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source: soft/giet_vm/giet_python/mapping.py @ 709

Last change on this file since 709 was 709, checked in by alain, 9 years ago

Major release: Change the task model to implement the POSIX threads API.

The shell "exec" and "kill" commands can be used to activate/de-activate the applications.
The "pause", "resume", and "context" commands can be used to stop, restart, a single thtead or to display the thread context.

This version has been tested on the following multi-threaded applications,
that have been modified to use the POSIX threads:

classif
convol
transpose
gameoflife
raycast

Property svn:executable set to *

File size: 101.9 KB

Line
1	#!/usr/bin/env python
2
3	import sys
4
5	###################################################################################
6	# file : giet_mapping.py
7	# date : april 2014
8	# author : Alain Greiner
9	###################################################################################
10	# This file contains the classes required to define a mapping for the GIET_VM.
11	# - A 'Mapping' contains a set of 'Cluster' (hardware architecture)
12	# a set of 'Vseg' (kernel global virtual segments)
13	# a set of 'Vspace' (one or several user applications)
14	# - A 'Cluster' contains a set of 'Pseg' (physical segments in cluster)
15	# a set of 'Proc' (processors in cluster)
16	# a set of 'Periph' (peripherals in cluster)
17	# - A 'Vspace' contains a set of 'Vseg' (user virtual segments)
18	# a set of 'Thread' (POSIX thread)
19	# - A 'Periph' contains a set of 'Irq' (only for XCU and PIC types )
20	###################################################################################
21	# Implementation Note
22	# The objects used to describe a mapping are distributed in the PYTHON structure:
23	# For example the psegs set is split in several subsets (one subset per cluster),
24	# or the threads set is split in several subsets (one subset per vspace), etc...
25	# In the C binary data structure used by the giet_vm, all objects of same type
26	# are stored in a linear array (one single array for all psegs for example).
27	# For all objects, we compute and store in the PYTHON object a "global index"
28	# corresponding to the index in this global array, and this index can be used as
29	# a pseudo-pointer to identify a specific object of a given type.
30	###################################################################################
31
32	###################################################################################
33	# Various constants
34	###################################################################################
35
36	PADDR_WIDTH = 40 # number of bits for physical address
37	X_WIDTH = 4 # number of bits encoding x coordinate
38	Y_WIDTH = 4 # number of bits encoding y coordinate
39	P_WIDTH = 4 # number of bits encoding local proc_id
40	VPN_ANTI_MASK = 0x00000FFF # mask vaddr to get offset in small page
41	BPN_MASK = 0xFFE00000 # mask vaddr to get the BPN in big page
42	PERI_INCREMENT = 0x10000 # virtual address increment for replicated vsegs
43	RESET_ADDRESS = 0xBFC00000 # Processor wired boot_address
44	MAPPING_SIGNATURE = 0xDACE2014 # Magic number indicating a valid C BLOB
45
46	###################################################################################
47	# These lists must be consistent with values defined in
48	# mapping_info.h / xml_driver.c /xml_parser.c
49	###################################################################################
50	PERIPHTYPES = [
51	'CMA',
52	'DMA',
53	'FBF',
54	'IOB',
55	'IOC',
56	'MMC',
57	'MWR',
58	'NIC',
59	'ROM',
60	'SIM',
61	'TIM',
62	'TTY',
63	'XCU',
64	'PIC',
65	'DROM',
66	]
67
68	IOCSUBTYPES = [
69	'BDV',
70	'HBA',
71	'SDC',
72	'SPI',
73	]
74
75	MWRSUBTYPES = [
76	'GCD',
77	'DCT',
78	'CPY',
79	]
80
81	###################################################################################
82	# These lists must be consistent with values defined in
83	# irq_handler.c / irq_handler.h / xml_driver.c / xml_parser.c
84	###################################################################################
85	IRQTYPES = [
86	'HWI',
87	'WTI',
88	'PTI',
89	]
90
91	ISRTYPES = [
92	'ISR_DEFAULT',
93	'ISR_TICK',
94	'ISR_TTY_RX',
95	'ISR_TTY_TX',
96	'ISR_BDV',
97	'ISR_TIMER',
98	'ISR_WAKUP',
99	'ISR_NIC_RX',
100	'ISR_NIC_TX',
101	'ISR_CMA',
102	'ISR_MMC',
103	'ISR_DMA',
104	'ISR_SDC',
105	'ISR_MWR',
106	'ISR_HBA',
107	'ISR_SPI',
108	]
109
110	VSEGTYPES = [
111	'ELF',
112	'BLOB',
113	'PTAB',
114	'PERI',
115	'BUFFER',
116	'SCHED',
117	'HEAP',
118	]
119
120	VSEGMODES = [
121	'____',
122	'___U',
123	'__W_',
124	'__WU',
125	'_X__',
126	'_X_U',
127	'_XW_',
128	'_XWU',
129	'C___',
130	'C__U',
131	'C_W_',
132	'C_WU',
133	'CX__',
134	'CX_U',
135	'CXW_',
136	'CXWU',
137	]
138
139	PSEGTYPES = [
140	'RAM',
141	'PERI',
142	]
143
144	###################################################################################
145	class Mapping( object ):
146	###################################################################################
147	def __init__( self,
148	name, # mapping name
149	x_size, # number of clusters in a row
150	y_size, # number of clusters in a column
151	nprocs, # max number of processors per cluster
152	x_width = X_WIDTH, # number of bits encoding x coordinate
153	y_width = Y_WIDTH, # number of bits encoding y coordinate
154	p_width = P_WIDTH, # number of bits encoding lpid
155	paddr_width = PADDR_WIDTH, # number of bits for physical address
156	coherence = 1, # hardware cache coherence if non-zero
157	irq_per_proc = 1, # number or IRQs from XCU to processor
158	use_ramdisk = False, # use ramdisk when true
159	x_io = 0, # cluster_io x coordinate
160	y_io = 0, # cluster_io y coordinate
161	peri_increment = PERI_INCREMENT, # address increment for globals
162	reset_address = RESET_ADDRESS, # Processor wired boot_address
163	ram_base = 0, # RAM physical base in cluster[0,0]
164	ram_size = 0 ): # RAM size per cluster (bytes)
165
166	assert ( x_size <= (1<<X_WIDTH) )
167	assert ( y_size <= (1<<Y_WIDTH) )
168	assert ( nprocs <= (1<<P_WIDTH) )
169
170	self.signature = MAPPING_SIGNATURE
171	self.name = name
172	self.name = name
173	self.paddr_width = paddr_width
174	self.coherence = coherence
175	self.x_size = x_size
176	self.y_size = y_size
177	self.nprocs = nprocs
178	self.x_width = x_width
179	self.y_width = y_width
180	self.p_width = p_width
181	self.irq_per_proc = irq_per_proc
182	self.use_ramdisk = use_ramdisk
183	self.x_io = x_io
184	self.y_io = y_io
185	self.peri_increment = peri_increment
186	self.reset_address = reset_address
187	self.ram_base = ram_base
188	self.ram_size = ram_size
189
190	self.total_vspaces = 0
191	self.total_globals = 0
192	self.total_psegs = 0
193	self.total_vsegs = 0
194	self.total_threads = 0
195	self.total_procs = 0
196	self.total_irqs = 0
197	self.total_periphs = 0
198
199	self.clusters = []
200	self.globs = []
201	self.vspaces = []
202
203	for x in xrange( self.x_size ):
204	for y in xrange( self.y_size ):
205	cluster = Cluster( x , y )
206	cluster.index = (x * self.y_size) + y
207	self.clusters.append( cluster )
208
209	return
210
211	########################## add a ram pseg in a cluster
212	def addRam( self,
213	name, # pseg name
214	base, # pseg base address
215	size ): # pseg length (bytes)
216
217	# computes cluster index and coordinates from the base address
218	paddr_lsb_width = self.paddr_width - self.x_width - self.y_width
219	cluster_xy = base >> paddr_lsb_width
220	x = cluster_xy >> (self.y_width);
221	y = cluster_xy & ((1 << self.y_width) - 1)
222	cluster_id = (x * self.y_size) + y
223
224	assert (base & VPN_ANTI_MASK) == 0
225
226	assert (x < self.x_size) and (y < self.y_size)
227
228	assert ( (base & ((1<<paddr_lsb_width)-1)) == self.ram_base )
229
230	assert ( size == self.ram_size )
231
232	# add one pseg in the mapping
233	pseg = Pseg( name, base, size, x, y, 'RAM' )
234	self.clusters[cluster_id].psegs.append( pseg )
235	pseg.index = self.total_psegs
236	self.total_psegs += 1
237
238	return pseg
239
240	########################## add a peripheral and the associated pseg in a cluster
241	def addPeriph( self,
242	name, # associated pseg name
243	base, # associated pseg base address
244	size, # associated pseg length (bytes)
245	ptype, # peripheral type
246	subtype = 'NONE', # peripheral subtype
247	channels = 1, # number of channels
248	arg0 = 0, # optional argument (semantic depends on ptype)
249	arg1 = 0, # optional argument (semantic depends on ptype)
250	arg2 = 0, # optional argument (semantic depends on ptype)
251	arg3 = 0 ): # optional argument (semantic depends on ptype)
252
253	# computes cluster index and coordinates from the base address
254	cluster_xy = base >> (self.paddr_width - self.x_width - self.y_width)
255	x = cluster_xy >> (self.y_width);
256	y = cluster_xy & ((1 << self.y_width) - 1)
257	cluster_id = (x * self.y_size) + y
258
259	assert (x < self.x_size) and (y < self.y_size)
260
261	assert (base & VPN_ANTI_MASK) == 0
262
263	assert ptype in PERIPHTYPES
264
265	if (ptype == 'IOC'): assert subtype in IOCSUBTYPES
266	if (ptype == 'MWR'): assert subtype in MWRSUBTYPES
267
268	# add one pseg into mapping
269	pseg = Pseg( name, base, size, x, y, 'PERI' )
270	self.clusters[cluster_id].psegs.append( pseg )
271	pseg.index = self.total_psegs
272	self.total_psegs += 1
273
274	# add one periph into mapping
275	periph = Periph( pseg, ptype, subtype, channels, arg0, arg1, arg2, arg3 )
276	self.clusters[cluster_id].periphs.append( periph )
277	periph.index = self.total_periphs
278	self.total_periphs += 1
279
280	return periph
281
282	################################ add an IRQ in a peripheral
283	def addIrq( self,
284	periph, # peripheral containing IRQ (PIC or XCU)
285	index, # peripheral input port index
286	src, # interrupt source peripheral
287	isrtype, # ISR type
288	channel = 0 ): # channel for multi-channels ISR
289
290	assert isrtype in ISRTYPES
291
292	assert index < 32
293
294	# add one irq into mapping
295	irq = Irq( 'HWI', index , isrtype, channel )
296	periph.irqs.append( irq )
297	irq.index = self.total_irqs
298	self.total_irqs += 1
299
300	# pointer from the source to the interrupt controller peripheral
301	if src.irq_ctrl == None: src.irq_ctrl = periph
302	if src.irq_ctrl != periph:
303	print '[genmap error] in addIrq():'
304	print ' two different interrupt controller for the same peripheral'
305	sys.exit(1)
306
307	return irq
308
309	########################## add a processor in a cluster
310	def addProc( self,
311	x, # cluster x coordinate
312	y, # cluster y coordinate
313	lpid ): # processor local index
314
315	assert (x < self.x_size) and (y < self.y_size)
316
317	cluster_id = (x * self.y_size) + y
318
319	# add one proc into mapping
320	proc = Processor( x, y, lpid )
321	self.clusters[cluster_id].procs.append( proc )
322	proc.index = self.total_procs
323	self.total_procs += 1
324
325	return proc
326
327	############################ add one global vseg into mapping
328	def addGlobal( self,
329	name, # vseg name
330	vbase, # virtual base address
331	length, # vseg length (bytes)
332	mode, # CXWU flags
333	vtype, # vseg type
334	x, # destination x coordinate
335	y, # destination y coordinate
336	pseg, # destination pseg name
337	identity = False, # identity mapping required if true
338	local = False, # only mapped in local PTAB if true
339	big = False, # to be mapped in a big physical page
340	binpath = '' ): # pathname for binary code if required
341
342	# two global vsegs must not overlap if they have different names
343	for prev in self.globs:
344	if ( ((prev.vbase + prev.length) > vbase ) and
345	((vbase + length) > prev.vbase) and
346	(prev.name[0:15] != name[0:15]) ):
347	print '[genmap error] in addGlobal()'
348	print ' global vseg %s overlap %s' % (name, prev.name)
349	print ' %s : base = %x / size = %x' %(name, vbase, length)
350	print ' %s : base = %x / size = %x' %(prev.name, prev.vbase, prev.length)
351	sys.exit(1)
352
353	# add one vseg into mapping
354	vseg = Vseg( name, vbase, length, mode, vtype, x, y, pseg,
355	identity = identity, local = local, big = big, binpath = binpath )
356
357	self.globs.append( vseg )
358	self.total_globals += 1
359	vseg.index = self.total_vsegs
360	self.total_vsegs += 1
361
362	return
363
364	################################ add a vspace into mapping
365	def addVspace( self,
366	name, # vspace name
367	startname, # name of vseg containing start_vector
368	active = False ): # default value is not active at boot
369
370	# add one vspace into mapping
371	vspace = Vspace( name, startname, active )
372	self.vspaces.append( vspace )
373	vspace.index = self.total_vspaces
374	self.total_vspaces += 1
375
376	return vspace
377
378	################################# add a private vseg in a vspace
379	def addVseg( self,
380	vspace, # vspace containing the vseg
381	name, # vseg name
382	vbase, # virtual base address
383	length, # vseg length (bytes)
384	mode, # CXWU flags
385	vtype, # vseg type
386	x, # destination x coordinate
387	y, # destination y coordinate
388	pseg, # destination pseg name
389	local = False, # only mapped in local PTAB if true
390	big = False, # to be mapped in a big physical page
391	binpath = '' ): # pathname for binary code
392
393	assert mode in VSEGMODES
394
395	assert vtype in VSEGTYPES
396
397	assert (x < self.x_size) and (y < self.y_size)
398
399	# add one vseg into mapping
400	vseg = Vseg( name, vbase, length, mode, vtype, x, y, pseg,
401	identity = False, local = local, big = big, binpath = binpath )
402	vspace.vsegs.append( vseg )
403	vseg.index = self.total_vsegs
404	self.total_vsegs += 1
405
406	return vseg
407
408	################################ add a thread in a vspace
409	def addThread( self,
410	vspace, # vspace containing thread
411	name, # thread name
412	is_main, # Boolean (one thread per vspace)
413	x, # destination x coordinate
414	y, # destination y coordinate
415	p, # destination processor local index
416	stackname, # name of vseg containing stack
417	heapname, # name of vseg containing heap
418	startid ): # index in start_vector
419
420	assert x < self.x_size
421	assert y < self.y_size
422	assert p < self.nprocs
423
424	# add one thread into mapping
425	thread = Thread( name, is_main, x, y, p, stackname, heapname, startid )
426	vspace.threads.append( thread )
427	thread.index = self.total_threads
428	self.total_threads += 1
429
430	return thread
431
432	#################################
433	def str2bytes( self, nbytes, s ): # string => nbytes_packed byte array
434
435	byte_stream = bytearray()
436	length = len( s )
437	if length < (nbytes - 1):
438	for b in s:
439	byte_stream.append( b )
440	for x in xrange(nbytes-length):
441	byte_stream.append( '\0' )
442	else:
443	print '[genmap error] in str2bytes()'
444	print ' string %s too long' % s
445	sys.exit(1)
446
447	return byte_stream
448
449	###################################
450	def int2bytes( self, nbytes, val ): # integer => nbytes litle endian byte array
451
452	byte_stream = bytearray()
453	for n in xrange( nbytes ):
454	byte_stream.append( (val >> (n<<3)) & 0xFF )
455
456	return byte_stream
457
458	################
459	def xml( self ): # compute string for map.xml file generation
460
461	s = '<?xml version="1.0"?>\n\n'
462	s += '<mapping_info signature = "0x%x"\n' % (self.signature)
463	s += ' name = "%s"\n' % (self.name)
464	s += ' x_size = "%d"\n' % (self.x_size)
465	s += ' y_size = "%d"\n' % (self.y_size)
466	s += ' x_width = "%d"\n' % (self.x_width)
467	s += ' y_width = "%d"\n' % (self.y_width)
468	s += ' irq_per_proc = "%d"\n' % (self.irq_per_proc)
469	s += ' use_ramdisk = "%d"\n' % (self.use_ramdisk)
470	s += ' x_io = "%d"\n' % (self.x_io)
471	s += ' y_io = "%d" >\n' % (self.y_io)
472	s += '\n'
473
474	s += ' <clusterset>\n'
475	for x in xrange ( self.x_size ):
476	for y in xrange ( self.y_size ):
477	cluster_id = (x * self.y_size) + y
478	s += self.clusters[cluster_id].xml()
479	s += ' </clusterset>\n'
480	s += '\n'
481
482	s += ' <globalset>\n'
483	for vseg in self.globs: s += vseg.xml()
484	s += ' </globalset>\n'
485	s += '\n'
486
487	s += ' <vspaceset>\n'
488	for vspace in self.vspaces: s += vspace.xml()
489	s += ' </vspaceset>\n'
490
491	s += '</mapping_info>\n'
492	return s
493
494	##########################
495	def cbin( self, verbose ): # C binary structure for map.bin file generation
496
497	byte_stream = bytearray()
498
499	# header
500	byte_stream += self.int2bytes(4, self.signature)
501	byte_stream += self.int2bytes(4, self.x_size)
502	byte_stream += self.int2bytes(4, self.y_size)
503	byte_stream += self.int2bytes(4, self.x_width)
504	byte_stream += self.int2bytes(4, self.y_width)
505	byte_stream += self.int2bytes(4, self.x_io)
506	byte_stream += self.int2bytes(4, self.y_io)
507	byte_stream += self.int2bytes(4, self.irq_per_proc)
508	byte_stream += self.int2bytes(4, self.use_ramdisk)
509	byte_stream += self.int2bytes(4, self.total_globals)
510	byte_stream += self.int2bytes(4, self.total_vspaces)
511	byte_stream += self.int2bytes(4, self.total_psegs)
512	byte_stream += self.int2bytes(4, self.total_vsegs)
513	byte_stream += self.int2bytes(4, self.total_threads)
514	byte_stream += self.int2bytes(4, self.total_procs)
515	byte_stream += self.int2bytes(4, self.total_irqs)
516	byte_stream += self.int2bytes(4, self.total_periphs)
517	byte_stream += self.str2bytes(256, self.name)
518
519	if ( verbose ):
520	print '\n'
521	print 'name = %s' % self.name
522	print 'signature = %x' % self.signature
523	print 'x_size = %d' % self.x_size
524	print 'y_size = %d' % self.y_size
525	print 'x_width = %d' % self.x_width
526	print 'y_width = %d' % self.y_width
527	print 'x_io = %d' % self.x_io
528	print 'y_io = %d' % self.y_io
529	print 'irq_per_proc = %d' % self.irq_per_proc
530	print 'use_ramdisk = %d' % self.use_ramdisk
531	print 'total_globals = %d' % self.total_globals
532	print 'total_psegs = %d' % self.total_psegs
533	print 'total_vsegs = %d' % self.total_vsegs
534	print 'total_threads = %d' % self.total_threads
535	print 'total_procs = %d' % self.total_procs
536	print 'total_irqs = %d' % self.total_irqs
537	print 'total_periphs = %d' % self.total_periphs
538	print '\n'
539
540	# clusters array
541	index = 0
542	for cluster in self.clusters:
543	byte_stream += cluster.cbin( self, verbose, index )
544	index += 1
545
546	if ( verbose ): print '\n'
547
548	# psegs array
549	index = 0
550	for cluster in self.clusters:
551	for pseg in cluster.psegs:
552	byte_stream += pseg.cbin( self, verbose, index, cluster )
553	index += 1
554
555	if ( verbose ): print '\n'
556
557	# vspaces array
558	index = 0
559	for vspace in self.vspaces:
560	byte_stream += vspace.cbin( self, verbose, index )
561	index += 1
562
563	if ( verbose ): print '\n'
564
565	# vsegs array
566	index = 0
567	for vseg in self.globs:
568	byte_stream += vseg.cbin( self, verbose, index )
569	index += 1
570	for vspace in self.vspaces:
571	for vseg in vspace.vsegs:
572	byte_stream += vseg.cbin( self, verbose, index )
573	index += 1
574
575	if ( verbose ): print '\n'
576
577	# threads array
578	index = 0
579	for vspace in self.vspaces:
580	for thread in vspace.threads:
581	byte_stream += thread.cbin( self, verbose, index, vspace )
582	index += 1
583
584	if ( verbose ): print '\n'
585
586	# procs array
587	index = 0
588	for cluster in self.clusters:
589	for proc in cluster.procs:
590	byte_stream += proc.cbin( self, verbose, index )
591	index += 1
592
593	if ( verbose ): print '\n'
594
595	# irqs array
596	index = 0
597	for cluster in self.clusters:
598	for periph in cluster.periphs:
599	for irq in periph.irqs:
600	byte_stream += irq.cbin( self, verbose, index )
601	index += 1
602
603	if ( verbose ): print '\n'
604
605	# periphs array
606	index = 0
607	for cluster in self.clusters:
608	for periph in cluster.periphs:
609	byte_stream += periph.cbin( self, verbose, index )
610	index += 1
611
612	return byte_stream
613	# end of cbin()
614
615	#######################################################################
616	def giet_vsegs( self ): # compute string for giet_vsegs.ld file
617	# required by giet_vm compilation
618
619	# search the vsegs required for the giet_vsegs.ld
620	boot_code_found = False
621	boot_data_found = False
622	kernel_uncdata_found = False
623	kernel_data_found = False
624	kernel_code_found = False
625	kernel_init_found = False
626	for vseg in self.globs:
627
628	if ( vseg.name[0:13] == 'seg_boot_code' ):
629	boot_code_vbase = vseg.vbase
630	boot_code_size = vseg.length
631	boot_code_found = True
632
633	if ( vseg.name[0:13] == 'seg_boot_data' ):
634	boot_data_vbase = vseg.vbase
635	boot_data_size = vseg.length
636	boot_data_found = True
637
638	if ( vseg.name[0:15] == 'seg_kernel_data' ):
639	kernel_data_vbase = vseg.vbase
640	kernel_data_size = vseg.length
641	kernel_data_found = True
642
643	if ( vseg.name[0:15] == 'seg_kernel_code' ):
644	kernel_code_vbase = vseg.vbase
645	kernel_code_size = vseg.length
646	kernel_code_found = True
647
648	if ( vseg.name[0:15] == 'seg_kernel_init' ):
649	kernel_init_vbase = vseg.vbase
650	kernel_init_size = vseg.length
651	kernel_init_found = True
652
653	# check if all required vsegs have been found
654	if ( boot_code_found == False ):
655	print '[genmap error] in giet_vsegs()'
656	print ' seg_boot_code vseg missing'
657	sys.exit()
658
659	if ( boot_data_found == False ):
660	print '[genmap error] in giet_vsegs()'
661	print ' seg_boot_data vseg missing'
662	sys.exit()
663
664	if ( kernel_data_found == False ):
665	print '[genmap error] in giet_vsegs()'
666	print ' seg_kernel_data vseg missing'
667	sys.exit()
668
669	if ( kernel_code_found == False ):
670	print '[genmap error] in giet_vsegs()'
671	print ' seg_kernel_code vseg missing'
672	sys.exit()
673
674	if ( kernel_init_found == False ):
675	print '[genmap error] in giet_vsegs()'
676	print ' seg_kernel_init vseg missing'
677	sys.exit()
678
679	# build string
680	s = '/* Generated by genmap for %s */\n' % self.name
681	s += '\n'
682
683	s += 'boot_code_vbase = 0x%x;\n' % boot_code_vbase
684	s += 'boot_code_size = 0x%x;\n' % boot_code_size
685	s += '\n'
686	s += 'boot_data_vbase = 0x%x;\n' % boot_data_vbase
687	s += 'boot_data_size = 0x%x;\n' % boot_data_size
688	s += '\n'
689	s += 'kernel_code_vbase = 0x%x;\n' % kernel_code_vbase
690	s += 'kernel_code_size = 0x%x;\n' % kernel_code_size
691	s += '\n'
692	s += 'kernel_data_vbase = 0x%x;\n' % kernel_data_vbase
693	s += 'kernel_data_size = 0x%x;\n' % kernel_data_size
694	s += '\n'
695	s += 'kernel_init_vbase = 0x%x;\n' % kernel_init_vbase
696	s += 'kernel_init_size = 0x%x;\n' % kernel_init_size
697	s += '\n'
698
699	return s
700
701	######################################################################
702	def hard_config( self ): # compute string for hard_config.h file
703	# required by
704	# - top.cpp compilation
705	# - giet_vm compilation
706	# - tsar_preloader compilation
707
708	nb_total_procs = 0
709
710	# for each peripheral type, define default values
711	# for pbase address, size, number of components, and channels
712	nb_cma = 0
713	cma_channels = 0
714	seg_cma_base = 0xFFFFFFFF
715	seg_cma_size = 0
716
717	nb_dma = 0
718	dma_channels = 0
719	seg_dma_base = 0xFFFFFFFF
720	seg_dma_size = 0
721
722	nb_fbf = 0
723	fbf_channels = 0
724	seg_fbf_base = 0xFFFFFFFF
725	seg_fbf_size = 0
726	fbf_arg0 = 0
727	fbf_arg1 = 0
728
729	nb_iob = 0
730	iob_channels = 0
731	seg_iob_base = 0xFFFFFFFF
732	seg_iob_size = 0
733
734	nb_ioc = 0
735	ioc_channels = 0
736	seg_ioc_base = 0xFFFFFFFF
737	seg_ioc_size = 0
738	use_ioc_bdv = False
739	use_ioc_sdc = False
740	use_ioc_hba = False
741	use_ioc_spi = False
742
743	nb_mmc = 0
744	mmc_channels = 0
745	seg_mmc_base = 0xFFFFFFFF
746	seg_mmc_size = 0
747
748	nb_mwr = 0
749	mwr_channels = 0
750	seg_mwr_base = 0xFFFFFFFF
751	seg_mwr_size = 0
752	mwr_arg0 = 0
753	mwr_arg1 = 0
754	mwr_arg2 = 0
755	mwr_arg3 = 0
756	use_mwr_gcd = False
757	use_mwr_dct = False
758	use_mwr_cpy = False
759
760	nb_nic = 0
761	nic_channels = 0
762	seg_nic_base = 0xFFFFFFFF
763	seg_nic_size = 0
764
765	nb_pic = 0
766	pic_channels = 0
767	seg_pic_base = 0xFFFFFFFF
768	seg_pic_size = 0
769
770	nb_rom = 0
771	rom_channels = 0
772	seg_rom_base = 0xFFFFFFFF
773	seg_rom_size = 0
774
775	nb_sim = 0
776	sim_channels = 0
777	seg_sim_base = 0xFFFFFFFF
778	seg_sim_size = 0
779
780	nb_tim = 0
781	tim_channels = 0
782	seg_tim_base = 0xFFFFFFFF
783	seg_tim_size = 0
784
785	nb_tty = 0
786	tty_channels = 0
787	seg_tty_base = 0xFFFFFFFF
788	seg_tty_size = 0
789
790	nb_xcu = 0
791	xcu_channels = 0
792	seg_xcu_base = 0xFFFFFFFF
793	seg_xcu_size = 0
794	xcu_arg0 = 0
795
796	nb_drom = 0
797	drom_channels = 0
798	seg_drom_base = 0xFFFFFFFF
799	seg_drom_size = 0
800
801	# get peripherals attributes
802	for cluster in self.clusters:
803	for periph in cluster.periphs:
804	if ( periph.ptype == 'CMA' ):
805	seg_cma_base = periph.pseg.base & 0xFFFFFFFF
806	seg_cma_size = periph.pseg.size
807	cma_channels = periph.channels
808	nb_cma +=1
809
810	elif ( periph.ptype == 'DMA' ):
811	seg_dma_base = periph.pseg.base & 0xFFFFFFFF
812	seg_dma_size = periph.pseg.size
813	dma_channels = periph.channels
814	nb_dma +=1
815
816	elif ( periph.ptype == 'FBF' ):
817	seg_fbf_base = periph.pseg.base & 0xFFFFFFFF
818	seg_fbf_size = periph.pseg.size
819	fbf_channels = periph.channels
820	fbf_arg0 = periph.arg0
821	fbf_arg1 = periph.arg1
822	nb_fbf +=1
823
824	elif ( periph.ptype == 'IOB' ):
825	seg_iob_base = periph.pseg.base & 0xFFFFFFFF
826	seg_iob_size = periph.pseg.size
827	iob_channels = periph.channels
828	nb_iob +=1
829
830	elif ( periph.ptype == 'IOC' ):
831	seg_ioc_base = periph.pseg.base & 0xFFFFFFFF
832	seg_ioc_size = periph.pseg.size
833	ioc_channels = periph.channels
834	nb_ioc += 1
835	if ( periph.subtype == 'BDV' ): use_ioc_bdv = True
836	if ( periph.subtype == 'HBA' ): use_ioc_hba = True
837	if ( periph.subtype == 'SDC' ): use_ioc_sdc = True
838	if ( periph.subtype == 'SPI' ): use_ioc_spi = True
839
840	elif ( periph.ptype == 'MMC' ):
841	seg_mmc_base = periph.pseg.base & 0xFFFFFFFF
842	seg_mmc_size = periph.pseg.size
843	mmc_channels = periph.channels
844	nb_mmc +=1
845
846	elif ( periph.ptype == 'MWR' ):
847	seg_mwr_base = periph.pseg.base & 0xFFFFFFFF
848	seg_mwr_size = periph.pseg.size
849	mwr_channels = periph.channels
850	mwr_arg0 = periph.arg0
851	mwr_arg1 = periph.arg1
852	mwr_arg2 = periph.arg2
853	mwr_arg3 = periph.arg3
854	nb_mwr +=1
855	if ( periph.subtype == 'GCD' ): use_mwr_gcd = True
856	if ( periph.subtype == 'DCT' ): use_mwr_dct = True
857	if ( periph.subtype == 'CPY' ): use_mwr_cpy = True
858
859	elif ( periph.ptype == 'ROM' ):
860	seg_rom_base = periph.pseg.base & 0xFFFFFFFF
861	seg_rom_size = periph.pseg.size
862	rom_channels = periph.channels
863	nb_rom +=1
864
865	elif ( periph.ptype == 'DROM' ):
866	seg_drom_base = periph.pseg.base & 0xFFFFFFFF
867	seg_drom_size = periph.pseg.size
868	drom_channels = periph.channels
869	nb_drom +=1
870
871	elif ( periph.ptype == 'SIM' ):
872	seg_sim_base = periph.pseg.base & 0xFFFFFFFF
873	seg_sim_size = periph.pseg.size
874	sim_channels = periph.channels
875	nb_sim +=1
876
877	elif ( periph.ptype == 'NIC' ):
878	seg_nic_base = periph.pseg.base & 0xFFFFFFFF
879	seg_nic_size = periph.pseg.size
880	nic_channels = periph.channels
881	nb_nic +=1
882
883	elif ( periph.ptype == 'PIC' ):
884	seg_pic_base = periph.pseg.base & 0xFFFFFFFF
885	seg_pic_size = periph.pseg.size
886	pic_channels = periph.channels
887	nb_pic +=1
888
889	elif ( periph.ptype == 'TIM' ):
890	seg_tim_base = periph.pseg.base & 0xFFFFFFFF
891	seg_tim_size = periph.pseg.size
892	tim_channels = periph.channels
893	nb_tim +=1
894
895	elif ( periph.ptype == 'TTY' ):
896	seg_tty_base = periph.pseg.base & 0xFFFFFFFF
897	seg_tty_size = periph.pseg.size
898	tty_channels = periph.channels
899	nb_tty +=1
900
901	elif ( periph.ptype == 'XCU' ):
902	seg_xcu_base = periph.pseg.base & 0xFFFFFFFF
903	seg_xcu_size = periph.pseg.size
904	xcu_channels = periph.channels
905	xcu_arg0 = periph.arg0
906	xcu_arg1 = periph.arg1
907	xcu_arg2 = periph.arg2
908	nb_xcu +=1
909
910	# no more than two access to external peripherals
911	assert ( nb_fbf <= 2 )
912	assert ( nb_cma <= 2 )
913	assert ( nb_ioc <= 2 )
914	assert ( nb_nic <= 2 )
915	assert ( nb_tim <= 2 )
916	assert ( nb_tty <= 2 )
917	assert ( nb_pic <= 2 )
918
919	# one and only one type of IOC controller
920	nb_ioc_types = 0
921	if use_ioc_hba: nb_ioc_types += 1
922	if use_ioc_bdv: nb_ioc_types += 1
923	if use_ioc_sdc: nb_ioc_types += 1
924	if use_ioc_spi: nb_ioc_types += 1
925	if self.use_ramdisk: nb_ioc_types += 1
926	assert ( nb_ioc_types == 1 )
927
928	# one and only one type of MWR controller
929	nb_mwr_types = 0
930	if use_mwr_gcd: nb_mwr_types += 1
931	if use_mwr_dct: nb_mwr_types += 1
932	if use_mwr_cpy: nb_mwr_types += 1
933	if ( nb_mwr > 0 ) : assert ( nb_mwr_types == 1 )
934
935	# Compute total number of processors
936	for cluster in self.clusters:
937	nb_total_procs += len( cluster.procs )
938
939	# Compute physical addresses for BOOT vsegs
940	boot_mapping_found = False
941	boot_code_found = False
942	boot_data_found = False
943	boot_stack_found = False
944
945	for vseg in self.globs:
946	if ( vseg.name == 'seg_boot_mapping' ):
947	boot_mapping_base = vseg.vbase
948	boot_mapping_size = vseg.length
949	boot_mapping_identity = vseg.identity
950	boot_mapping_found = True
951
952	if ( vseg.name == 'seg_boot_code' ):
953	boot_code_base = vseg.vbase
954	boot_code_size = vseg.length
955	boot_code_identity = vseg.identity
956	boot_code_found = True
957
958	if ( vseg.name == 'seg_boot_data' ):
959	boot_data_base = vseg.vbase
960	boot_data_size = vseg.length
961	boot_data_identity = vseg.identity
962	boot_data_found = True
963
964	if ( vseg.name == 'seg_boot_stack' ):
965	boot_stack_base = vseg.vbase
966	boot_stack_size = vseg.length
967	boot_stack_identity = vseg.identity
968	boot_stack_found = True
969
970	# check that BOOT vsegs are found and identity mapping
971	if ( (boot_mapping_found == False) or (boot_mapping_identity == False) ):
972	print '[genmap error] in hard_config()'
973	print ' seg_boot_mapping missing or not identity mapping'
974	sys.exit()
975
976	if ( (boot_code_found == False) or (boot_code_identity == False) ):
977	print '[genmap error] in hard_config()'
978	print ' seg_boot_code missing or not identity mapping'
979	sys.exit()
980
981	if ( (boot_data_found == False) or (boot_data_identity == False) ):
982	print '[genmap error] in hard_config()'
983	print ' seg_boot_data missing or not identity mapping'
984	sys.exit()
985
986	if ( (boot_stack_found == False) or (boot_stack_identity == False) ):
987	print '[genmap error] in giet_vsegs()'
988	print ' seg_boot_stack missing or not identity mapping'
989	sys.exit()
990
991	# Search RAMDISK global vseg if required
992	seg_rdk_base = 0xFFFFFFFF
993	seg_rdk_size = 0
994	seg_rdk_found = False
995
996	if self.use_ramdisk:
997	for vseg in self.globs:
998	if ( vseg.name == 'seg_ramdisk' ):
999	seg_rdk_base = vseg.vbase
1000	seg_rdk_size = vseg.length
1001	seg_rdk_found = True
1002
1003	if ( seg_rdk_found == False ):
1004	print 'Error in hard_config() "seg_ramdisk" not found'
1005	sys.exit(1)
1006
1007	# build string
1008	s = '/* Generated by genmap for %s */\n' % self.name
1009	s += '\n'
1010	s += '#ifndef HARD_CONFIG_H\n'
1011	s += '#define HARD_CONFIG_H\n'
1012	s += '\n'
1013
1014	s += '/* General platform parameters */\n'
1015	s += '\n'
1016	s += '#define X_SIZE %d\n' % self.x_size
1017	s += '#define Y_SIZE %d\n' % self.y_size
1018	s += '#define X_WIDTH %d\n' % self.x_width
1019	s += '#define Y_WIDTH %d\n' % self.y_width
1020	s += '#define P_WIDTH %d\n' % self.p_width
1021	s += '#define X_IO %d\n' % self.x_io
1022	s += '#define Y_IO %d\n' % self.y_io
1023	s += '#define NB_PROCS_MAX %d\n' % self.nprocs
1024	s += '#define IRQ_PER_PROCESSOR %d\n' % self.irq_per_proc
1025	s += '#define RESET_ADDRESS 0x%x\n' % self.reset_address
1026	s += '#define NB_TOTAL_PROCS %d\n' % nb_total_procs
1027	s += '\n'
1028
1029	s += '/* Peripherals */\n'
1030	s += '\n'
1031	s += '#define NB_TTY_CHANNELS %d\n' % tty_channels
1032	s += '#define NB_IOC_CHANNELS %d\n' % ioc_channels
1033	s += '#define NB_NIC_CHANNELS %d\n' % nic_channels
1034	s += '#define NB_CMA_CHANNELS %d\n' % cma_channels
1035	s += '#define NB_TIM_CHANNELS %d\n' % tim_channels
1036	s += '#define NB_DMA_CHANNELS %d\n' % dma_channels
1037	s += '\n'
1038	s += '#define USE_XCU %d\n' % ( nb_xcu != 0 )
1039	s += '#define USE_DMA %d\n' % ( nb_dma != 0 )
1040	s += '\n'
1041	s += '#define USE_IOB %d\n' % ( nb_iob != 0 )
1042	s += '#define USE_PIC %d\n' % ( nb_pic != 0 )
1043	s += '#define USE_FBF %d\n' % ( nb_fbf != 0 )
1044	s += '#define USE_NIC %d\n' % ( nb_nic != 0 )
1045	s += '\n'
1046	s += '#define USE_IOC_BDV %d\n' % use_ioc_bdv
1047	s += '#define USE_IOC_SDC %d\n' % use_ioc_sdc
1048	s += '#define USE_IOC_HBA %d\n' % use_ioc_hba
1049	s += '#define USE_IOC_SPI %d\n' % use_ioc_spi
1050	s += '#define USE_IOC_RDK %d\n' % self.use_ramdisk
1051	s += '\n'
1052	s += '#define USE_MWR_GCD %d\n' % use_mwr_gcd
1053	s += '#define USE_MWR_DCT %d\n' % use_mwr_dct
1054	s += '#define USE_MWR_CPY %d\n' % use_mwr_cpy
1055	s += '\n'
1056	s += '#define FBUF_X_SIZE %d\n' % fbf_arg0
1057	s += '#define FBUF_Y_SIZE %d\n' % fbf_arg1
1058	s += '\n'
1059	s += '#define XCU_NB_HWI %d\n' % xcu_arg0
1060	s += '#define XCU_NB_PTI %d\n' % xcu_arg1
1061	s += '#define XCU_NB_WTI %d\n' % xcu_arg2
1062	s += '#define XCU_NB_OUT %d\n' % xcu_channels
1063	s += '\n'
1064	s += '#define MWR_TO_COPROC %d\n' % mwr_arg0
1065	s += '#define MWR_FROM_COPROC %d\n' % mwr_arg1
1066	s += '#define MWR_CONFIG %d\n' % mwr_arg2
1067	s += '#define MWR_STATUS %d\n' % mwr_arg3
1068	s += '\n'
1069
1070	s += '/* base addresses and sizes for physical segments */\n'
1071	s += '\n'
1072	s += '#define SEG_RAM_BASE 0x%x\n' % self.ram_base
1073	s += '#define SEG_RAM_SIZE 0x%x\n' % self.ram_size
1074	s += '\n'
1075	s += '#define SEG_CMA_BASE 0x%x\n' % seg_cma_base
1076	s += '#define SEG_CMA_SIZE 0x%x\n' % seg_cma_size
1077	s += '\n'
1078	s += '#define SEG_DMA_BASE 0x%x\n' % seg_dma_base
1079	s += '#define SEG_DMA_SIZE 0x%x\n' % seg_dma_size
1080	s += '\n'
1081	s += '#define SEG_FBF_BASE 0x%x\n' % seg_fbf_base
1082	s += '#define SEG_FBF_SIZE 0x%x\n' % seg_fbf_size
1083	s += '\n'
1084	s += '#define SEG_IOB_BASE 0x%x\n' % seg_iob_base
1085	s += '#define SEG_IOB_SIZE 0x%x\n' % seg_iob_size
1086	s += '\n'
1087	s += '#define SEG_IOC_BASE 0x%x\n' % seg_ioc_base
1088	s += '#define SEG_IOC_SIZE 0x%x\n' % seg_ioc_size
1089	s += '\n'
1090	s += '#define SEG_MMC_BASE 0x%x\n' % seg_mmc_base
1091	s += '#define SEG_MMC_SIZE 0x%x\n' % seg_mmc_size
1092	s += '\n'
1093	s += '#define SEG_MWR_BASE 0x%x\n' % seg_mwr_base
1094	s += '#define SEG_MWR_SIZE 0x%x\n' % seg_mwr_size
1095	s += '\n'
1096	s += '#define SEG_ROM_BASE 0x%x\n' % seg_rom_base
1097	s += '#define SEG_ROM_SIZE 0x%x\n' % seg_rom_size
1098	s += '\n'
1099	s += '#define SEG_SIM_BASE 0x%x\n' % seg_sim_base
1100	s += '#define SEG_SIM_SIZE 0x%x\n' % seg_sim_size
1101	s += '\n'
1102	s += '#define SEG_NIC_BASE 0x%x\n' % seg_nic_base
1103	s += '#define SEG_NIC_SIZE 0x%x\n' % seg_nic_size
1104	s += '\n'
1105	s += '#define SEG_PIC_BASE 0x%x\n' % seg_pic_base
1106	s += '#define SEG_PIC_SIZE 0x%x\n' % seg_pic_size
1107	s += '\n'
1108	s += '#define SEG_TIM_BASE 0x%x\n' % seg_tim_base
1109	s += '#define SEG_TIM_SIZE 0x%x\n' % seg_tim_size
1110	s += '\n'
1111	s += '#define SEG_TTY_BASE 0x%x\n' % seg_tty_base
1112	s += '#define SEG_TTY_SIZE 0x%x\n' % seg_tty_size
1113	s += '\n'
1114	s += '#define SEG_XCU_BASE 0x%x\n' % seg_xcu_base
1115	s += '#define SEG_XCU_SIZE 0x%x\n' % seg_xcu_size
1116	s += '\n'
1117	s += '#define SEG_RDK_BASE 0x%x\n' % seg_rdk_base
1118	s += '#define SEG_RDK_SIZE 0x%x\n' % seg_rdk_size
1119	s += '\n'
1120	s += '#define SEG_DROM_BASE 0x%x\n' % seg_drom_base
1121	s += '#define SEG_DROM_SIZE 0x%x\n' % seg_drom_size
1122	s += '\n'
1123	s += '#define PERI_CLUSTER_INCREMENT 0x%x\n' % self.peri_increment
1124	s += '\n'
1125
1126	s += '/* physical base addresses for identity mapped vsegs */\n'
1127	s += '/* used by the GietVM OS */\n'
1128	s += '\n'
1129	s += '#define SEG_BOOT_MAPPING_BASE 0x%x\n' % boot_mapping_base
1130	s += '#define SEG_BOOT_MAPPING_SIZE 0x%x\n' % boot_mapping_size
1131	s += '\n'
1132	s += '#define SEG_BOOT_CODE_BASE 0x%x\n' % boot_code_base
1133	s += '#define SEG_BOOT_CODE_SIZE 0x%x\n' % boot_code_size
1134	s += '\n'
1135	s += '#define SEG_BOOT_DATA_BASE 0x%x\n' % boot_data_base
1136	s += '#define SEG_BOOT_DATA_SIZE 0x%x\n' % boot_data_size
1137	s += '\n'
1138	s += '#define SEG_BOOT_STACK_BASE 0x%x\n' % boot_stack_base
1139	s += '#define SEG_BOOT_STACK_SIZE 0x%x\n' % boot_stack_size
1140	s += '#endif\n'
1141
1142	return s
1143
1144	# end of hard_config()
1145
1146	#################################################################
1147	def linux_dts( self ): # compute string for linux.dts file
1148	# used for linux configuration
1149	# header
1150	s = '/dts-v1/;\n'
1151	s += '\n'
1152	s += '/{\n'
1153	s += ' compatible = "tsar,%s";\n' % self.name
1154	s += ' #address-cells = <2>;\n' # physical address on 64 bits
1155	s += ' #size-cells = <1>;\n' # segment size on 32 bits
1156	s += ' model = "%s";\n' % self.name
1157	s += '\n'
1158
1159	# linux globals arguments
1160	s += ' chosen {\n'
1161	s += ' linux,stdout-path = &tty;\n'
1162	s += ' bootargs = "console=tty0 console=ttyVTTY0 earlyprintk";\n'
1163	s += ' };\n\n'
1164
1165	# cpus (for each cluster)
1166	s += ' cpus {\n'
1167	s += ' #address-cells = <1>;\n'
1168	s += ' #size-cells = <0>;\n'
1169
1170	for cluster in self.clusters:
1171	for proc in cluster.procs:
1172	x = cluster.x
1173	y = cluster.y
1174	l = proc.lpid
1175	proc_id = (((x << self.y_width) + y) << self.p_width) + l
1176	s += ' cpu@%d_%d_%d {\n' %(x,y,l)
1177	s += ' device_type = "cpu";\n'
1178	s += ' compatible = "soclib,mips32el";\n'
1179	s += ' reg = <0x%x>;\n' % proc_id
1180	s += ' };\n'
1181	s += '\n'
1182
1183	s += ' };\n\n'
1184
1185	# devices (ram or peripheral) are grouped per cluster
1186	# the "compatible" attribute links a peripheral device
1187	# to one or several drivers identified by ("major","minor")
1188
1189	chosen_tty = False
1190	for cluster in self.clusters:
1191	x = cluster.x
1192	y = cluster.y
1193	found_xcu = False
1194	found_pic = False
1195
1196	s += ' /* cluster[%d,%d] */\n\n' % (x,y)
1197
1198	# scan all psegs to find RAM in current cluster
1199	for pseg in cluster.psegs:
1200	if ( pseg.segtype == 'RAM' ):
1201	msb = pseg.base >> 32
1202	lsb = pseg.base & 0xFFFFFFFF
1203	size = pseg.size
1204
1205	s += ' %s@0x%x {\n' % (pseg.name, pseg.base)
1206	s += ' device_type = "memory";\n'
1207	s += ' reg = <0x%x 0x%x 0x%x>;\n' % (msb, lsb, size)
1208	s += ' };\n\n'
1209
1210	# scan all periphs to find XCU or PIC in current cluster
1211	for periph in cluster.periphs:
1212	msb = periph.pseg.base >> 32
1213	lsb = periph.pseg.base & 0xFFFFFFFF
1214	size = periph.pseg.size
1215
1216	# search XCU (can be replicated)
1217	if ( (periph.ptype == 'XCU') ):
1218	found_xcu = True
1219
1220	s += ' %s@0x%x {\n' % (periph.pseg.name, periph.pseg.base)
1221	s += ' compatible = "soclib,vci_xicu","soclib,vci_xicu_timer";\n'
1222	s += ' interrupt-controller;\n'
1223	s += ' #interrupt-cells = <1>;\n'
1224	s += ' clocks = <&freq>;\n' # XCU contains a timer
1225	s += ' reg = <0x%x 0x%x 0x%x>;\n' % (msb, lsb, size)
1226	s += ' };\n\n'
1227
1228	# search PIC (non replicated)
1229	if ( periph.ptype == 'PIC' ):
1230	found_pic = True
1231
1232	s += ' %s@0x%x {\n' % (periph.pseg.name, periph.pseg.base)
1233	s += ' compatible = "soclib,vci_iopic";\n'
1234	s += ' interrupt-controller;\n'
1235	s += ' #interrupt-cells = <1>;\n'
1236	s += ' reg = <0x%x 0x%x 0x%x>;\n' % (msb, lsb, size)
1237	s += ' };\n\n'
1238
1239	# we need one interrupt controler in any cluster containing peripherals
1240	if ( (found_xcu == False) and
1241	(found_pic == False) and
1242	(len(cluster.periphs) > 0) ):
1243	print '[genmap error] in linux_dts()'
1244	print ' No XCU/PIC in cluster(%d,%d)' % (x,y)
1245	sys.exit(1)
1246
1247	# scan all periphs to find TTY and IOC in current cluster
1248	for periph in cluster.periphs:
1249	msb = periph.pseg.base >> 32
1250	lsb = periph.pseg.base & 0xFFFFFFFF
1251	size = periph.pseg.size
1252
1253	irq_ctrl = periph.irq_ctrl
1254	if irq_ctrl != None:
1255	irq_ctrl_name = '%s@0x%x' % (irq_ctrl.pseg.name, irq_ctrl.pseg.base)
1256
1257	# search TTY (non replicated)
1258	if periph.ptype == 'TTY':
1259	assert irq_ctrl != None
1260
1261	# get HWI index to XCU or PIC (only TTY0 is used by Linux)
1262	hwi_id = 0xFFFFFFFF
1263	for irq in irq_ctrl.irqs:
1264	if ( (irq.isrtype == 'ISR_TTY_RX') and (irq.channel == 0) ):
1265	hwi_id = irq.srcid
1266
1267	if ( hwi_id == 0xFFFFFFFF ):
1268	print '[genmap error] in linux.dts()'
1269	print ' IRQ_TTY_RX not found'
1270	sys.exit(1)
1271
1272	if chosen_tty == False:
1273	chosen_tty = True
1274	s += ' tty:\n'
1275
1276	s += ' %s@0x%x {\n' % (periph.pseg.name, periph.pseg.base)
1277	s += ' compatible = "soclib,vci_multi_tty";\n'
1278	s += ' interrupt-parent = <&{/%s}>;\n' % (irq_ctrl_name)
1279	s += ' interrupts = <%d>;\n' % hwi_id
1280	s += ' reg = <0x%x 0x%x 0x%x>;\n' % (msb, lsb, size)
1281	s += ' };\n\n'
1282
1283
1284	# search IOC (non replicated)
1285	elif ( periph.ptype == 'IOC' ):
1286	assert irq_ctrl != None
1287
1288	if ( periph.subtype == 'BDV' ):
1289
1290	# get irq line index associated to bdv
1291	hwi_id = 0xFFFFFFFF
1292	for irq in irq_ctrl.irqs:
1293	if ( irq.isrtype == 'ISR_BDV' ): hwi_id = irq.srcid
1294
1295	if ( hwi_id == 0xFFFFFFFF ):
1296	print '[genmap error] in linux.dts()'
1297	print ' ISR_BDV not found'
1298	sys.exit(1)
1299
1300	s += ' %s@0x%x {\n' % (periph.pseg.name, periph.pseg.base)
1301	s += ' compatible = "tsar,vci_block_device";\n'
1302	s += ' interrupt-parent = <&{/%s}>;\n' % (irq_ctrl_name)
1303	s += ' interrupts = <%d>;\n' % hwi_id
1304	s += ' reg = <0x%x 0x%x 0x%x>;\n' % (msb, lsb, size)
1305	s += ' };\n\n'
1306
1307	else:
1308	print '[genmap warning] in linux_dts() : '
1309	print ' %s' % (periph.subtype),
1310	print 'peripheral not supported by LINUX'
1311
1312	# XCU or PIC have been already parsed
1313	elif ( periph.ptype == 'XCU' ) or ( periph.ptype == 'PIC' ):
1314	pass
1315
1316	# other peripherals
1317	else:
1318	print '[genmap warning] in linux_dts() : '
1319	print ' %s peripheral not supported by LINUX' % (periph.ptype)
1320
1321	# clocks
1322	s += ' clocks {\n'
1323	s += ' freq: freq@50MHZ {\n'
1324	s += ' #clock-cells = <0>;\n'
1325	s += ' compatible = "fixed-clock";\n'
1326	s += ' clock-frequency = <50000000>;\n'
1327	s += ' };\n'
1328	s += ' };\n\n'
1329	s += ' cpuclk {\n'
1330	s += ' compatible = "soclib,mips32_clksrc";\n'
1331	s += ' clocks = <&freq>;\n'
1332	s += ' };\n'
1333	s += '};\n'
1334
1335	return s
1336	# end linux_dts()
1337
1338
1339	#################################################################
1340	def netbsd_dts( self ): # compute string for netbsd.dts file
1341	# used for netbsd configuration
1342	# header
1343	s = '/dts-v1/;\n'
1344	s += '\n'
1345	s += '/{\n'
1346	s += ' #address-cells = <2>;\n'
1347	s += ' #size-cells = <1>;\n'
1348
1349	# cpus (for each cluster)
1350	s += ' cpus {\n'
1351	s += ' #address-cells = <1>;\n'
1352	s += ' #size-cells = <0>;\n'
1353
1354	for cluster in self.clusters:
1355	for proc in cluster.procs:
1356	proc_id = (((cluster.x << self.y_width) + cluster.y)
1357	<< self.p_width) + proc.lpid
1358
1359	s += ' Mips,32@0x%x {\n' % proc_id
1360	s += ' device_type = "cpu";\n'
1361	s += ' icudev_type = "cpu:mips";\n'
1362	s += ' name = "Mips,32";\n'
1363	s += ' reg = <0x%x>;\n' % proc_id
1364	s += ' };\n'
1365	s += '\n'
1366
1367	s += ' };\n'
1368
1369	# physical memory banks (for each cluster)
1370	for cluster in self.clusters:
1371	for pseg in cluster.psegs:
1372
1373	if ( pseg.segtype == 'RAM' ):
1374	msb = pseg.base >> 32
1375	lsb = pseg.base & 0xFFFFFFFF
1376	size = pseg.size
1377
1378	s += ' %s@0x%x {\n' % (pseg.name, pseg.base)
1379	s += ' cached = <1>;\n'
1380	s += ' device_type = "memory";\n'
1381	s += ' reg = <0x%x 0x%x 0x%x>;\n' % (msb,lsb,size)
1382	s += ' };\n'
1383
1384	# peripherals (for each cluster)
1385	for cluster in self.clusters:
1386	x = cluster.x
1387	y = cluster.y
1388
1389	# research XCU or PIC component
1390	found_xcu = False
1391	found_pic = False
1392	for periph in cluster.periphs:
1393	if ( (periph.ptype == 'XCU') ):
1394	found_xcu = True
1395	xcu = periph
1396	msb = periph.pseg.base >> 32
1397	lsb = periph.pseg.base & 0xFFFFFFFF
1398	size = periph.pseg.size
1399
1400	s += ' %s@0x%x {\n' % (periph.pseg.name, periph.pseg.base)
1401	s += ' device_type = "soclib:xicu:root";\n'
1402	s += ' reg = <0x%x 0x%x 0x%x>;\n' % (msb,lsb,size)
1403	s += ' input_lines = <%d>;\n' % periph.arg0
1404	s += ' ipis = <%d>;\n' % periph.arg1
1405	s += ' timers = <%d>;\n' % periph.arg2
1406
1407	output_id = 0 # output index from XCU
1408	for lpid in xrange ( len(cluster.procs) ): # destination processor index
1409	for itid in xrange ( self.irq_per_proc ): # input irq index on processor
1410	cluster_xy = (cluster.x << self.y_width) + cluster.y
1411	proc_id = (cluster_xy << self.p_width) + lpid
1412	s += ' out@%d {\n' % output_id
1413	s += ' device_type = "soclib:xicu:filter";\n'
1414	s += ' irq = <&{/cpus/Mips,32@0x%x} %d>;\n' % (proc_id, itid)
1415	s += ' output_line = <%d>;\n' % output_id
1416	s += ' parent = <&{/%s@0x%x}>;\n' % (periph.pseg.name, periph.pseg.base)
1417	s += ' };\n'
1418
1419	output_id += 1
1420
1421	s += ' };\n'
1422
1423	if ( periph.ptype == 'PIC' ):
1424	found_pic = True
1425	pic = periph
1426	msb = periph.pseg.base >> 32
1427	lsb = periph.pseg.base & 0xFFFFFFFF
1428	size = periph.pseg.size
1429
1430	s += ' %s@0x%x {\n' % (periph.pseg.name, periph.pseg.base)
1431	s += ' device_type = "soclib:pic:root";\n'
1432	s += ' reg = <0x%x 0x%x 0x%x>;\n' % (msb, lsb, size)
1433	s += ' input_lines = <%d>;\n' % periph.channels
1434	s += ' };\n'
1435
1436	# at least one interrupt controller
1437	if ( (found_xcu == False) and (found_pic == False) and (len(cluster.periphs) > 0) ):
1438	print '[genmap error] in netbsd_dts()'
1439	print ' No XCU/PIC in cluster(%d,%d)' % (x,y)
1440	sys.exit(1)
1441
1442	# get all others peripherals in cluster
1443	for periph in cluster.periphs:
1444	msb = periph.pseg.base >> 32
1445	lsb = periph.pseg.base & 0xFFFFFFFF
1446	size = periph.pseg.size
1447
1448	irq_ctrl = periph.irq_ctrl
1449	if irq_ctrl != None:
1450	irq_ctrl_name = '%s@0x%x' % (irq_ctrl.pseg.name, irq_ctrl.pseg.base)
1451
1452	# XCU or PIC have been already parsed
1453	if ( periph.ptype == 'XCU' ) or ( periph.ptype == 'PIC' ):
1454	pass
1455
1456	# research DMA component
1457	elif ( periph.ptype == 'DMA' ):
1458
1459	s += ' %s@0x%x {\n' % (periph.pseg.name, periph.pseg.base)
1460	s += ' device_type = "soclib:dma";\n'
1461	s += ' reg = <0x%x 0x%x 0x%x>;\n' % (msb, lsb, size)
1462	s += ' channel_count = <%d>;\n' % periph.channels
1463
1464	# multi-channels : get HWI index (to XCU) for each channel
1465	for channel in xrange( periph.channels ):
1466	hwi_id = 0xFFFFFFFF
1467	for irq in xcu.irqs:
1468	if ( (irq.isrtype == 'ISR_DMA') and
1469	(irq.channel == channel) ):
1470	hwi_id = irq.srcid
1471
1472	if ( hwi_id == 0xFFFFFFFF ):
1473	print '[genmap error] in netbsd.dts()'
1474	print ' ISR_DMA channel %d not found' % channel
1475	sys.exit(1)
1476
1477	name = '%s@0x%x' % (xcu.pseg.name, xcu.pseg.base)
1478	s += ' irq@%d{\n' % channel
1479	s += ' device_type = "soclib:periph:irq";\n'
1480	s += ' output_line = <%d>;\n' % channel
1481	s += ' irq = <&{/%s} %d>;\n' % (name, hwi_id)
1482	s += ' parent = <&{/%s@0x%x}>;\n' % (periph.pseg.name, periph.pseg.base)
1483	s += ' };\n'
1484
1485	s += ' };\n'
1486
1487	# research MMC component
1488	elif ( periph.ptype == 'MMC' ):
1489
1490	# get irq line index associated to MMC in XCU
1491	irq_in = 0xFFFFFFFF
1492	for irq in xcu.irqs:
1493	if ( irq.isrtype == 'ISR_MMC' ): irq_in = irq.srcid
1494
1495	if ( irq_in == 0xFFFFFFFF ):
1496	print '[genmap error] in netbsd.dts()'
1497	print ' ISR_MMC not found'
1498	sys.exit(1)
1499
1500	s += ' %s@0x%x {\n' % (periph.pseg.name, periph.pseg.base)
1501	s += ' device_type = "soclib:mmc";\n'
1502	s += ' irq = <&{/%s} %d>;\n' % (irq_ctrl_name, irq_in)
1503	s += ' reg = <0x%x 0x%x 0x%x>;\n' % (msb, lsb, size)
1504	s += ' };\n'
1505
1506	# research FBF component
1507	elif ( periph.ptype == 'FBF' ):
1508
1509	s += ' %s@0x%x {\n' % (periph.pseg.name, periph.pseg.base)
1510	s += ' device_type = "soclib:framebuffer";\n'
1511	s += ' mode = <32>;\n' # bits par pixel
1512	s += ' width = <%d>;\n' % periph.arg0
1513	s += ' height = <%d>;\n' % periph.arg1
1514	s += ' reg = <0x%x 0x%x 0x%x>;\n' % (msb, lsb, size)
1515	s += ' };\n'
1516
1517	# research IOC component
1518	elif ( periph.ptype == 'IOC' ):
1519
1520	if ( periph.subtype == 'BDV' ):
1521
1522	# get irq line index associated to bdv
1523	irq_in = 0xFFFFFFFF
1524	for irq in irq_ctrl.irqs:
1525	if ( irq.isrtype == 'ISR_BDV' ): irq_in = irq.srcid
1526	if ( irq_in == 0xFFFFFFFF ):
1527	print '[genmap error] in netbsd.dts()'
1528	print ' ISR_BDV not found'
1529	sys.exit(1)
1530
1531	s += ' %s@0x%x {\n' % (periph.pseg.name, periph.pseg.base)
1532	s += ' device_type = "soclib:blockdevice";\n'
1533	s += ' irq = <&{/%s} %d>;\n' % (irq_ctrl_name, irq_in)
1534	s += ' reg = <0x%x 0x%x 0x%x>;\n' % (msb, lsb, size)
1535	s += ' };\n'
1536
1537	elif ( periph.subtype == 'HBA' ):
1538
1539	print '[genmap error] in netbsd_dts()'
1540	print ' HBA peripheral not supported by NetBSD'
1541
1542	elif ( periph.subtype == 'SDC' ):
1543
1544	# get irq line index associated to sdc
1545	irq_in = 0xFFFFFFFF
1546	for irq in irq_ctrl.irqs:
1547	if ( irq.isrtype == 'ISR_SDC' ): irq_in = irq.srcid
1548	if ( irq_in == 0xFFFFFFFF ):
1549	print '[genmap error] in netbsd.dts()'
1550	print ' ISR_SDC not found'
1551	sys.exit(1)
1552
1553	s += ' %s@0x%x {\n' % (periph.pseg.name, periph.pseg.base)
1554	s += ' device_type = "soclib:sdc";\n'
1555	s += ' irq = <&{/%s} %d>;\n' % (irq_ctrl_name, irq_in)
1556	s += ' reg = <0x%x 0x%x 0x%x>;\n' % (msb, lsb, size)
1557	s += ' };\n'
1558
1559	# research ROM component
1560	elif ( periph.ptype == 'ROM' ) or ( periph.ptype == 'DROM' ):
1561
1562	s += ' %s@0x%x {\n' % (periph.pseg.name, periph.pseg.base)
1563	s += ' device_type = "rom";\n'
1564	s += ' cached = <1>;\n'
1565	s += ' reg = <0x%x 0x%x 0x%x>;\n' % (msb, lsb, size)
1566	s += ' };\n'
1567
1568	# research SIM component
1569	elif ( periph.ptype == 'SIM' ):
1570
1571	s += ' %s@0x%x {\n' % (periph.pseg.name, periph.pseg.base)
1572	s += ' device_type = "soclib:simhelper";\n'
1573	s += ' reg = <0x%x 0x%x 0x%x>;\n' % (msb, lsb, size)
1574	s += ' };\n'
1575
1576	# research TTY component
1577	elif ( periph.ptype == 'TTY' ):
1578
1579	s += ' %s@0x%x {\n' % (periph.pseg.name, periph.pseg.base)
1580	s += ' device_type = "soclib:tty";\n'
1581	s += ' channel_count = < %d >;\n' % periph.channels
1582	s += ' reg = <0x%x 0x%x 0x%x>;\n' % (msb, lsb, size)
1583
1584	# multi-channels : get HWI index (to XCU or PIC) for each channel
1585	for channel in xrange( periph.channels ):
1586	hwi_id = 0xFFFFFFFF
1587	for irq in irq_ctrl.irqs:
1588	if ( (irq.isrtype == 'ISR_TTY_RX') and (irq.channel == channel) ):
1589	hwi_id = irq.srcid
1590	if ( hwi_id == 0xFFFFFFFF ):
1591	print '[genmap error] in netbsd.dts()'
1592	print ' ISR_TTY_RX channel %d not found' % channel
1593	sys.exit(1)
1594
1595	name = '%s' % (irq_ctrl_name)
1596	s += ' irq@%d{\n' % channel
1597	s += ' device_type = "soclib:periph:irq";\n'
1598	s += ' output_line = <%d>;\n' % channel
1599	s += ' irq = <&{/%s} %d>;\n' % (name, hwi_id)
1600	s += ' parent = <&{/%s@0x%x}>;\n' % (periph.pseg.name, periph.pseg.base)
1601	s += ' };\n'
1602
1603	s += ' };\n'
1604
1605	# research IOB component
1606	elif ( periph.ptype == 'IOB' ):
1607
1608	s += ' %s@0x%x {\n' % (periph.pseg.name, periph.pseg.base)
1609	s += ' device_type = "soclib:iob";\n'
1610	s += ' reg = <0x%x 0x%x 0x%x>;\n' % (msb, lsb, size)
1611	s += ' };\n'
1612
1613	# research NIC component
1614	elif ( periph.ptype == 'NIC' ):
1615
1616	s += ' %s@0x%x {\n' % (periph.pseg.name, periph.pseg.base)
1617	s += ' device_type = "soclib:nic";\n'
1618	s += ' reg = <0x%x 0x%x 0x%x>;\n' % (msb, lsb, size)
1619	s += ' channel_count = < %d >;\n' % periph.channels
1620
1621	# multi-channels : get HWI index (to XCU or PIC) for RX & TX IRQs
1622	# RX IRQ : (2channel) / TX IRQs : (2channel + 1)
1623	for channel in xrange( periph.channels ):
1624	hwi_id = 0xFFFFFFFF
1625	for irq in irq_ctrl.irqs:
1626	if ( (irq.isrtype == 'ISR_NIC_RX') and (irq.channel == channel) ):
1627	hwi_id = irq.srcid
1628	if ( hwi_id == 0xFFFFFFFF ):
1629	print '[genmap error] in netbsd.dts()'
1630	print ' ISR_NIC_RX channel %d not found' % channel
1631	sys.exit(1)
1632
1633	name = '%s' % (irq_ctrl_name)
1634	s += ' irq_rx@%d{\n' % channel
1635	s += ' device_type = "soclib:periph:irq";\n'
1636	s += ' output_line = <%d>;\n' % (2*channel)
1637	s += ' irq = <&{/%s} %d>;\n' % (name, hwi_id)
1638	s += ' parent = <&{/%s@0x%x}>;\n' % (periph.pseg.name, periph.pseg.base)
1639	s += ' };\n'
1640
1641	hwi_id = 0xFFFFFFFF
1642	for irq in irq_ctrl.irqs:
1643	if ( (irq.isrtype == 'ISR_NIC_TX') and (irq.channel == channel) ):
1644	hwi_id = irq.srcid
1645	if ( hwi_id == 0xFFFFFFFF ):
1646	print '[genmap error] in netbsd.dts()'
1647	print ' ISR_NIC_TX channel %d not found' % channel
1648	sys.exit(1)
1649
1650	name = '%s' % (irq_ctrl_name)
1651	s += ' irq_tx@%d{\n' % channel
1652	s += ' device_type = "soclib:periph:irq";\n'
1653	s += ' output_line = <%d>;\n' % (2*channel + 1)
1654	s += ' irq = <&{/%s} %d>;\n' % (name, hwi_id)
1655	s += ' parent = <&{/%s@0x%x}>;\n' % (periph.pseg.name, periph.pseg.base)
1656	s += ' };\n'
1657
1658	s += ' };\n'
1659
1660	# research CMA component
1661	elif ( periph.ptype == 'CMA' ):
1662
1663	s += ' %s@0x%x {\n' % (periph.pseg.name, periph.pseg.base)
1664	s += ' device_type = "soclib:cma";\n'
1665	s += ' reg = <0x%x 0x%x 0x%x>;\n' % (msb, lsb, size)
1666	s += ' channel_count = < %d >;\n' % periph.channels
1667
1668	# multi-channels : get HWI index (to XCU or PIC) for each channel
1669	for channel in xrange( periph.channels ):
1670	hwi_id = 0xFFFFFFFF
1671	for irq in irq_ctrl.irqs:
1672	if ( (irq.isrtype == 'ISR_CMA') and (irq.channel == channel) ):
1673	hwi_id = irq.srcid
1674
1675	if ( hwi_id == 0xFFFFFFFF ):
1676	print '[genmap error] in netbsd.dts()'
1677	print ' ISR_CMA channel %d not found' % channel
1678	sys.exit(1)
1679
1680	name = '%s' % (irq_ctrl_name)
1681	s += ' irq@%d{\n' % channel
1682	s += ' device_type = "soclib:periph:irq";\n'
1683	s += ' output_line = <%d>;\n' % channel
1684	s += ' irq = <&{/%s} %d>;\n' % (name, hwi_id)
1685	s += ' parent = <&{/%s@0x%x}>;\n' % (periph.pseg.name, periph.pseg.base)
1686	s += ' };\n'
1687
1688	s += ' };\n'
1689
1690	else:
1691
1692	print '[genmap error] in netbsd_dts()'
1693	print ' %s peripheral not supported by NetBSD' % periph.ptype
1694
1695
1696	# topology
1697	s += '\n'
1698	s += ' topology {\n'
1699	s += ' #address-cells = <2>;\n'
1700	s += ' #size-cells = <0>;\n'
1701	for cluster in self.clusters:
1702	s += ' cluster@%d,%d {\n' % (cluster.x, cluster.y)
1703	s += ' reg = <%d %d>;\n' % (cluster.x, cluster.y)
1704	s += ' devices = <\n'
1705
1706	offset = ((cluster.x << self.y_width) + cluster.y) << self.p_width
1707	for proc in cluster.procs:
1708	s += ' &{/cpus/Mips,32@0x%x}\n' % (offset + proc.lpid)
1709	for periph in cluster.periphs:
1710	s += ' &{/%s@0x%x}\n' % (periph.pseg.name, periph.pseg.base)
1711	for pseg in cluster.psegs:
1712	if ( pseg.segtype == 'RAM' ):
1713	s += ' &{/%s@0x%x}\n' % (pseg.name, pseg.base)
1714
1715	s += ' >;\n'
1716	s += ' };\n'
1717	s += ' };\n'
1718	s += '};\n'
1719
1720	return s
1721	# end netbsd_dts()
1722
1723	######################################################################
1724	def almos_archinfo( self ): # compute string for arch.info file
1725	# used for almos configuration
1726	# header
1727	s = '# arch.info file generated by genmap for %s\n' % self.name
1728	s += '\n'
1729	s += '[HEADER]\n'
1730	s += ' REVISION=1\n'
1731	s += ' ARCH=%s\n' % self.name
1732	s += ' XMAX=%d\n' % self.x_size
1733	s += ' YMAX=%d\n' % self.y_size
1734	s += ' CPU_NR=%d\n' % self.nprocs
1735	s += '\n'
1736
1737	# clusters
1738	cluster_id = 0
1739	for cluster in self.clusters:
1740
1741	ram = None
1742	nb_cpus = len( cluster.procs )
1743	nb_devs = len( cluster.periphs )
1744
1745	# search a RAM
1746	for pseg in cluster.psegs:
1747	if ( pseg.segtype == 'RAM' ):
1748	ram = pseg
1749	nb_devs += 1
1750
1751	# search XCU to get IRQs indexes if cluster contains peripherals
1752	if ( len( cluster.periphs ) != 0 ):
1753	tty_irq_id = None
1754	bdv_irq_id = None
1755	dma_irq_id = None
1756
1757	for periph in cluster.periphs:
1758	if ( periph.ptype == 'XCU' ):
1759	# scan irqs
1760	for irq in periph.irqs:
1761	if (irq.isrtype=='ISR_TTY_RX'): tty_irq_id = irq.srcid
1762	if (irq.isrtype=='ISR_BDV' ): bdv_irq_id = irq.srcid
1763	if (irq.isrtype=='ISR_DMA' ): dma_irq_id = irq.srcid
1764
1765	# Build the cluster description
1766	s += '[CLUSTER]\n'
1767	s += ' CID=%d\n' % cluster_id
1768	s += ' ARCH_CID=0x%x\n' % ((cluster.x<<self.y_width)+cluster.y)
1769	s += ' CPU_NR=%d\n' % nb_cpus
1770	s += ' DEV_NR=%d\n' % nb_devs
1771
1772
1773	# Handling RAM when cluster contain a RAM
1774	if (ram != None ):
1775	base = ram.base
1776	size = ram.size
1777	irqid = -1
1778	s += ' DEVID=RAM'
1779	s += ' BASE=0x%x SIZE=0x%x IRQ=-1\n' % (base,size)
1780
1781	# Handling peripherals
1782	for periph in cluster.periphs:
1783	base = periph.pseg.base
1784	size = periph.pseg.size
1785
1786	if ( periph.ptype == 'XCU' ):
1787
1788	s += ' DEVID=XICU'
1789	s += ' BASE=0x%x SIZE=0x%x IRQ=-1\n' %(base,size)
1790
1791	elif ( (periph.ptype == 'TTY')
1792	and (tty_irq_id != None) ):
1793
1794	s += ' DEVID=TTY'
1795	s += ' BASE=0x%x SIZE=0x%x IRQ=%d\n' %(base,size,tty_irq_id)
1796
1797	elif ( (periph.ptype == 'DMA')
1798	and (dma_irq_id != None) ):
1799
1800	s += ' DEVID=DMA'
1801	s += ' BASE=0x%x SIZE=0x%x IRQ=%d\n' %(base,size,dma_irq_id)
1802
1803	elif ( periph.ptype == 'FBF' ):
1804
1805	s += ' DEVID=FB'
1806	s += ' BASE=0x%x SIZE=0x%x IRQ=-1\n' %(base,size )
1807
1808	elif ( (periph.ptype == 'IOC') and (periph.subtype == 'BDV')
1809	and (bdv_irq_id != None) ):
1810
1811	s += ' DEVID=BLKDEV'
1812	s += ' BASE=0x%x SIZE=0x%x IRQ=%d\n' %(base,size,bdv_irq_id)
1813
1814	elif ( periph.ptype == 'PIC' ):
1815
1816	s += ' DEVID=IOPIC'
1817	s += ' BASE=0x%x SIZE=0x%x IRQ=-1\n' %(base,size)
1818
1819	else:
1820	print '# Warning from almos_archinfo() in cluster[%d,%d]' \
1821	% (cluster.x, cluster.y)
1822	print '# peripheral type %s/%s not supported yet\n' \
1823	% ( periph.ptype, periph.subtype )
1824
1825	cluster_id += 1
1826
1827	return s
1828
1829	# end of almos_archinfo()
1830
1831
1832
1833
1834
1835
1836
1837
1838	###################################################################################
1839	class Cluster ( object ):
1840	###################################################################################
1841	def __init__( self,
1842	x,
1843	y ):
1844
1845	self.index = 0 # global index (set by Mapping constructor)
1846	self.x = x # x coordinate
1847	self.y = y # y coordinate
1848	self.psegs = [] # filled by addRam() or addPeriph()
1849	self.procs = [] # filled by addProc()
1850	self.periphs = [] # filled by addPeriph()
1851
1852	return
1853
1854	################
1855	def xml( self ): # xml for a cluster
1856
1857	s = ' <cluster x="%d" y="%d" >\n' % (self.x, self.y)
1858	for pseg in self.psegs: s += pseg.xml()
1859	for proc in self.procs: s += proc.xml()
1860	for peri in self.periphs: s += peri.xml()
1861	s += ' </cluster>\n'
1862
1863	return s
1864
1865	#############################################
1866	def cbin( self, mapping, verbose, expected ): # C binary structure for Cluster
1867
1868	if ( verbose ):
1869	print '*** cbin for cluster [%d,%d]' % (self.x, self.y)
1870
1871	# check index
1872	if (self.index != expected):
1873	print '[genmap error] in Cluster.cbin()'
1874	print ' cluster global index = %d / expected = %d' \
1875	% (self.index,expected)
1876	sys.exit(1)
1877
1878	# compute global index for first pseg
1879	if ( len(self.psegs) > 0 ):
1880	pseg_id = self.psegs[0].index
1881	else:
1882	pseg_id = 0
1883
1884	# compute global index for first proc
1885	if ( len(self.procs) > 0 ):
1886	proc_id = self.procs[0].index
1887	else:
1888	proc_id = 0
1889
1890	# compute global index for first periph
1891	if ( len(self.periphs) > 0 ):
1892	periph_id = self.periphs[0].index
1893	else:
1894	periph_id = 0
1895
1896	byte_stream = bytearray()
1897	byte_stream += mapping.int2bytes(4,self.x) # x coordinate
1898	byte_stream += mapping.int2bytes(4,self.y) # x coordinate
1899	byte_stream += mapping.int2bytes(4,len(self.psegs)) # psegs in cluster
1900	byte_stream += mapping.int2bytes(4,pseg_id ) # global index
1901	byte_stream += mapping.int2bytes(4,len(self.procs)) # procs in cluster
1902	byte_stream += mapping.int2bytes(4,proc_id ) # global index
1903	byte_stream += mapping.int2bytes(4,len(self.periphs)) # periphs in cluster
1904	byte_stream += mapping.int2bytes(4, periph_id ) # global index
1905
1906	if ( verbose ):
1907	print 'nb_psegs = %d' % len( self.psegs )
1908	print 'pseg_id = %d' % pseg_id
1909	print 'nb_procs = %d' % len( self.procs )
1910	print 'proc_id = %d' % proc_id
1911	print 'nb_periphs = %d' % len( self.periphs )
1912	print 'periph_id = %d' % periph_id
1913
1914	return byte_stream
1915
1916	##################################################################################
1917	class Vspace( object ):
1918	##################################################################################
1919	def __init__( self,
1920	name,
1921	startname,
1922	active ):
1923
1924	self.index = 0 # global index ( set by addVspace() )
1925	self.name = name # vspace name
1926	self.startname = startname # name of vseg containing the start_vector
1927	self.active = active # active at boot if true
1928	self.vsegs = []
1929	self.threads = []
1930
1931	return
1932
1933	################
1934	def xml( self ): # xml for one vspace
1935
1936	s = ' <vspace name="%s" startname="%s" active="%d" >\n' \
1937	%(self.name , self.startname , self.active)
1938	for vseg in self.vsegs: s += vseg.xml()
1939	for thread in self.threads: s += thread.xml()
1940	s += ' </vspace>\n'
1941
1942	return s
1943
1944	#############################################
1945	def cbin( self, mapping, verbose, expected ): # C binary for Vspace
1946
1947	if ( verbose ):
1948	print '*** cbin for vspace %s' % (self.name)
1949
1950	# check index
1951	if (self.index != expected):
1952	print '[genmap error] in Vspace.cbin()'
1953	print ' vspace global index = %d / expected = %d' \
1954	%(self.index,expected)
1955	sys.exit(1)
1956
1957	# compute global index for vseg containing start_vector
1958	vseg_start_id = 0xFFFFFFFF
1959	for vseg in self.vsegs:
1960	if ( vseg.name == self.startname ): vseg_start_id = vseg.index
1961
1962	if ( vseg_start_id == 0xFFFFFFFF ):
1963	print '[genmap error] in Vspace.cbin()'
1964	print ' startname %s not found for vspace %s' \
1965	%(self.startname,self.name)
1966	sys.exit(1)
1967
1968	# compute first vseg and first thread global index
1969	first_vseg_id = self.vsegs[0].index
1970	first_thread_id = self.threads[0].index
1971
1972	# compute number of threads and number of vsegs
1973	nb_vsegs = len( self.vsegs )
1974	nb_threads = len( self.threads )
1975
1976	byte_stream = bytearray()
1977	byte_stream += mapping.str2bytes(32,self.name) # vspace name
1978	byte_stream += mapping.int2bytes(4, vseg_start_id) # vseg start_vector
1979	byte_stream += mapping.int2bytes(4, nb_vsegs) # number of vsegs
1980	byte_stream += mapping.int2bytes(4, nb_threads) # number of threads
1981	byte_stream += mapping.int2bytes(4, first_vseg_id) # global index
1982	byte_stream += mapping.int2bytes(4, first_thread_id) # global index
1983	byte_stream += mapping.int2bytes(4, self.active) # always active if non zero
1984
1985	if ( verbose ):
1986	print 'start_id = %d' % vseg_start_id
1987	print 'nb_vsegs = %d' % nb_vsegs
1988	print 'nb_threads = %d' % nb_threads
1989	print 'vseg_id = %d' % first_vseg_id
1990	print 'thread_id = %d' % first_thread_id
1991	print 'active = %d' % self.active
1992
1993	return byte_stream
1994
1995	##################################################################################
1996	class Thread( object ):
1997	##################################################################################
1998	def __init__( self,
1999	name,
2000	is_main,
2001	x,
2002	y,
2003	p,
2004	stackname,
2005	heapname,
2006	startid ):
2007
2008	self.index = 0 # global index value set by addThread()
2009	self.name = name # thread name
2010	self.is_main = is_main # Boolean (one main per vspace)
2011	self.x = x # cluster x coordinate
2012	self.y = y # cluster y coordinate
2013	self.p = p # processor local index
2014	self.stackname = stackname # name of vseg containing the stack
2015	self.heapname = heapname # name of vseg containing the heap
2016	self.startid = startid # index in start_vector
2017	return
2018
2019	########################################
2020	def xml( self ): # xml for one thread
2021
2022	s = ' <thread name="%s"' % self.name
2023	s += ' is_main="%d"' % self.is_main
2024	s += ' x="%d"' % self.x
2025	s += ' y="%d"' % self.y
2026	s += ' p="%d"' % self.p
2027	s += '\n '
2028	s += ' stackname="%s"' % self.stackname
2029	s += ' heapname="%s"' % self.heapname
2030	s += ' startid="%d"' % self.startid
2031	s += ' />\n'
2032
2033	return s
2034
2035	############################################################################
2036	def cbin( self, mapping, verbose, expected, vspace ): # C binary for Thread
2037
2038	if ( verbose ):
2039	print '*** cbin for thread %s in vspace %s' \
2040	% (self.name, vspace.name)
2041
2042	# check index
2043	if (self.index != expected):
2044	print '[genmap error] in Thread.cbin()'
2045	print ' thread global index = %d / expected = %d' \
2046	%(self.index,expected)
2047	sys.exit(1)
2048
2049	# compute cluster global index
2050	cluster_id = (self.x * mapping.y_size) + self.y
2051
2052	# compute vseg index for stack
2053	vseg_stack_id = 0xFFFFFFFF
2054	for vseg in vspace.vsegs:
2055	if ( vseg.name == self.stackname ): vseg_stack_id = vseg.index
2056
2057	if ( vseg_stack_id == 0xFFFFFFFF ):
2058	print '[genmap error] in Thread.cbin()'
2059	print ' stackname %s not found for thread %s in vspace %s' \
2060	% ( self.stackname, self.name, vspace.name )
2061	sys.exit(1)
2062
2063	# compute vseg index for heap
2064	if ( self.heapname == '' ):
2065	vseg_heap_id = 0
2066	else:
2067	vseg_heap_id = 0xFFFFFFFF
2068	for vseg in vspace.vsegs:
2069	if ( vseg.name == self.heapname ): vseg_heap_id = vseg.index
2070
2071	if ( vseg_heap_id == 0xFFFFFFFF ):
2072	print '[genmap error] in Thread.cbin()'
2073	print ' heapname %s not found for thread %s in vspace %s' \
2074	% ( self.heapname, self.name, vspace.name )
2075	sys.exit(1)
2076
2077	byte_stream = bytearray()
2078	byte_stream += mapping.str2bytes(32,self.name) # thread name in vspace
2079	byte_stream += mapping.int2bytes(4, cluster_id) # cluster global index
2080	byte_stream += mapping.int2bytes(4, self.p) # processor local index
2081	byte_stream += mapping.int2bytes(4, self.is_main) # main if non zero
2082	byte_stream += mapping.int2bytes(4, vseg_stack_id) # stack vseg local index
2083	byte_stream += mapping.int2bytes(4, vseg_heap_id) # heap vseg local index
2084	byte_stream += mapping.int2bytes(4, self.startid) # index in start vector
2085	byte_stream += mapping.int2bytes(4 ,0) # ltid (dynamically computed)
2086
2087	if ( verbose ):
2088	print 'clusterid = %d' % cluster_id
2089	print 'lpid = %d' % self.p
2090	print 'is_main = %d' % self.is_main
2091	print 'stackid = %d' % vseg_stack_id
2092	print 'heapid = %d' % vseg_heap_id
2093	print 'startid = %d' % self.startid
2094
2095	return byte_stream
2096
2097	##################################################################################
2098	class Vseg( object ):
2099	##################################################################################
2100	def __init__( self,
2101	name,
2102	vbase,
2103	length,
2104	mode,
2105	vtype,
2106	x,
2107	y,
2108	pseg,
2109	identity = False,
2110	local = False,
2111	big = False,
2112	binpath = '' ):
2113
2114	assert (vbase & 0xFFFFFFFF) == vbase
2115
2116	assert (length & 0xFFFFFFFF) == length
2117
2118	assert mode in VSEGMODES
2119
2120	assert vtype in VSEGTYPES
2121
2122	assert (vtype != 'ELF') or (binpath != '')
2123
2124	self.index = 0 # global index ( set by addVseg() )
2125	self.name = name # vseg name (unique in vspace)
2126	self.vbase = vbase # virtual base address in vspace
2127	self.length = length # vseg length (bytes)
2128	self.vtype = vtype # vseg type (defined in VSEGTYPES)
2129	self.mode = mode # CXWU access rights
2130	self.x = x # x coordinate of destination cluster
2131	self.y = y # y coordinate of destination cluster
2132	self.psegname = pseg # name of pseg in destination cluster
2133	self.identity = identity # identity mapping required
2134	self.local = local # only mapped in local PTAB when true
2135	self.big = big # to be mapped in a big physical page
2136	self.binpath = binpath # pathname for binary file (ELF or BLOB)
2137
2138	return
2139
2140	##################################
2141	def xml( self ): # xml for a vseg
2142
2143	s = ' <vseg name="%s"' %(self.name)
2144	s += ' vbase="0x%x"' %(self.vbase)
2145	s += ' length="0x%x"' %(self.length)
2146	s += ' type="%s"' %(self.vtype)
2147	s += ' mode="%s"' %(self.mode)
2148	s += '\n '
2149	s += ' x="%d"' %(self.x)
2150	s += ' y="%d"' %(self.y)
2151	s += ' psegname="%s"' %(self.psegname)
2152	if ( self.identity ): s += ' ident="1"'
2153	if ( self.local ): s += ' local="1"'
2154	if ( self.big ): s += ' big="1"'
2155	if ( self.binpath != '' ): s += ' binpath="%s"' %(self.binpath)
2156	s += ' />\n'
2157
2158	return s
2159
2160	#####################################################################
2161	def cbin( self, mapping, verbose, expected ): # C binary for Vseg
2162
2163	if ( verbose ):
2164	print '*** cbin for vseg[%d] %s' % (self.index, self.name)
2165
2166	# check index
2167	if (self.index != expected):
2168	print '[genmap error] in Vseg.cbin()'
2169	print ' vseg global index = %d / expected = %d' \
2170	% (self.index, expected )
2171	sys.exit(1)
2172
2173	# compute pseg_id
2174	pseg_id = 0xFFFFFFFF
2175	cluster_id = (self.x * mapping.y_size) + self.y
2176	cluster = mapping.clusters[cluster_id]
2177	for pseg in cluster.psegs:
2178	if (self.psegname == pseg.name):
2179	pseg_id = pseg.index
2180	if (pseg_id == 0xFFFFFFFF):
2181	print '[genmap error] in Vseg.cbin() : '
2182	print ' psegname %s not found for vseg %s in cluster %d' \
2183	% ( self.psegname, self.name, cluster_id )
2184	sys.exit(1)
2185
2186	# compute numerical value for mode
2187	mode_id = 0xFFFFFFFF
2188	for x in xrange( len(VSEGMODES) ):
2189	if ( self.mode == VSEGMODES[x] ):
2190	mode_id = x
2191	if ( mode_id == 0xFFFFFFFF ):
2192	print '[genmap error] in Vseg.cbin() : '
2193	print ' undefined vseg mode %s' % self.mode
2194	sys.exit(1)
2195
2196	# compute numerical value for vtype
2197	vtype_id = 0xFFFFFFFF
2198	for x in xrange( len(VSEGTYPES) ):
2199	if ( self.vtype == VSEGTYPES[x] ):
2200	vtype_id = x
2201	if ( vtype_id == 0xFFFFFFFF ):
2202	print '[genmap error] in Vseg.cbin()'
2203	print ' undefined vseg type %s' % self.vtype
2204	sys.exit(1)
2205
2206	byte_stream = bytearray()
2207	byte_stream += mapping.str2bytes(32,self.name ) # vseg name
2208	byte_stream += mapping.str2bytes(64,self.binpath ) # binpath
2209	byte_stream += mapping.int2bytes(4, self.vbase ) # virtual base address
2210	byte_stream += mapping.int2bytes(8, 0 ) # physical base address
2211	byte_stream += mapping.int2bytes(4, self.length ) # vseg size (bytes)
2212	byte_stream += mapping.int2bytes(4, pseg_id ) # pseg global index
2213	byte_stream += mapping.int2bytes(4, mode_id ) # CXWU flags
2214	byte_stream += mapping.int2bytes(4, vtype_id ) # vseg type
2215	byte_stream += mapping.int2bytes(1, 0 ) # mapped when non zero
2216	byte_stream += mapping.int2bytes(1, self.identity ) # identity mapping
2217	byte_stream += mapping.int2bytes(1, self.local ) # only in local PTAB
2218	byte_stream += mapping.int2bytes(1, self.big ) # to be mapped in BPP
2219
2220	if ( verbose ):
2221	print 'binpath = %s' % self.binpath
2222	print 'vbase = %x' % self.vbase
2223	print 'pbase = 0'
2224	print 'length = %x' % self.length
2225	print 'pseg_id = %d' % pseg_id
2226	print 'mode = %d' % mode_id
2227	print 'type = %d' % vtype_id
2228	print 'mapped = 0'
2229	print 'ident = %d' % self.identity
2230	print 'local = %d' % self.local
2231	print 'big = %d' % self.big
2232
2233	return byte_stream
2234
2235	##################################################################################
2236	class Processor ( object ):
2237	##################################################################################
2238	def __init__( self,
2239	x,
2240	y,
2241	lpid ):
2242
2243	self.index = 0 # global index ( set by addProc() )
2244	self.x = x # x cluster coordinate
2245	self.y = y # y cluster coordinate
2246	self.lpid = lpid # processor local index
2247
2248	return
2249
2250	########################################
2251	def xml( self ): # xml for a processor
2252	return ' <proc index="%d" />\n' % (self.lpid)
2253
2254	####################################################################
2255	def cbin( self, mapping, verbose, expected ): # C binary for Proc
2256
2257	if ( verbose ):
2258	print '*** cbin for proc %d in cluster (%d,%d)' \
2259	% (self.lpid, self.x, self.y)
2260
2261	# check index
2262	if (self.index != expected):
2263	print '[genmap error] in Proc.cbin()'
2264	print ' proc global index = %d / expected = %d' \
2265	% (self.index,expected)
2266	sys.exit(1)
2267
2268	byte_stream = bytearray()
2269	byte_stream += mapping.int2bytes( 4 , self.lpid ) # local index
2270
2271	return byte_stream
2272
2273	##################################################################################
2274	class Pseg ( object ):
2275	##################################################################################
2276	def __init__( self,
2277	name,
2278	base,
2279	size,
2280	x,
2281	y,
2282	segtype ):
2283
2284	assert( segtype in PSEGTYPES )
2285
2286	self.index = 0 # global index ( set by addPseg() )
2287	self.name = name # pseg name (unique in cluster)
2288	self.base = base # physical base address
2289	self.size = size # segment size (bytes)
2290	self.x = x # cluster x coordinate
2291	self.y = y # cluster y coordinate
2292	self.segtype = segtype # RAM / PERI (defined in mapping_info.h)
2293
2294	return
2295
2296	###################################
2297	def xml( self ): # xml for a pseg
2298
2299	s = ' <pseg name="%s" type="%s" base="0x%x" length="0x%x" />\n' \
2300	% (self.name, self.segtype, self.base, self.size)
2301	return s
2302
2303	###########################################################################
2304	def cbin( self, mapping, verbose, expected, cluster ): # C binary for Pseg
2305
2306	if ( verbose ):
2307	print '*** cbin for pseg[%d] %s in cluster[%d,%d]' \
2308	% (self.index, self.name, cluster.x, cluster.y)
2309
2310	# check index
2311	if (self.index != expected):
2312	print '[genmap error] in Pseg.cbin()'
2313	print ' pseg global index = %d / expected = %d' \
2314	% (self.index,expected)
2315	sys.exit(1)
2316
2317	# compute numerical value for segtype
2318	segtype_int = 0xFFFFFFFF
2319	for x in xrange( len(PSEGTYPES) ):
2320	if ( self.segtype == PSEGTYPES[x] ): segtype_int = x
2321
2322	if ( segtype_int == 0xFFFFFFFF ):
2323	print '[genmap error] in Pseg.cbin()'
2324	print ' undefined segment type %s' % self.segtype
2325	sys.exit(1)
2326
2327	byte_stream = bytearray()
2328	byte_stream += mapping.str2bytes(32,self.name) # pseg name
2329	byte_stream += mapping.int2bytes(8 ,self.base) # physical base address
2330	byte_stream += mapping.int2bytes(8 ,self.size) # segment length
2331	byte_stream += mapping.int2bytes(4 ,segtype_int) # segment type
2332	byte_stream += mapping.int2bytes(4 ,cluster.index) # cluster global index
2333	byte_stream += mapping.int2bytes(4 ,0) # linked list of vsegs
2334
2335	if ( verbose ):
2336	print 'pbase = %x' % self.base
2337	print 'size = %x' % self.size
2338	print 'type = %s' % self.segtype
2339
2340	return byte_stream
2341
2342	##################################################################################
2343	class Periph ( object ):
2344	##################################################################################
2345	def __init__( self,
2346	pseg, # associated pseg
2347	ptype, # peripheral type
2348	subtype = 'NONE', # peripheral subtype
2349	channels = 1, # for multi-channels peripherals
2350	arg0 = 0, # optional (semantic depends on ptype)
2351	arg1 = 0, # optional (semantic depends on ptype)
2352	arg2 = 0, # optional (semantic depends on ptype)
2353	arg3 = 0 ): # optional (semantic depends on ptype)
2354
2355	self.index = 0 # global index ( set by addPeriph() )
2356	self.channels = channels
2357	self.ptype = ptype
2358	self.subtype = subtype
2359	self.arg0 = arg0
2360	self.arg1 = arg1
2361	self.arg2 = arg2
2362	self.arg3 = arg3
2363	self.pseg = pseg
2364	self.irqs = []
2365	self.irq_ctrl = None # interrupt controller peripheral
2366	return
2367
2368	######################################
2369	def xml( self ): # xml for a periph
2370
2371	s = ' <periph type="%s"' % self.ptype
2372	s += ' subtype="%s"' % self.subtype
2373	s += ' psegname="%s"' % self.pseg.name
2374	s += ' channels="%d"' % self.channels
2375	s += ' arg0="%d"' % self.arg0
2376	s += ' arg1="%d"' % self.arg1
2377	s += ' arg2="%d"' % self.arg2
2378	s += ' arg3="%d"' % self.arg3
2379	if ( (self.ptype == 'PIC') or (self.ptype == 'XCU') ):
2380	s += ' >\n'
2381	for irq in self.irqs: s += irq.xml()
2382	s += ' </periph>\n'
2383	else:
2384	s += ' />\n'
2385	return s
2386
2387	######################################################################
2388	def cbin( self, mapping, verbose, expected ): # C binary for Periph
2389
2390	if ( verbose ):
2391	print '*** cbin for periph %s in cluster [%d,%d]' \
2392	% (self.ptype, self.pseg.x, self.pseg.y)
2393
2394	# check index
2395	if (self.index != expected):
2396	print '[genmap error] in Periph.cbin()'
2397	print ' periph global index = %d / expected = %d' \
2398	% (self.index,expected)
2399	sys.exit(1)
2400
2401	# compute pseg global index
2402	pseg_id = self.pseg.index
2403
2404	# compute first irq global index
2405	if ( len(self.irqs) > 0 ):
2406	irq_id = self.irqs[0].index
2407	else:
2408	irq_id = 0
2409
2410	# compute numerical value for ptype
2411	ptype_id = 0xFFFFFFFF
2412	for x in xrange( len(PERIPHTYPES) ):
2413	if ( self.ptype == PERIPHTYPES[x] ): ptype_id = x
2414
2415	if ( ptype_id == 0xFFFFFFFF ):
2416	print '[genmap error] in Periph.cbin()'
2417	print ' undefined peripheral type %s' % self.ptype
2418	sys.exit(1)
2419
2420	# compute numerical value for subtype
2421	subtype_id = 0xFFFFFFFF
2422	if (self.ptype == 'IOC'):
2423	for x in xrange( len(IOCSUBTYPES) ):
2424	if ( self.subtype == IOCSUBTYPES[x] ): subtype_id = x
2425	if (self.ptype == 'MWR'):
2426	for x in xrange( len(MWRSUBTYPES) ):
2427	if ( self.subtype == MWRSUBTYPES[x] ): subtype_id = x
2428
2429	byte_stream = bytearray()
2430	byte_stream += mapping.int2bytes(4,ptype_id) # peripheral type
2431	byte_stream += mapping.int2bytes(4,subtype_id) # peripheral subtype
2432	byte_stream += mapping.int2bytes(4,pseg_id) # pseg global index
2433	byte_stream += mapping.int2bytes(4,self.channels) # number of channels
2434	byte_stream += mapping.int2bytes(4,self.arg0) # optionnal arg0
2435	byte_stream += mapping.int2bytes(4,self.arg1) # optionnal arg1
2436	byte_stream += mapping.int2bytes(4,self.arg2) # optionnal arg2
2437	byte_stream += mapping.int2bytes(4,self.arg3) # optionnal arg3
2438	byte_stream += mapping.int2bytes(4,len(self.irqs)) # number of input irqs
2439	byte_stream += mapping.int2bytes( 4 , irq_id ) # global index
2440
2441	if ( verbose ):
2442	print 'ptype = %d' % ptype_id
2443	print 'subtype = %d' % subtype_id
2444	print 'pseg_id = %d' % pseg_id
2445	print 'nb_irqs = %d' % len( self.irqs )
2446	print 'irq_id = %d' % irq_id
2447	return byte_stream
2448
2449	##################################################################################
2450	class Irq ( object ):
2451	##################################################################################
2452	def __init__( self,
2453	irqtype, # input IRQ type : HWI / WTI / PTI (for XCU only)
2454	srcid, # input IRQ index (for XCU or PIC)
2455	isrtype, # Type of ISR to be executed
2456	channel = 0 ): # channel index for multi-channel ISR
2457
2458	assert irqtype in IRQTYPES
2459	assert isrtype in ISRTYPES
2460	assert srcid < 32
2461
2462	self.index = 0 # global index ( set by addIrq() )
2463	self.irqtype = irqtype # IRQ type
2464	self.srcid = srcid # source IRQ index
2465	self.isrtype = isrtype # ISR type
2466	self.channel = channel # channel index (for multi-channels ISR)
2467	return
2468
2469	################################
2470	def xml( self ): # xml for Irq
2471
2472	s = ' <irq srctype="%s" srcid="%d" isr="%s" channel="%d" />\n' \
2473	% ( self.irqtype, self.srcid, self.isrtype, self.channel )
2474	return s
2475
2476	####################################################################
2477	def cbin( self, mapping, verbose, expected ): # C binary for Irq
2478
2479	if ( verbose ):
2480	print '*** cbin for irq[%d]' % (self.index)
2481
2482	# check index
2483	if (self.index != expected):
2484	print '[genmap error] in Irq.cbin()'
2485	print ' irq global index = %d / expected = %d' \
2486	% (self.index,expected)
2487	sys.exit(1)
2488
2489	# compute numerical value for irqtype
2490	irqtype_id = 0xFFFFFFFF
2491	for x in xrange( len(IRQTYPES) ):
2492	if ( self.irqtype == IRQTYPES[x] ): irqtype_id = x
2493
2494	if ( irqtype_id == 0xFFFFFFFF ):
2495	print '[genmap error] in Irq.cbin()'
2496	print ' undefined irqtype %s' % self.irqtype
2497	sys.exit(1)
2498
2499	# compute numerical value for isrtype
2500	isrtype_id = 0xFFFFFFFF
2501	for x in xrange( len(ISRTYPES) ):
2502	if ( self.isrtype == ISRTYPES[x] ): isrtype_id = x
2503
2504	if ( isrtype_id == 0xFFFFFFFF ):
2505	print '[genmap error] in Irq.cbin()'
2506	print ' undefined isrtype %s' % self.isrtype
2507	sys.exit(1)
2508
2509	byte_stream = bytearray()
2510	byte_stream += mapping.int2bytes( 4, irqtype_id )
2511	byte_stream += mapping.int2bytes( 4, self.srcid )
2512	byte_stream += mapping.int2bytes( 4, isrtype_id )
2513	byte_stream += mapping.int2bytes( 4, self.channel )
2514	byte_stream += mapping.int2bytes( 4, 0 )
2515	byte_stream += mapping.int2bytes( 4, 0 )
2516
2517	if ( verbose ):
2518	print 'irqtype = %s' % self.irqtype
2519	print 'srcid = %d' % self.srcid
2520	print 'isrtype = %s' % self.isrtype
2521	print 'channel = %d' % self.channel
2522
2523	return byte_stream
2524
2525	# Local Variables:
2526	# tab-width: 4;
2527	# c-basic-offset: 4;
2528	# c-file-offsets:((innamespace . 0)(inline-open . 0));
2529	# indent-tabs-mode: nil;
2530	# End:
2531	#
2532	# vim: filetype=python:expandtab:shiftwidth=4:tabstop=4:softtabstop=4
2533

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