BUFSIZ];
glibtop_send_version (glibtop_global_server, output);
glibtop_send_version (glibtop_global_server, output);
while (do_read (input, cmnd, sizeof (glibtop_command))) {
while (do_read (input, cmnd, sizeof (glibtop_command))) {
#ifdef SLAVE_DEBUG
fprintf (stderr, "Slave %d received command "
"%d from client.\n", getpid (), cmnd->command);
fprintf (stderr, "Slave %d received command "
"%d from client.\n", getpid (), cmnd->command);
#endif
if (cmnd->data_size >= BUFSIZ)
glibtop_error ("Client sent %d bytes, "
"but buffer is %d",
cmnd->size, BUFSIZ);
if (cmnd->data_size >= BUFSIZ)
glibtop_error ("Client sent %d bytes, "
"but buffer is %d",
cmnd->size, BUFSIZ);
memset (resp, 0, sizeof (glibtop_response));
memset (resp, 0, sizeof (glibtop_response));
memset (parameter, 0, sizeof (parameter));
memset (parameter, 0, sizeof (parameter));
if (cmnd->data_size) {
if (cmnd->data_size) {
#ifdef SLAVE_DEBUG
fprintf (stderr, "Client has %d bytes of data.\n",
cmnd->data_size);
fprintf (stderr, "Client has %d bytes of data.\n",
cmnd->data_size);
#endif
do_read (input, parameter, cmnd->data_size);
do_read (input, parameter, cmnd->data_size);
} else if (cmnd->size) {
memcpy (parameter, cmnd->parameter, cmnd->size);
}
} else if (cmnd->size) {
memcpy (parameter, cmnd->parameter, cmnd->size);
}
switch (cmnd->command) {
case GLIBTOP_CMND_QUIT:
do_output (output, resp, 0, 0, NULL, 0);
return;
switch (cmnd->command) {
case GLIBTOP_CMND_QUIT:
do_output (output, resp, 0, 0, NULL, 0);
return;
#if GLIBTOP_SUID_PROCLIST
case GLIBTOP_CMND_PROCLIST:
param_ptr = (int64_t *) parameter;
ptr = glibtop_get_proclist_p
(server, &resp->u.data.proclist,
param_ptr [0], param_ptr [1]);
do_output (output, resp, _offset_data (proclist),
resp->u.data.proclist.total,
ptr, (ptr != NULL) ? 0 : -1);
glibtop_free_r (server, ptr);
break;
case GLIBTOP_CMND_PROCLIST:
param_ptr = (int64_t *) parameter;
ptr = glibtop_get_proclist_p
(server, &resp->u.data.proclist,
param_ptr [0], param_ptr [1]);
do_output (output, resp, _offset_data (proclist),
resp->u.data.proclist.total,
ptr, (ptr != NULL) ? 0 : -1);
glibtop_free_r (server, ptr);
break;
#endif
#if GLIBTOP_SUID_PROC_ARGS
case GLIBTOP_CMND_PROC_ARGS:
memcpy (&pid, parameter, sizeof (pid_t));
memcpy (&max_len, parameter + sizeof (pid_t),
sizeof (max_len));
ptr = glibtop_get_proc_args_p (server,
&resp->u.data.proc_args,
pid);
do_output (output, resp, _offset_data (proc_args),
ptr ? resp->u.data.proc_args.size+1 : 0,
ptr, (ptr != NULL) ? 0 : -1);
glibtop_free_r (server, ptr);
break;
case GLIBTOP_CMND_PROC_ARGS:
memcpy (&pid, parameter, sizeof (pid_t));
memcpy (&max_len, parameter + sizeof (pid_t),
sizeof (max_len));
ptr = glibtop_get_proc_args_p (server,
&resp->u.data.proc_args,
pid);
do_output (output, resp, _offset_data (proc_args),
ptr ? resp->u.data.proc_args.size+1 : 0,
ptr, (ptr != NULL) ? 0 : -1);
glibtop_free_r (server, ptr);
break;
#endif
#if GLIBTOP_SUID_PROC_MAP
case GLIBTOP_CMND_PROC_MAP:
memcpy (&pid, parameter, sizeof (pid_t));
ptr = glibtop_get_proc_map_p (server,
&resp->u.data.proc_map,
pid);
do_output (output, resp, _offset_data (proc_map),
resp->u.data.proc_map.total,
ptr, (ptr != NULL) ? 0 : -1);
glibtop_free_r (server, ptr);
break;
case GLIBTOP_CMND_PROC_MAP:
memcpy (&pid, parameter, sizeof (pid_t));
ptr = glibtop_get_proc_map_p (server,
&resp->u.data.proc_map,
pid);
do_output (output, resp, _offset_data (proc_map),
resp->u.data.proc_map.total,
ptr, (ptr != NULL) ? 0 : -1);
glibtop_free_r (server, ptr);
break;
#endif
#if GLIBTOP_SUID_INTERFACE_NAMES
case GLIBTOP_CMND_INTERFACE_NAMES:
memcpy (&interface, parameter, sizeof (u_int64_t));
memcpy (&number, parameter + sizeof (u_int64_t),
sizeof (u_int64_t));
memcpy (&instance, parameter + 2 * sizeof (u_int64_t),
sizeof (u_int64_t));
memcpy (&strategy, parameter + 3 * sizeof (u_int64_t),
sizeof (u_int64_t));
ptr = glibtop_get_interface_names_p
(server, &resp->u.data.interface_names,
interface, number, instance, strategy);
do_output (output, resp, _offset_data (interface_names),
ptr ? resp->u.data.interface_names.size+1 : 0,
ptr, (ptr != NULL) ? 0 : -1);
glibtop_free_r (server, ptr);
break;
case GLIBTOP_CMND_INTERFACE_NAMES:
memcpy (&interface, parameter, sizeof (u_int64_t));
memcpy (&number, parameter + sizeof (u_int64_t),
sizeof (u_int64_t));
memcpy (&instance, parameter + 2 * sizeof (u_int64_t),
sizeof (u_int64_t));
memcpy (&strategy, parameter + 3 * sizeof (u_int64_t),
sizeof (u_int64_t));
ptr = glibtop_get_interface_names_p
(server, &resp->u.data.interface_names,
interface, number, instance, strategy);
do_output (output, resp, _offset_data (interface_names),
ptr ? resp->u.data.interface_names.size+1 : 0,
ptr, (ptr != NULL) ? 0 : -1);
glibtop_free_r (server, ptr);
break;
#endif
default:
ret = handle_slave_command (cmnd, resp, parameter);
do_output (output, resp, resp->offset, 0, NULL, ret);
break;
}
default:
ret = handle_slave_command (cmnd, resp, parameter);
do_output (output, resp, resp->offset, 0, NULL, ret);
break;
}
}
}
int
handle_slave_command (glibtop_command *cmnd, glibtop_response *resp,
const void *parameter)
{
glibtop *server = glibtop_global_server;
unsigned device G_GNUC_UNUSED;
pid_t pid G_GNUC_UNUSED;
int retval G_GNUC_UNUSED = -1;
glibtop *server = glibtop_global_server;
unsigned device G_GNUC_UNUSED;
pid_t pid G_GNUC_UNUSED;
int retval G_GNUC_UNUSED = -1;
switch (cmnd->command) {
case GLIBTOP_CMND_SYSDEPS:
memcpy (&resp->u.sysdeps, &server->sysdeps,
sizeof (glibtop_sysdeps));
resp->u.sysdeps.features = glibtop_server_features;
resp->u.sysdeps.pointer_size = sizeof (void*)*8;
resp->u.sysdeps.flags = glibtop_server_features;
resp->offset = _offset_union (sysdeps);
retval = 0;
break;
switch (cmnd->command) {
case GLIBTOP_CMND_SYSDEPS:
memcpy (&resp->u.sysdeps, &server->sysdeps,
sizeof (glibtop_sysdeps));
resp->u.sysdeps.features = glibtop_server_features;
resp->u.sysdeps.pointer_size = sizeof (void*)*8;
resp->u.sysdeps.flags = glibtop_server_features;
resp->offset = _offset_union (sysdeps);
retval = 0;
break;
#if GLIBTOP_SUID_CPU
case GLIBTOP_CMND_CPU:
retval = glibtop_get_cpu_p (server, &resp->u.data.cpu);
resp->offset = _offset_data (cpu);
break;
case GLIBTOP_CMND_CPU:
retval = glibtop_get_cpu_p (server, &resp->u.data.cpu);
resp->offset = _offset_data (cpu);
break;
#endif
#if GLIBTOP_SUID_MEM
case GLIBTOP_CMND_MEM:
retval = glibtop_get_mem_p (server, &resp->u.data.mem);
resp->offset = _offset_data (mem);
break;
case GLIBTOP_CMND_MEM:
retval = glibtop_get_mem_p (server, &resp->u.data.mem);
resp->offset = _offset_data (mem);
break;
#endif
#if GLIBTOP_SUID_SWAP
case GLIBTOP_CMND_SWAP:
retval = glibtop_get_swap_p (server, &resp->u.data.swap);
resp->offset = _offset_data (swap);
break;
case GLIBTOP_CMND_SWAP:
retval = glibtop_get_swap_p (server, &resp->u.data.swap);
resp->offset = _offset_data (swap);
break;
#endif
#if GLIBTOP_SUID_UPTIME
case GLIBTOP_CMND_UPTIME:
retval = glibtop_get_uptime_p (server, &resp->u.data.uptime);
resp->offset = _offset_data (uptime);
break;
case GLIBTOP_CMND_UPTIME:
retval = glibtop_get_uptime_p (server, &resp->u.data.uptime);
resp->offset = _offset_data (uptime);
break;
#endif
#if GLIBTOP_SUID_LOADAVG
case GLIBTOP_CMND_LOADAVG:
retval = glibtop_get_loadavg_p (server, &resp->u.data.loadavg);
resp->offset = _offset_data (loadavg);
break;
case GLIBTOP_CMND_LOADAVG:
retval = glibtop_get_loadavg_p (server, &resp->u.data.loadavg);
resp->offset = _offset_data (loadavg);
break;
#endif
#if GLIBTOP_SUID_SHM_LIMITS
case GLIBTOP_CMND_SHM_LIMITS:
retval = glibtop_get_shm_limits_p (server, &resp->u.data.shm_limits);
resp->offset = _offset_data (shm_limits);
break;
case GLIBTOP_CMND_SHM_LIMITS:
retval = glibtop_get_shm_limits_p (server, &resp->u.data.shm_limits);
resp->offset = _offset_data (shm_limits);
break;
#endif
#if GLIBTOP_SUID_MSG_LIMITS
case GLIBTOP_CMND_MSG_LIMITS:
retval = glibtop_get_msg_limits_p (server, &resp->u.data.msg_limits);
resp->offset = _offset_data (msg_limits);
break;
case GLIBTOP_CMND_MSG_LIMITS:
retval = glibtop_get_msg_limits_p (server, &resp->u.data.msg_limits);
resp->offset = _offset_data (msg_limits);
break;
#endif
#if GLIBTOP_SUID_SEM_LIMITS
case GLIBTOP_CMND_SEM_LIMITS:
retval = glibtop_get_sem_limits_p (server, &resp->u.data.sem_limits);
resp->offset = _offset_data (sem_limits);
break;
case GLIBTOP_CMND_SEM_LIMITS:
retval = glibtop_get_sem_limits_p (server, &resp->u.data.sem_limits);
resp->offset = _offset_data (sem_limits);
break;
#endif
#if GLIBTOP_SUID_PROC_STATE
case GLIBTOP_CMND_PROC_STATE:
memcpy (&pid, parameter, sizeof (pid_t));
retval = glibtop_get_proc_state_p
(server, &resp->u.data.proc_state, pid);
resp->offset = _offset_data (proc_state);
break;
case GLIBTOP_CMND_PROC_STATE:
memcpy (&pid, parameter, sizeof (pid_t));
retval = glibtop_get_proc_state_p
(server, &resp->u.data.proc_state, pid);
resp->offset = _offset_data (proc_state);
break;
#endif
#if GLIBTOP_SUID_PROC_UID
case GLIBTOP_CMND_PROC_UID:
memcpy (&pid, parameter, sizeof (pid_t));
retval = glibtop_get_proc_uid_p
(server, &resp->u.data.proc_uid, pid);
resp->offset = _offset_data (proc_uid);
break;
case GLIBTOP_CMND_PROC_UID:
memcpy (&pid, parameter, sizeof (pid_t));
retval = glibtop_get_proc_uid_p
(server, &resp->u.data.proc_uid, pid);
resp->offset = _offset_data (proc_uid);
break;
#endif
#if GLIBTOP_SUID_PROC_MEM
case GLIBTOP_CMND_PROC_MEM:
memcpy (&pid, parameter, sizeof (pid_t));
retval = glibtop_get_proc_mem_p
(server, &resp->u.data.proc_mem, pid);
resp->offset = _offset_data (proc_mem);
break;
case GLIBTOP_CMND_PROC_MEM:
memcpy (&pid, parameter, sizeof (pid_t));
retval = glibtop_get_proc_mem_p
(server, &resp->u.data.proc_mem, pid);
resp->offset = _offset_data (proc_mem);
break;
#endif
#if GLIBTOP_SUID_PROC_TIME
case GLIBTOP_CMND_PROC_TIME:
memcpy (&pid, parameter, sizeof (pid_t));
retval = glibtop_get_proc_time_p
(server, &resp->u.data.proc_time, pid);
resp->offset = _offset_data (proc_time);
break;
case GLIBTOP_CMND_PROC_TIME:
memcpy (&pid, parameter, sizeof (pid_t));
retval = glibtop_get_proc_time_p
(server, &resp->u.data.proc_time, pid);
resp->offset = _offset_data (proc_time);
break;
#endif
#if GLIBTOP_SUID_PROC_SIGNAL
case GLIBTOP_CMND_PROC_SIGNAL:
memcpy (&pid, parameter, sizeof (pid_t));
retval = glibtop_get_proc_signal_p
(server, &resp->u.data.proc_signal, pid);
resp->offset = _offset_data (proc_signal);
break;
case GLIBTOP_CMND_PROC_SIGNAL:
memcpy (&pid, parameter, sizeof (pid_t));
retval = glibtop_get_proc_signal_p
(server, &resp->u.data.proc_signal, pid);
resp->offset = _offset_data (proc_signal);
break;
#endif
#if GLIBTOP_SUID_PROC_KERNEL
case GLIBTOP_CMND_PROC_KERNEL:
memcpy (&pid, parameter, sizeof (pid_t));
retval = glibtop_get_proc_kernel_p
(server, &resp->u.data.proc_kernel, pid);
resp->offset = _offset_data (proc_kernel);
break;
case GLIBTOP_CMND_PROC_KERNEL:
memcpy (&pid, parameter, sizeof (pid_t));
retval = glibtop_get_proc_kernel_p
(server, &resp->u.data.proc_kernel, pid);
resp->offset = _offset_data (proc_kernel);
break;
#endif
#if GLIBTOP_SUID_PROC_SEGMENT
case GLIBTOP_CMND_PROC_SEGMENT:
memcpy (&pid, parameter, sizeof (pid_t));
retval = glibtop_get_proc_segment_p
(server, &resp->u.data.proc_segment, pid);
resp->offset = _offset_data (proc_segment);
break;
case GLIBTOP_CMND_PROC_SEGMENT:
memcpy (&pid, parameter, sizeof (pid_t));
retval = glibtop_get_proc_segment_p
(server, &resp->u.data.proc_segment, pid);
resp->offset = _offset_data (proc_segment);
break;
#endif
#if GLIBTOP_SUID_NETINFO
case GLIBTOP_CMND_NETINFO:
retval = glibtop_get_netinfo_p (server, &resp->u.data.netinfo, parameter, 0);
resp->offset = _offset_data (netload);
break;
case GLIBTOP_CMND_NETINFO:
retval = glibtop_get_netinfo_p (server, &resp->u.data.netinfo, parameter, 0);
resp->offset = _offset_data (netload);
break;
#endif
#if GLIBTOP_SUID_NETLOAD
case GLIBTOP_CMND_NETLOAD:
retval = glibtop_get_netload_p (server, &resp->u.data.netload, parameter, 0, 0);
resp->offset = _offset_data (netload);
break;
case GLIBTOP_CMND_NETLOAD:
retval = glibtop_get_netload_p (server, &resp->u.data.netload, parameter, 0, 0);
resp->offset = _offset_data (netload);
break;
#endif
#if GLIBTOP_SUID_PPP
case GLIBTOP_CMND_PPP:
memcpy (&device, parameter, sizeof (unsigned short));
retval = glibtop_get_ppp_p (server, &resp->u.data.ppp, device);
resp->offset = _offset_data (ppp);
break;
case GLIBTOP_CMND_PPP:
memcpy (&device, parameter, sizeof (unsigned short));
retval = glibtop_get_ppp_p (server, &resp->u.data.ppp, device);
resp->offset = _offset_data (ppp);
break;
#endif
default:
glibtop_error ("Child received unknown command %u",
cmnd->command);
break;
}
default:
glibtop_error ("Child received unknown command %u",
cmnd->command);
break;
}
return retval;
return retval;
}