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source: soft/giet_vm/sys/common.c @ 168

Last change on this file since 168 was 166, checked in by alain, 12 years ago
Introducing support for IOMMU
File size: 10.1 KB

Rev	Line
[158]	1	///////////////////////////////////////////////////////////////////////////////////
	2	// File : common.c
	3	// Date : 01/04/2012
	4	// Author : alain greiner and joel porquet
	5	// Copyright (c) UPMC-LIP6
	6	///////////////////////////////////////////////////////////////////////////////////
	7	// The common.c and common.h files are part of the GIET nano-kernel.
	8	// They contains various utilities functions.
	9	///////////////////////////////////////////////////////////////////////////////////
	10
[165]	11	#include <sys_handler.h>
[158]	12	#include <common.h>
	13	#include <drivers.h>
	14	#include <stdarg.h>
	15
	16	////////////////////////////////////////////////////////////////////////////
[165]	17	// _get_lock()
	18	////////////////////////////////////////////////////////////////////////////
	19	inline void _get_lock( unsigned int* plock )
	20	{
	21	register unsigned int delay = (_proctime() & 0xF) << 4;
	22
	23	asm volatile (
	24	"_lock_llsc: \n"
	25	"ll $2, 0(%0) \n" /* $2 <= _ioc_lock current value */
	26	"bnez $2, _lock_delay \n" /* delay if _ioc_lock already taken */
	27	"li $3, 1 \n" /* $3 <= argument for sc */
	28	"sc $3, 0(%0) \n" /* try to set _ioc_lock */
	29	"bnez $3, _lock_ok \n" /* exit if atomic */
	30	"_lock_delay: \n"
	31	"move $4, %1 \n" /* $4 <= delay */
	32	"_lock_loop: \n"
	33	"addi $4, $4, -1 \n" /* $4 <= $4 - 1 */
	34	"beqz $4, _lock_loop \n" /* test end delay */
	35	"j _lock_llsc \n" /* retry */
	36	"_lock_ok: \n"
	37	:
	38	:"r"(plock), "r"(delay)
	39	:"$2", "$3", "$4");
	40	}
	41
	42	////////////////////////////////////////////////////////////////////////////
	43	// _release_lock()
	44	////////////////////////////////////////////////////////////////////////////
	45	inline void _release_lock( unsigned int* plock )
	46	{
	47	*plock = 0;
	48	}
	49
	50	////////////////////////////////////////////////////////////////////////////
[158]	51	// _puts()
	52	// used for system code debug / it uses TTY0
	53	////////////////////////////////////////////////////////////////////////////
	54	void _puts(char *buffer)
	55	{
	56	unsigned int* tty_address = (unsigned int*)&seg_tty_base;
	57	unsigned int n;
	58
	59	for ( n=0; n<100; n++)
	60	{
	61	if (buffer[n] == 0) break;
	62	tty_address[0] = (unsigned int)buffer[n];
	63	}
	64	}
	65	////////////////////////////////////////////////////////////////////////////
	66	// _putw()
	67	// used for system code debug / it uses TTY0
	68	////////////////////////////////////////////////////////////////////////////
	69	void _putw(unsigned int val)
	70	{
	71	static const char HexaTab[] = "0123456789ABCDEF";
	72	char buf[11];
	73	unsigned int c;
	74
	75	buf[0] = '0';
	76	buf[1] = 'x';
	77	buf[10] = 0;
	78
	79	for ( c = 0 ; c < 8 ; c++ )
	80	{
	81	buf[9-c] = HexaTab[val&0xF];
	82	val = val >> 4;
	83	}
	84	_puts(buf);
	85	}
	86	////////////////////////////////////////////////////////////////////////////
	87	// _strncmp()
	88	// compare two strings s1 & s2 (no more than n characters)
	89	////////////////////////////////////////////////////////////////////////////
	90	unsigned int _strncmp(const char* s1,
	91	const char* s2,
	92	unsigned int n)
	93	{
	94	unsigned int i;
	95	for ( i=0 ; i<n ; i++)
	96	{
	97	if ( s1[i] != s2[i] ) return 1;
	98	if ( s1[i] == 0 ) break;
	99	}
	100	return 0;
	101	}
	102	////////////////////////////////////////////////////////////////////////////
	103	// _dcache_buf_invalidate()
	104	// Invalidate all data cache lines corresponding to a memory
	105	// buffer (identified by an address and a size).
	106	////////////////////////////////////////////////////////////////////////////
	107	void _dcache_buf_invalidate(const void *buffer,
	108	unsigned int size)
	109	{
	110	unsigned int i;
	111	unsigned int tmp;
	112	unsigned int line_size;
	113
[166]	114	// compute data cache line size based on config register (bits 12:10)
[158]	115	asm volatile("mfc0 %0, $16, 1" : "=r"(tmp));
	116	tmp = ((tmp>>10) & 0x7);
	117	line_size = 2 << tmp;
	118
[166]	119	// iterate on cache lines
[158]	120	for (i = 0; i < size; i += line_size)
	121	{
	122	asm volatile(
	123	" cache %0, %1"
	124	::"i" (0x11), "R" (((unsigned char)buffer+i))
	125	);
	126	}
	127	}
	128	///////////////////////////////////////////////////////////////////////////////////
	129	// _itoa_dec()
	130	// Convert a 32-bit unsigned integer to a string of ten decimal characters.
	131	///////////////////////////////////////////////////////////////////////////////////
	132	void _itoa_dec(unsigned int val, char *buf)
	133	{
	134	const static char dectab[] = "0123456789";
	135	unsigned int i;
	136
	137	for (i = 0; i < 10; i++)
	138	{
	139	if ((val != 0) \|\| (i == 0))
	140	buf[9-i] = dectab[val % 10];
	141	else
	142	buf[9-i] = 0x20;
	143	val /= 10;
	144	}
	145	}
	146	///////////////////////////////////////////////////////////////////////////////////
	147	// _itoa_hex()
	148	// Convert a 32-bit unsigned integer to a string of eight hexadecimal characters.
	149	///////////////////////////////////////////////////////////////////////////////////
	150	void _itoa_hex(unsigned int val, char *buf)
	151	{
	152	const static char hexatab[] = "0123456789ABCD";
	153	unsigned int i;
	154
	155	for (i = 0; i < 8; i++)
	156	{
	157	buf[7-i] = hexatab[val % 16];
	158	val /= 16;
	159	}
	160	}
	161	///////////////////////////////////////////////////////////////////////////////////
[166]	162	// _get_ptpr()
	163	// Access CP2 and returns PTPR register.
	164	///////////////////////////////////////////////////////////////////////////////////
	165	inline unsigned int _get_ptpr()
	166	{
	167	unsigned int ret;
	168	asm volatile("mfc2 %0, $0" : "=r"(ret));
	169	return ret;
	170	}
	171	///////////////////////////////////////////////////////////////////////////////////
[158]	172	// _get_epc()
	173	// Access CP0 and returns EPC register.
	174	///////////////////////////////////////////////////////////////////////////////////
	175	inline unsigned int _get_epc()
	176	{
	177	unsigned int ret;
	178	asm volatile("mfc0 %0, $14" : "=r"(ret));
	179	return ret;
	180	}
	181	///////////////////////////////////////////////////////////////////////////////////
	182	// _get_bar()
	183	// Access CP0 and returns BAR register.
	184	///////////////////////////////////////////////////////////////////////////////////
	185	inline unsigned int _get_bar()
	186	{
	187	unsigned int ret;
	188	asm volatile("mfc0 %0, $8" : "=r"(ret));
	189	return ret;
	190	}
	191	///////////////////////////////////////////////////////////////////////////////////
	192	// _get_cr()
	193	// Access CP0 and returns CR register.
	194	///////////////////////////////////////////////////////////////////////////////////
	195	inline unsigned int _get_cause()
	196	{
	197	unsigned int ret;
	198	asm volatile("mfc0 %0, $13" : "=r"(ret));
	199	return ret;
	200	}
[165]	201
[158]	202	///////////////////////////////////////////////////////////////////////////////////
	203	// _it_mask()
	204	// Access CP0 and mask IRQs
	205	///////////////////////////////////////////////////////////////////////////////////
	206	inline void _it_mask()
	207	{
	208	asm volatile(
[165]	209	"lui $27, 0xFFFF \n"
	210	"ori $27, $27, 0xFFFE \n"
	211	"mfc0 $26, $12 \n"
	212	"and $26, $26, $27 \n"
	213	"mtc0 $26, $12 \n"
	214	::: "$26", "$27"
[158]	215	);
	216	}
	217	///////////////////////////////////////////////////////////////////////////////////
	218	// _it_enable()
	219	// Access CP0 and enable IRQs
	220	///////////////////////////////////////////////////////////////////////////////////
	221	inline void _it_enable()
	222	{
	223	asm volatile(
[165]	224	"mfc0 $26, $12 \n"
	225	"ori $26, $26, 1 \n"
	226	"mtc0 $26, $12 \n"
	227	::: "$26"
[158]	228	);
	229	}
[165]	230
[158]	231	/////////////////////////////////////////////////////////////////////////////
	232	// access functions to mapping_info data structure
	233	/////////////////////////////////////////////////////////////////////////////
	234	mapping_cluster_t* _get_cluster_base( mapping_header_t* header )
	235	{
	236	return (mapping_cluster_t) ((char)header +
	237	MAPPING_HEADER_SIZE);
	238	}
	239	/////////////////////////////////////////////////////////////////////////////
	240	mapping_pseg_t* _get_pseg_base( mapping_header_t* header )
	241	{
	242	return (mapping_pseg_t) ((char)header +
	243	MAPPING_HEADER_SIZE +
	244	MAPPING_CLUSTER_SIZE*header->clusters);
	245	}
	246	/////////////////////////////////////////////////////////////////////////////
	247	mapping_vspace_t* _get_vspace_base( mapping_header_t* header )
	248	{
	249	return (mapping_vspace_t) ((char)header +
	250	MAPPING_HEADER_SIZE +
	251	MAPPING_CLUSTER_SIZE*header->clusters +
	252	MAPPING_PSEG_SIZE*header->psegs);
	253	}
	254	/////////////////////////////////////////////////////////////////////////////
	255	mapping_vseg_t* _get_vseg_base( mapping_header_t* header )
	256	{
	257	return (mapping_vseg_t) ((char)header +
	258	MAPPING_HEADER_SIZE +
	259	MAPPING_CLUSTER_SIZE*header->clusters +
	260	MAPPING_PSEG_SIZE*header->psegs +
	261	MAPPING_VSPACE_SIZE*header->vspaces);
	262	}
	263	/////////////////////////////////////////////////////////////////////////////
[160]	264	mapping_vobj_t* _get_vobj_base( mapping_header_t* header )
	265	{
	266	return (mapping_vobj_t) ((char)header +
	267	MAPPING_HEADER_SIZE +
	268	MAPPING_CLUSTER_SIZE*header->clusters +
	269	MAPPING_PSEG_SIZE*header->psegs +
	270	MAPPING_VSPACE_SIZE*header->vspaces +
	271	MAPPING_VSEG_SIZE*header->vsegs );
	272	}
	273	/////////////////////////////////////////////////////////////////////////////
[158]	274	mapping_task_t* _get_task_base( mapping_header_t* header )
	275	{
	276	return (mapping_task_t) ((char)header +
	277	MAPPING_HEADER_SIZE +
	278	MAPPING_CLUSTER_SIZE*header->clusters +
	279	MAPPING_PSEG_SIZE*header->psegs +
	280	MAPPING_VSPACE_SIZE*header->vspaces +
[160]	281	MAPPING_VOBJ_SIZE*header->vobjs +
[158]	282	MAPPING_VSEG_SIZE*header->vsegs);
	283	}
	284
[160]	285

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