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source: trunk/user/init/init.c @ 623

Last change on this file since 623 was 623, checked in by alain, 5 years ago
Introduce three new types of vsegs (KCODE,KDATA,KDEV) to map the kernel vsegs in the process VSL and GPT. This now used by both the TSAR and the I86 architectures.
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] 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 );
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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