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source: trunk/user/init/init.c @ 637

Last change on this file since 637 was 635, checked in by alain, 5 years ago

This version is a major evolution: The physical memory allocators,
defined in the kmem.c, ppm.c, and kcm.c files have been modified
to support remote accesses. The RPCs that were previously user
to allocate physical memory in a remote cluster have been removed.
This has been done to cure a dead-lock in case of concurrent page-faults.

This version 2.2 has been tested on a (4 clusters / 2 cores per cluster)
TSAR architecture, for both the "sort" and the "fft" applications.

File size: 6.1 KB

Line
1	///////////////////////////////////////////////////////////////////////////////////////
2	// File : init.c
3	// Date : January 2018
4	// Author : Alain Greiner
5	///////////////////////////////////////////////////////////////////////////////////////
6	// This single thread application implement the "init" process for ALMOS-MKH.
7	// It uses the fork/exec syscalls to create N KSH child processes
8	// (one child process per user terminal).
9	// Then calls the wait() function to block, and reactivate any child KSH process
10	// that has been deleted, using a new fork/exec.
11	// It includes the hard_config.h file to get th NB_TXT_CHANNELS parameter.
12	///////////////////////////////////////////////////////////////////////////////////////
13
14	#include <hard_config.h>
15	#include <unistd.h>
16	#include <stdlib.h>
17	#include <stdio.h>
18	#include <pthread.h>
19	#include <almosmkh.h>
20	#include <hal_macros.h>
21	#include <sys/wait.h>
22
23	#define DEBUG_PROCESS_INIT 0
24
25	// TODO improve the get_config() syscall to return nb_txt_channels
26	// and avoid the hard_config include [AG]
27
28	////////////////
29	int main( void )
30	{
31	int i;
32	int ret_fork; // fork return value
33	int ret_exec; // exec return value
34	int rcv_pid; // pid received from the wait syscall
35	int status; // used by the wait syscall
36	char string[64]; // log messages on kernel TXT0
37
38	#if DEBUG_PROCESS_INIT
39	display_string("[init] process enters");
40	#endif
41
42	// check number of TXT channels
43	if( NB_TXT_CHANNELS < 2 )
44	{
45	printf("\n[ERROR] in init process : number of TXT channels must be larger than 1\n");
46	exit( EXIT_FAILURE );
47	}
48
49	// create the KSH processes (one per user terminal)
50	for( i = 1 ; i < NB_TXT_CHANNELS ; i++ )
51	{
52	// INIT process fork process CHILD[i]
53	ret_fork = fork();
54
55	if( ret_fork < 0 ) // error in fork
56	{
57	// INIT display error message
58	snprintf( string , 64 , "[init ERROR] cannot fork child[%d] => suicide" , i );
59	display_string( string );
60
61	// INIT suicide
62	exit( 0 );
63	}
64	else if( ret_fork == 0 ) // we are in CHILD[i] process
65	{
66	// CHILD[i] process exec process KSH[i]
67	ret_exec = execve( "/bin/user/ksh.elf" , NULL , NULL );
68
69	if ( ret_exec ) // error in exec
70	{
71	// CHILD[i] display error message
72	snprintf( string , 64 ,
73	"[init ERROR] CHILD[%d] cannot exec KSH / ret_exec = %d" , i , ret_exec );
74	display_string( string );
75	}
76	}
77	else // we are in INIT process
78	{
79	// INIT display CHILD[i] process PID
80	snprintf( string , 64 , "[init] (pid 0x1) created ksh[%d] (pid %x)", i , ret_fork );
81	display_string( string );
82
83	// wait signal from KSH[i]
84	pause();
85	}
86	}
87
88	#if DEBUG_PROCESS_INIT
89	{
90	unsigned int x_size; // number of clusters in a row
91	unsigned int y_size; // number of clusters in a column
92	unsigned int ncores; // number of cores per cluster
93	unsigned int x; // cluster x coordinate
94	unsigned int y; // cluster y coordinate
95	unsigned int cxy; // cluster identifier
96	unsigned int lid; // core local index
97
98	// get hardware config
99	get_config( &x_size , &y_size , &ncores );
100
101	// INIT displays processes and threads in all clusters
102	for( x = 0 ; x < x_size ; x++ )
103	{
104	for( y = 0 ; y < y_size ; y++ )
105	{
106	cxy = HAL_CXY_FROM_XY( x , y );
107	display_cluster_processes( cxy , 0 );
108	for( lid = 0 ; lid < ncores ; lid++ )
109	{
110	display_sched( cxy , lid );
111	}
112	}
113	}
114	}
115	#endif
116
117	// This loop detects the termination of the KSH[i] processes,
118	// and recreate a new KSH[i] process when required.
119	while( 1 )
120	{
121	// block on child processes termination
122	rcv_pid = wait( &status );
123
124	if( WIFSTOPPED( status ) ) // stopped => unblock it
125	{
126	// display string to report unexpected KSH process block
127	snprintf( string , 64 , "[init] KSH process %x stopped => unblock it" , rcv_pid );
128	display_string( string );
129
130	// TODO : unblock KSH [AG]
131
132	} // end KSH stopped handling
133
134	if( WIFSIGNALED( status ) \|\| WIFEXITED( status ) ) // killed => recreate it
135	{
136	// display string to report KSH process termination
137	snprintf( string , 64 , "[init] KSH process %x terminated => recreate", rcv_pid );
138	display_string( string );
139
140	// INIT process fork a new CHILD process
141	ret_fork = fork();
142
143	if( ret_fork < 0 ) // error in fork
144	{
145	// INIT display error message
146	snprintf( string , 64 , "[init ERROR] cannot fork child => suicide");
147	display_string( string );
148
149	// INIT suicide
150	exit( 0 );
151	}
152	else if( ret_fork == 0 ) // we are in CHILD process
153	{
154	// CHILD process exec process KSH
155	ret_exec = execve( "/bin/user/ksh.elf" , NULL , NULL );
156
157	if ( ret_exec ) // error in exec
158	{
159	// CHILD display error message on TXT0 terminal
160	snprintf( string , 64 , "[init ERROR] CHILD cannot exec KSH" );
161	display_string( string );
162	}
163	}
164	else // we are in INIT process
165	{
166	// INIT display new KSH process PID
167	snprintf( string , 64 , "[init] re-created KSH / pid = %x", ret_fork );
168	display_string( string );
169	}
170	} // end KSH kill handling
171
172	} // end while waiting KSH[i] termination
173
174	} // end main()
175

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