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source: trunk/libs/mini-libc/stdio.c @ 659

Last change on this file since 659 was 647, checked in by alain, 6 years ago
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File size: 14.9 KB

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1	/*
2	* stdio.c - User level <stdio> library implementation.
3	*
4	* Author Alain Greiner (2016,2017,2018)
5	*
6	* Copyright (c) UPMC Sorbonne Universites
7	*
8	* This file is part of ALMOS-MKH.
9	*
10	* ALMOS-MKH is free software; you can redistribute it and/or modify it
11	* under the terms of the GNU General Public License as published by
12	* the Free Software Foundation; version 2.0 of the License.
13	*
14	* ALMOS-MKH is distributed in the hope that it will be useful, but
15	* WITHOUT ANY WARRANTY; without even the implied warranty of
16	* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
17	* General Public License for more details.
18	*
19	* You should have received a copy of the GNU General Public License
20	* along with ALMOS-MKH; if not, write to the Free Software Foundation,
21	* Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA
22	*/
23
24	#include <stdio.h>
25	#include <hal_shared_types.h>
26	#include <hal_user.h>
27	#include <syscalls_numbers.h>
28	#include <stdarg.h>
29	#include <almosmkh.h>
30	#include <unistd.h>
31	#include <fcntl.h>
32
33	////////////////////////////////////////////////////////////////////////////////////////
34	// stdio library global variables
35	////////////////////////////////////////////////////////////////////////////////////////
36
37	// This user space array registers all FILE descriptors open by a given process
38	FILE open_file_array[MAX_OPEN_FILE_PER_PROCESS]; // array of open files structures
39
40	////////////////////////////////////////////////////////////////////////////////////////
41	// stdio library functions
42	////////////////////////////////////////////////////////////////////////////////////////
43
44	/////////////////////////////
45	int rename( const char * old,
46	const char * new )
47	{
48	return hal_user_syscall( SYS_RENAME,
49	(reg_t)old,
50	(reg_t)new, 0, 0 );
51	}
52
53	////////////////////////////////////////////////////////////////////////////////////////
54	// This static function analyses the <format> and the <args> to build a formated
55	// string in the buffer defined by <string> and <length>.
56	// It does NOT add a terminating NUL character in the <string buffer>.
57	// If success, it returns the number of bytes actually copied in the string buffer.
58	// It returns -1 in case of illegal format, or if the formated string exceeds the
59	// the length argument.
60	////////////////////////////////////////////////////////////////////////////////////////
61	static int xprintf( char * string,
62	int length,
63	const char * format,
64	va_list * args )
65	{
66	int ps = 0; // index in the string buffer
67
68	#define TO_STREAM(x) do { string[ps] = (x); ps++; if(ps==length) return -1; } while(0);
69
70	xprintf_text:
71
72	while ( *format != 0 )
73	{
74
75	if (*format == '%') // copy argument to string
76	{
77	format++;
78	goto xprintf_arguments;
79	}
80	else // copy one char to string
81	{
82	TO_STREAM( *format );
83	format++;
84	}
85	}
86
87	return ps;
88
89	xprintf_arguments:
90
91	{
92	char buf[30]; // buffer to store the string for one number
93	char * pbuf; // pointer on first char to display
94	unsigned int len = 0; // number of char to display
95	static const char HexaTab[] = "0123456789ABCDEF";
96	unsigned int i;
97
98	// Ignore fields width and precision
99	for ( ; (format >= '0' && format <= '9') \|\| (*format == '.') ; format++ );
100
101	switch (*format)
102	{
103	case ('c'): // char conversion
104	{
105	int val = va_arg( *args, int );
106	buf[0] = val;
107	pbuf = buf;
108	len = 1;
109	break;
110	}
111	case ('d'): // decimal signed integer
112	{
113	int val = va_arg( *args, int );
114	if (val < 0)
115	{
116	TO_STREAM( '-' );
117	val = -val;
118	}
119	for(i = 0; i < 10; i++)
120	{
121
122	buf[9 - i] = HexaTab[val % 10];
123	if (!(val /= 10)) break;
124	}
125	len = i + 1;
126	pbuf = &buf[9 - i];
127	break;
128	}
129	case ('u'): // decimal unsigned integer
130	{
131	unsigned int val = va_arg( *args, unsigned int );
132	for(i = 0; i < 10; i++)
133	{
134	buf[9 - i] = HexaTab[val % 10];
135	if (!(val /= 10)) break;
136	}
137	len = i + 1;
138	pbuf = &buf[9 - i];
139	break;
140	}
141	case ('x'): // 32 bits hexadecimal
142	case ('l'): // 64 bits hexadecimal
143	{
144	unsigned int imax;
145	unsigned long long val;
146
147	if ( *format == 'l' ) // 64 bits
148	{
149	val = va_arg( *args, unsigned long long);
150	imax = 16;
151	}
152	else // 32 bits
153	{
154	val = va_arg( *args, unsigned int);
155	imax = 8;
156	}
157
158	TO_STREAM( '0' );
159	TO_STREAM( 'x' );
160
161	for(i = 0; i < imax; i++)
162	{
163	buf[(imax-1) - i] = HexaTab[val % 16];
164	if (!(val /= 16)) break;
165	}
166	len = i + 1;
167	pbuf = &buf[(imax-1) - i];
168	break;
169	}
170	case ('s'): /* string */
171	{
172	char* str = va_arg( args, char );
173	while (str[len]) { len++; }
174	pbuf = str;
175	break;
176	}
177	case ('f'): // IEEE754 64 bits
178	// integer part : up to 10 decimal digits
179	// decimal part : 9 decimal digits
180	{
181	union
182	{
183	double d;
184	unsigned long long ull;
185	} val;
186
187	val.d = va_arg( *args, double );
188
189	unsigned long long mantisse;
190	mantisse = val.ull & 0xFFFFFFFFFFFFFULL; // mantisse
191
192	unsigned int exp;
193	exp = (unsigned int)((val.ull & 0x7FF0000000000000ULL) >> 52); // exp
194
195	if (exp == 0x7FF) // special values
196	{
197	if (mantisse & 0xFFFFFFFFFFFFFULL) // Not a Number
198	{
199	buf[0] = 'N';
200	buf[1] = 'a';
201	buf[2] = 'N';
202	len = 3;
203	pbuf = buf;
204	}
205	else // infinite
206	{
207	// inf
208	buf[0] = (val.ull & 0x8000000000000000ULL) ? '-' : '+';
209	buf[1] = 'i';
210	buf[2] = 'n';
211	buf[3] = 'f';
212	len = 4;
213	pbuf = buf;
214	}
215	break;
216	}
217
218	// display sign & analyse overflow
219	unsigned int overflow = 0;
220	if (val.ull & 0x8000000000000000ULL) // negative
221	{
222	TO_STREAM( '-' );
223	val.d = val.d * -1;
224	if( val.d < -9999999999.0) overflow = 1;
225	}
226	else // positive
227	{
228	TO_STREAM( '+' );
229	if( val.d > 9999999999.0) overflow = 1;
230	}
231
232	// check overflow caused by the 10.9 format
233	if ( overflow )
234	{
235	buf[0] = 'o';
236	buf[1] = 'v';
237	buf[2] = 'r';
238	len = 3;
239	pbuf = buf;
240	break;
241	}
242
243	// compute integer & decimal parts
244	unsigned int intp; // integer part
245	unsigned int decp; // decimal part
246	intp = (unsigned int)val.d;
247	val.d -= (double)intp;
248	decp = (unsigned int)(val.d * 1000000000);
249
250	// display decimal value in 10.9 format
251	for(i = 0; i < 10; i++)
252	{
253	buf[9 - i] = HexaTab[intp % 10];
254	if (!(intp /= 10)) break;
255	}
256	pbuf = &buf[9 - i];
257	len = i+11;
258	buf[10] = '.';
259	for(i = 0; i < 9; i++)
260	{
261	buf[19 - i] = HexaTab[decp % 10];
262	decp /= 10;
263	}
264	break;
265	}
266	default: // unsupported argument type
267	{
268	return -1;
269	}
270	} // end switch on argument type
271
272	format++;
273
274	// copy argument to string
275	for( i = 0 ; i < len ; i++ )
276	{
277	TO_STREAM( pbuf[i] );
278	}
279
280	goto xprintf_text;
281	}
282	} // end xprintf()
283
284	//////////////////////////////////////
285	int printf( const char * format, ... )
286	{
287	char string[4096];
288	va_list args;
289	unsigned int count;
290
291	va_start( args, format );
292	count = xprintf( string , 4095 , format , &args );
293	va_end( args );
294
295	if ( count == 0xFFFFFFFF )
296	{
297	display_string( "printf : xprintf failure" );
298	return -1;
299	}
300	else
301	{
302	string[count] = 0;
303
304	return write( 1 , &string , count );
305	}
306	} // end printf()
307
308	///////////////////
309	int getchar( void )
310	{
311	char byte;
312
313	if ( read( 0 , &byte , 1 ) != 1 ) return 0;
314	else return (int)byte;
315	}
316
317	////////////////////
318	int putchar( int c )
319	{
320	char byte = (char)c;
321
322	if( write( 1 , &byte , 1 ) != 1 ) return 0;
323	else return c;
324	}
325
326	///////////////////////////////////////
327	int snprintf( char * string,
328	unsigned int length,
329	const char * format, ... )
330	{
331	va_list args;
332	unsigned int count;
333
334	va_start( args, format );
335	count = xprintf( string , (int)length , format , &args );
336	va_end( args );
337
338	if( count < length ) string[count] = 0;
339
340	return count;
341	} // end snprintf()
342
343	////////////////////////////////////
344	FILE * fopen( const char * pathname,
345	const char * mode )
346	{
347	//TODO handle the "mode" argument
348	if( mode != NULL )
349	{
350	printf("\n[%s] error : the mode argument must be NULL\n", __FUNCTION__ );
351	return NULL;
352	}
353
354	// get a file descriptor from kernel
355	int fd = open( pathname,
356	O_CREAT \| O_RDWR,
357	0 );
358
359	if( fd < 0 )
360	{
361	printf("\n[%s] error : file <%s> not found\n", __FUNCTION__ , pathname );
362	return NULL;
363	}
364	if( fd > MAX_OPEN_FILE_PER_PROCESS )
365	{
366	printf("\n[%s] error : not enough space for file <%s>\n", __FUNCTION__ , pathname );
367	return NULL;
368	}
369
370	// register stream in open_file_array[]
371	open_file_array[fd].fd = fd;
372	open_file_array[fd].key = VALID_OPEN_FILE;
373
374	return &open_file_array[fd];
375
376	} // end fopen()
377
378	///////////////////////////
379	int fclose( FILE * stream )
380	{
381	// check stream valid
382	if( stream->key != VALID_OPEN_FILE ) return EOF;
383
384	// get file descriptor from stream pointer
385	int fd = stream->fd;
386
387	// remove stream from user open_file_array[]
388	open_file_array[fd].key = 0;
389
390	// close the kernel file descriptor
391	if( close( fd ) )
392	{
393	printf("\n[%s] error : cannot close file %d\n", __FUNCTION__ , fd );
394	return -1;
395	}
396
397	return 0;
398
399	} // end fclose()
400
401	//////////////////////////////////////////
402	unsigned int fread( void * buffer,
403	unsigned int size,
404	unsigned int nitems,
405	FILE * stream )
406	{
407	// check stream valid
408	if( stream->key != VALID_OPEN_FILE ) return EOF;
409
410	// get file descriptor from stream pointer
411	int fd = stream->fd;
412
413	// compute nbytes
414	int nbytes = size * nitems;
415
416	if( hal_user_syscall( SYS_READ,
417	(reg_t)fd,
418	(reg_t)buffer,
419	(reg_t)nbytes, 0 ) == nbytes ) return nitems;
420	else return 0;
421
422	} // end fread()
423
424	//////////////////////////////////////////
425	unsigned int fwrite( void * buffer,
426	unsigned int size,
427	unsigned int nitems,
428	FILE * stream )
429	{
430	// check stream valid
431	if( stream->key != VALID_OPEN_FILE ) return EOF;
432
433	// get file descriptor from stream pointer
434	int fd = stream->fd;
435
436	// compute nbytes
437	int nbytes = size * nitems;
438
439	if( hal_user_syscall( SYS_WRITE,
440	(reg_t)fd,
441	(reg_t)buffer,
442	(reg_t)nbytes, 0 ) == nbytes ) return nitems;
443	else return 0;
444
445	} // end fwrite()
446
447	//////////////////////////////////////////
448	unsigned int fseek( FILE * stream,
449	unsigned int offset,
450	int whence )
451	{
452	// check stream valid
453	if( stream->key != VALID_OPEN_FILE ) return -1;
454
455	// get file descriptor from stream pointer
456	int fd = stream->fd;
457
458	return( hal_user_syscall( SYS_LSEEK,
459	(reg_t)fd,
460	(reg_t)offset,
461	(reg_t)whence, 0 ) );
462	} // end fseek()
463
464	/////////////////////////////////
465	int fprintf( FILE * stream,
466	const char * format, ... )
467	{
468	char string[4096];
469	va_list args;
470	int count;
471	int writen;
472	int fd;
473
474	// check stream valid
475	if( stream->key != VALID_OPEN_FILE )
476	{
477	printf("\n[error in %s] stream %x non registered\n", __FUNCTION__, stream );
478	return -1;
479	}
480
481	va_start( args, format );
482	count = xprintf( string , 4095 , format , &args );
483	va_end( args );
484
485	// check format
486	if ( count < 0 )
487	{
488	printf("\n[error in %s] unsupported format %s\n", __FUNCTION__, format );
489	return -1;
490	}
491
492	// get file descriptor from file pointer
493	fd = stream->fd;
494
495	// set terminating NUL
496	string[count] = 0;
497
498	// copy string to file
499	writen = write( fd , &string , count );
500
501	// check write
502	if(writen != count )
503	{
504	printf("\n[error in %s] cannot write to stream %s\n", __FUNCTION__, stream );
505	return -1;
506	}
507
508	return writen;
509
510	} // end fprintf()
511
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