Ignore:
Timestamp:
Sep 29, 2014, 4:33:17 PM (10 years ago)
Author:
cfuguet
Message:

tsar_generic_leti: Complete update of the arch.py file

  • The arch.py file includes now the support for BPPs on the GietVM
File:
1 edited

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  • trunk/platforms/tsar_generic_leti/arch.py

    r819 r820  
    1818#  - y_size         : number of clusters in a column
    1919#  - nb_procs       : number of processors per cluster
     20#  - fbf_width      : frame_buffer width = frame_buffer heigth
    2021#
    2122#  The "hidden" parameters (defined below) are:
    2223#  - nb_ttys        : number of TTY channels
    2324#  - nb_nics        : number of NIC channels
    24 #  - fbf_width      : frame_buffer width = frame_buffer heigth
    2525#  - x_io           : cluster_io x coordinate
    2626#  - y_io           : cluster_io y coordinate
     
    3131#  - use_ramdisk    : use a ramdisk when True
    3232#  - peri_increment : address increment for replicated peripherals
    33 ###############################################################################
     33#
     34# Regarding physical memory allocation, there is one allocator per cluster:
     35# - We use only one big physical page (2 Mbytes) for the five boot vsegs,
     36#   allocated in cluster[0,0], identity mapping.
     37# - We use one big page per cluster for the kernel vsegs.
     38#   The kernel_code, kernel_init and kernel_ptab can be replicated in all clusters.
     39#   The kernel_data and kernel_uncdata shared vsegs are only mapped in cluster[0,0].
     40# - We use 8 small physical pages (4 Kbytes) per cluster for the schedulers.
     41# - We use one big page for each external peripheral in IO cluster,
     42# - We use one small page per cluster for each internal peripheral.
     43###################################################################################
    3444
    3545########################
    36 def arch( x_size     = 2,
    37           y_size     = 2,
    38           nb_procs   = 2,
    39           fbf_width  = 128 ):
     46def arch( x_size    = 2,
     47          y_size    = 2,
     48          nb_procs  = 2,
     49          fbf_width = 128 ):
    4050
    4151    ### define architecture constants
    4252
    43     nb_ttys           = 1
    44     nb_nics           = 2
    45     x_io              = 0
    46     y_io              = 0
    47     x_width           = 4
    48     y_width           = 4
    49     p_width           = 4
    50     paddr_width       = 40
    51     irq_per_proc      = 4
    52     use_ramdisk       = True
    53     peri_increment    = 0x10000    # distributed peripherals vbase address increment
    54     sched_increment   = 0x10000    # distributed schedulers vbase address increment
    55     ptab_increment    = 0x200000   # distributed page tables vbase address increment
    56     reset_address     = 0x00000000
    57     distributed_ptabs = False
     53    nb_ttys         = 1
     54    nb_nics         = 2
     55    x_io            = 0
     56    y_io            = 0
     57    x_width         = 4
     58    y_width         = 4
     59    p_width         = 4
     60    paddr_width     = 40
     61    irq_per_proc    = 4
     62    use_ramdisk     = True
     63    peri_increment  = 0x10000    # distributed peripherals vbase address increment
     64    sched_increment = 0x10000    # distributed schedulers vbase address increment
     65    ptab_increment  = 0x200000   # distributed page tables vbase address increment
     66    reset_address   = 0x00000000
    5867
    5968    ### parameters checking
     
    7584
    7685    ### define physical segments
     86    ### These segments are replicated in all clusters
    7787
    7888    ram_base = 0x0000000000
     
    8595    mmc_size = 0x1000                      # 4 Kbytes
    8696
     97    ### define physical segments for external peripherals
     98    ## These segments are only defined in cluster_io
     99
    87100    offset_io = ((x_io << y_width) + y_io) << (paddr_width - x_width - y_width)
    88101
     
    109122
    110123    ### define preloader & bootloader vsegs base addresses and sizes
    111     ### we want to pack these 5 vsegs in the same big page
    112 
     124    ### We want to pack these 5 vsegs in the same big page
     125    ### => boot cost is one BPP in cluster[0][0]
     126
     127                               '__W_', vtype = 'PERI' , x = x , y = y , pseg =
     128                               'XCU',
    113129    preloader_vbase      = 0x00000000      # ident
    114130    preloader_size       = 0x00010000      # 64 Kbytes
     
    127143
    128144    ### define kernel vsegs base addresses and sizes
    129     ### we want to pack code, init and data vsegs in one big page
    130     ### we want to map the ptab vseg in one big page per cluster
    131     ### we want to map the sched vseg in small pages
    132    
     145    ### code, init, ptab & sched vsegs are replicated in all clusters.
     146    ### data & uncdata vsegs are only mapped in cluster[0][0].
     147    ### - We pack code, init, data vsegs in the same BIG page.
     148    ### - We use another BIG page for the ptab vseg.
     149    ### - We use 2*nb_procs SMALL pages for the sched vseg.
     150    ### - we use one SMALL page for uncdata
     151    ### => kernel cost is 2 BPPs and (2*n + 1) SPPs per cluster.
     152
    133153    kernel_code_vbase    = 0x80000000
    134154    kernel_code_size     = 0x00080000      # 512 Kbytes per cluster
     
    138158
    139159    kernel_data_vbase    = 0x80100000
    140     kernel_data_size     = 0x00100000      # 1 Mbytes  in cluster [0,0]
     160    kernel_data_size     = 0x00100000      # 1 Mbytes in cluster[0][0]
    141161
    142162    kernel_ptab_vbase    = 0xB0000000
     
    146166    kernel_uncdata_size  = 0x00001000      # 4 Kbytes
    147167
    148     kernel_sched_vbase   = 0xA0000000                # distributed in all clusters
    149     kernel_sched_size    = 0x00002000 * nb_procs     # 8 kbytes per processor
     168    kernel_sched_vbase   = 0xA0000000            # distributed in all clusters
     169    kernel_sched_size    = 0x00002000 * nb_procs # 8 kbytes per processor
    150170
    151171    ### create mapping
     
    171191    ###  external peripherals (accessible in cluster[0,0] only for this mapping)
    172192
    173     bdv = mapping.addPeriph( 'BDV', base = bdv_base, size = bdv_size,
    174                              ptype = 'IOC', subtype = 'BDV' )
    175 
    176     tty = mapping.addPeriph( 'TTY', base = tty_base, size = tty_size,
    177                              ptype = 'TTY', channels = nb_ttys )
    178 
    179     nic = mapping.addPeriph( 'NIC', base = nic_base, size = nic_size,
    180                              ptype = 'NIC', channels = nb_nics )
    181 
    182     cma = mapping.addPeriph( 'CMA', base = cma_base, size = cma_size,
    183                              ptype = 'CMA', channels = 2*nb_nics )
    184 
    185     fbf = mapping.addPeriph( 'FBF', base = fbf_base, size = fbf_size,
    186                              ptype = 'FBF', arg = fbf_width )
    187 
    188     pic = mapping.addPeriph( 'PIC', base = pic_base, size = pic_size,
    189                              ptype = 'PIC', channels = 32 )
     193    bdv = mapping.addPeriph( 'BDV', base = bdv_base, size = bdv_size, ptype = 'IOC', subtype = 'BDV' )
     194
     195    tty = mapping.addPeriph( 'TTY', base = tty_base, size = tty_size, ptype = 'TTY', channels = nb_ttys )
     196
     197    nic = mapping.addPeriph( 'NIC', base = nic_base, size = nic_size, ptype = 'NIC', channels = nb_nics )
     198
     199    cma = mapping.addPeriph( 'CMA', base = cma_base, size = cma_size, ptype = 'CMA', channels = 2*nb_nics )
     200
     201    fbf = mapping.addPeriph( 'FBF', base = fbf_base, size = fbf_size, ptype = 'FBF', arg = fbf_width )
     202
     203    pic = mapping.addPeriph( 'PIC', base = pic_base, size = pic_size, ptype = 'PIC', channels = 32 )
    190204
    191205    mapping.addIrq( pic, index = 0 , isrtype = 'ISR_NIC_RX', channel = 0 )
     
    207221            offset     = cluster_xy << (paddr_width - x_width - y_width)
    208222
    209             ram = mapping.addRam( 'RAM', base = ram_base + offset,
    210                                   size = ram_size )
    211 
    212             mmc = mapping.addPeriph( 'MMC', base = mmc_base + offset,
    213                                      size = mmc_size, ptype = 'MMC' )
    214 
    215             xcu = mapping.addPeriph( 'XCU', base = xcu_base + offset,
    216                                      size = xcu_size, ptype = 'XCU',
    217                                      channels = nb_procs * irq_per_proc,
    218                                      arg = 16 )
     223            ram = mapping.addRam( 'RAM', base = ram_base + offset, size = ram_size )
     224
     225            mmc = mapping.addPeriph( 'MMC', base = mmc_base + offset, size = mmc_size,
     226                                     ptype = 'MMC' )
     227
     228            xcu = mapping.addPeriph( 'XCU', base = xcu_base + offset, size = xcu_size,
     229                                     ptype = 'XCU', channels = nb_procs * irq_per_proc, arg = 16 )
    219230
    220231            # IRQs replicated in all clusters
     
    230241                mapping.addProc( x, y, p )
    231242
    232     ### global vseg for preloader
     243    ### global vsegs for preloader & boot_loader
     244    ### we want to pack those 5 vsegs in the same big page
     245    ### => same flags CXW_ / identity mapping / non local / big page
     246
     247    mapping.addGlobal( 'seg_preloader', preloader_vbase, preloader_size,
     248                       'CXW_', vtype = 'BUFFER', x = 0, y = 0, pseg = 'RAM',
     249                       identity = True, local = False, big = True )
     250
     251    mapping.addGlobal( 'seg_boot_mapping', boot_mapping_vbase, boot_mapping_size,
     252                       'CXW_', vtype = 'BLOB'  , x = 0, y = 0, pseg = 'RAM',
     253                       identity = True, local = False, big = True )
     254
     255    mapping.addGlobal( 'seg_boot_code', boot_code_vbase, boot_code_size,
     256                       'CXW_', vtype = 'BUFFER', x = 0, y = 0, pseg = 'RAM',
     257                       identity = True, local = False, big = True )
     258
     259    mapping.addGlobal( 'seg_boot_data', boot_data_vbase, boot_data_size,
     260                       'CXW_', vtype = 'BUFFER', x = 0, y = 0, pseg = 'RAM',
     261                       identity = True, local = False, big = True )
     262
     263    mapping.addGlobal( 'seg_boot_stack', boot_stack_vbase, boot_stack_size,
     264                       'CXW_', vtype = 'BUFFER', x = 0, y = 0, pseg = 'RAM',
     265                       identity = True, local = False, big = True )
     266
     267    ### global vsegs kernel_code, kernel_init : local / big page
     268    ### replicated in all clusters with the same name (same vbase)
     269    for x in xrange( x_size ):
     270        for y in xrange( y_size ):
     271            cluster_xy = (x << y_width) + y;
     272
     273            mapping.addGlobal( 'seg_kernel_code', kernel_code_vbase, kernel_code_size,
     274                               'CXW_', vtype = 'ELF', x = x, y = y, pseg = 'RAM',
     275                               binpath = 'build/kernel/kernel.elf',
     276                               local = True, big = True )
     277
     278            mapping.addGlobal( 'seg_kernel_init', kernel_init_vbase, kernel_init_size,
     279                               'CXW_', vtype = 'ELF', x = x, y = y, pseg = 'RAM',
     280                               binpath = 'build/kernel/kernel.elf',
     281                               local = True, big = True )
     282
     283    ### global vseg kernel_data: non local / big page
     284    ### Only mapped in cluster[0][0]
     285    mapping.addGlobal( 'seg_kernel_data', kernel_data_vbase, kernel_data_size,
     286                       'C_W_', vtype = 'ELF', x = 0, y = 0, pseg = 'RAM',
     287                       binpath = 'build/kernel/kernel.elf', local = False )
     288
     289    ### global vseg kernel_uncdata: non local / small page
     290    ### Only mapped in cluster[0][0]
     291    mapping.addGlobal( 'seg_kernel_uncdata', kernel_uncdata_vbase, kernel_uncdata_size,
     292                       '__W_', vtype = 'ELF', x = 0, y = 0, pseg = 'RAM',
     293                       binpath = 'build/kernel/kernel.elf', local = False )
     294
     295    for x in xrange( x_size ):
     296        for y in xrange( y_size ):
     297            cluster_xy = (x << y_width) + y;
     298
     299            ### Global vsegs kernel_ptab_x_y: non local / big pages
     300            ### replicated in all clusters with name indexed by (x,y)
     301            ### as vbase address is incremented by (cluster_xy * vseg_increment)
     302            offset = cluster_xy * ptab_increment
     303            mapping.addGlobal( 'seg_kernel_ptab_%d_%d' %(x,y), kernel_ptab_vbase + offset, kernel_ptab_size,
     304                               'CXW_', vtype = 'PTAB', x = x, y = y, pseg = 'RAM',
     305                               local = False, big = True )
     306
     307            ### global vsegs kernel_sched : non local / small pages
     308            ### allocated in all clusters with name indexed by (x,y)
     309            ### as vbase address is incremented by (cluster_xy * vseg_increment)
     310            offset = cluster_xy * sched_increment
     311            mapping.addGlobal( 'seg_kernel_sched_%d_%d' %(x,y), kernel_sched_vbase + offset , kernel_sched_size,
     312                               'C_W_', vtype = 'SCHED', x = x, y = y, pseg = 'RAM',
     313                               local = False, big = False )
    233314
    234315    ### global vseg for ram disk
    235 
    236316    if use_ramdisk:
    237317        mapping.addGlobal( 'seg_rdk', rdk_base, rdk_size, '__W_',
    238318                           vtype = 'BUFFER', x = 0, y = 0, pseg = 'RAM',
    239                            identity = True )
    240 
    241     ### global vsegs for external peripherals / identity mapping
    242 
     319                           identity = True, local = False, big = True )
     320
     321    ### global vsegs for external peripherals: non local / big page
    243322    mapping.addGlobal( 'seg_bdv', bdv_base, bdv_size, '__W_',
    244323                       vtype = 'PERI', x = 0, y = 0, pseg = 'BDV',
    245                        identity = True )
     324                       local = False, big = True )
    246325
    247326    mapping.addGlobal( 'seg_tty', tty_base, tty_size, '__W_',
    248327                       vtype = 'PERI', x = 0, y = 0, pseg = 'TTY',
    249                        identity = True )
     328                       local = False, big = True )
    250329
    251330    mapping.addGlobal( 'seg_nic', nic_base, nic_size, '__W_',
    252331                       vtype = 'PERI', x = 0, y = 0, pseg = 'NIC',
    253                        identity = True )
     332                       local = False, big = True )
    254333
    255334    mapping.addGlobal( 'seg_cma', cma_base, cma_size, '__W_',
    256335                       vtype = 'PERI', x = 0, y = 0, pseg = 'CMA',
    257                        identity = True )
     336                       local = False, big = True )
    258337
    259338    mapping.addGlobal( 'seg_fbf', fbf_base, fbf_size, '__W_',
    260339                       vtype = 'PERI', x = 0, y = 0, pseg = 'FBF',
    261                        identity = True )
     340                       local = False, big = True )
    262341
    263342    mapping.addGlobal( 'seg_pic', pic_base, pic_size, '__W_',
    264343                       vtype = 'PERI', x = 0, y = 0, pseg = 'PIC',
    265                        identity = True )
    266 
    267     ### global vsegs for internal peripherals, and for schedulers
    268     ### name is indexed by (x,y) / vbase address is incremented by (cluster_xy * peri_increment)
    269 
     344                       local = False, big = True )
     345
     346    ### global vsegs for internal peripherals : non local / small pages
     347    ### allocated in all clusters with name indexed by (x,y)
     348    ### as vbase address is incremented by (cluster_xy * vseg_increment)
    270349    for x in xrange( x_size ):
    271350        for y in xrange( y_size ):
    272             cluster_xy = (x << y_width) + y;
    273             offset     = cluster_xy * peri_increment
     351            offset = ((x << y_width) + y) * peri_increment
    274352
    275353            mapping.addGlobal( 'seg_xcu_%d_%d' %(x,y), xcu_base + offset, xcu_size,
    276                                '__W_', vtype = 'PERI' , x = x , y = y , pseg = 'XCU' )
     354                               '__W_', vtype = 'PERI' , x = x , y = y , pseg = 'XCU',
     355                               local = False, big = False )
    277356
    278357            mapping.addGlobal( 'seg_mmc_%d_%d' %(x,y), mmc_base + offset, mmc_size,
    279                                '__W_', vtype = 'PERI' , x = x , y = y , pseg = 'MMC' )
    280 
    281             mapping.addGlobal( 'seg_sched_%d_%d' %(x,y), kernel_sched_vbase + offset, kernel_sched_size,
    282                                'C_W_', vtype = 'SCHED', x = x , y = y , pseg = 'RAM' )
    283 
    284     ### global vsegs for preloader and boot_loader
    285     ### identity mapping / non local / big page
    286 
    287     mapping.addGlobal( 'seg_preloader', preloader_vbase, preloader_size,
    288                        'CXW_', vtype = 'BUFFER', x = 0, y = 0, pseg = 'RAM',
    289                        identity = True, local = False, big = True )
    290 
    291     mapping.addGlobal( 'seg_boot_mapping', boot_mapping_vbase, boot_mapping_size,
    292                        'CXW_', vtype = 'BLOB'  , x = 0, y = 0, pseg = 'RAM',
    293                        identity = True, local = False, big = True )
    294 
    295     mapping.addGlobal( 'seg_boot_code', boot_code_vbase, boot_code_size,
    296                        'CXW_', vtype = 'BUFFER', x = 0, y = 0, pseg = 'RAM',
    297                        identity = True, local = False, big = True )
    298 
    299     mapping.addGlobal( 'seg_boot_data', boot_data_vbase, boot_data_size,
    300                        'CXW_', vtype = 'BUFFER', x = 0, y = 0, pseg = 'RAM',
    301                        identity = True, local = False, big = True )
    302 
    303     mapping.addGlobal( 'seg_boot_stack', boot_stack_vbase, boot_stack_size,
    304                        'CXW_', vtype = 'BUFFER', x = 0, y = 0, pseg = 'RAM',
    305                        identity = True, local = False, big = True )
    306 
    307     ### global vsegs kernel_code, kernel_init
    308     for x in xrange( x_size ):
    309         for y in xrange( y_size ):
    310             cluster_xy = (x << y_width) + y;
    311 
    312             mapping.addGlobal( 'seg_kernel_code', kernel_code_vbase, kernel_code_size,
    313                                'CXW_', vtype = 'ELF', x = x , y = y , pseg = 'RAM',
    314                                binpath = 'build/kernel/kernel.elf',
    315                                local = True, big = True )
    316 
    317             mapping.addGlobal( 'seg_kernel_init', kernel_init_vbase, kernel_init_size,
    318                                'CXW_', vtype = 'ELF', x = x , y = y , pseg = 'RAM',
    319                                binpath = 'build/kernel/kernel.elf',
    320                                local = True, big = True )
    321 
    322        
    323 
    324     mapping.addGlobal( 'seg_kernel_data', kernel_data_vbase, kernel_data_size,
    325                        'C_W_', vtype = 'ELF', x = 0, y = 0, pseg = 'RAM',
    326                        binpath = 'build/kernel/kernel.elf', local = False )
    327 
    328     mapping.addGlobal( 'seg_kernel_uncdata', kernel_uncdata_vbase, kernel_uncdata_size,
    329                        '__W_', vtype = 'ELF', x = 0, y = 0, pseg = 'RAM',
    330                        binpath = 'build/kernel/kernel.elf', local = False )
     358                               '__W_', vtype = 'PERI' , x = x , y = y , pseg = 'MMC',
     359                               local = False, big = False )
    331360
    332361    ### return mapping ###
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