Changeset 630 for soft


Ignore:
Timestamp:
Jul 18, 2015, 3:04:15 PM (9 years ago)
Author:
alain
Message:

Update the peripheral drivers using descheduling,
to comply with the modified NORUN bit-vector in task context.

Location:
soft/giet_vm/giet_drivers
Files:
5 edited

Legend:

Unmodified
Added
Removed
  • soft/giet_vm/giet_drivers/bdv_driver.c

    r593 r630  
    2323
    2424///////////////////////////////////////////////////////////////////////////////
     25//      Extern variables
     26///////////////////////////////////////////////////////////////////////////////
     27
     28// allocated in the boot.c or kernel_init.c files
     29extern static_scheduler_t* _schedulers[X_SIZE][Y_SIZE][NB_PROCS_MAX];
     30 
     31///////////////////////////////////////////////////////////////////////////////
    2532//      Global variables
    2633///////////////////////////////////////////////////////////////////////////////
     
    162169        _it_disable( &save_sr );
    163170
    164         // reset runnable
    165         _set_task_slot( x, y, p, ltid, CTX_RUN_ID, 0 ); 
     171        // Set NORUN_MASK_IOC bit
     172        static_scheduler_t* psched  = (static_scheduler_t*)_schedulers[x][y][p];
     173        unsigned int*       ptr     = &psched->context[ltid][CTX_NORUN_ID];
     174        _atomic_or( ptr , NORUN_MASK_IOC );
    166175       
    167176        // launch transfer
     
    234243
    235244    // identify task waiting on BDV
    236     unsigned int remote_procid  = _bdv_gtid>>16;
    237     unsigned int ltid           = _bdv_gtid & 0xFFFF;
    238     unsigned int remote_cluster = remote_procid >> P_WIDTH;
    239     unsigned int remote_x       = remote_cluster >> Y_WIDTH;
    240     unsigned int remote_y       = remote_cluster & ((1<<Y_WIDTH)-1);
    241     unsigned int remote_p       = remote_procid & ((1<<P_WIDTH)-1);
    242 
    243     // re-activates sleeping task
    244     _set_task_slot( remote_x,
    245                     remote_y,
    246                     remote_p,
    247                     ltid,       
    248                     CTX_RUN_ID,  // CTX_RUN slot
    249                     1 );         // running value
     245    unsigned int procid  = _bdv_gtid>>16;
     246    unsigned int ltid    = _bdv_gtid & 0xFFFF;
     247    unsigned int cluster = procid >> P_WIDTH;
     248    unsigned int x       = cluster >> Y_WIDTH;
     249    unsigned int y       = cluster & ((1<<Y_WIDTH)-1);
     250    unsigned int p       = procid & ((1<<P_WIDTH)-1);
     251
     252    // Reset NORUN_MASK_IOC bit
     253    static_scheduler_t* psched  = (static_scheduler_t*)_schedulers[x][y][p];
     254    unsigned int*       ptr     = &psched->context[ltid][CTX_NORUN_ID];
     255    _atomic_and( ptr , ~NORUN_MASK_IOC );
    250256
    251257    // send a WAKUP WTI to processor running the sleeping task
    252     _xcu_send_wti( remote_cluster,   
    253                    remote_p,
     258    _xcu_send_wti( cluster,   
     259                   p,
    254260                   0 );          // don't force context switch
    255261
    256262#if GIET_DEBUG_IOC 
    257 unsigned int procid  = _get_procid();
    258 unsigned int x       = procid >> (Y_WIDTH + P_WIDTH);
    259 unsigned int y       = (procid >> P_WIDTH) & ((1<<Y_WIDTH)-1);
    260 unsigned int p       = procid & ((1<<P_WIDTH)-1);
     263unsigned int pid  = _get_procid();
     264unsigned int c_x  = pid >> (Y_WIDTH + P_WIDTH);
     265unsigned int c_y  = (pid >> P_WIDTH) & ((1<<Y_WIDTH)-1);
     266unsigned int c_p  = pid & ((1<<P_WIDTH)-1);
    261267if ( _get_proctime() > GIET_DEBUG_IOC )
    262268_printf("\n[BDV DEBUG] Processor[%d,%d,%d] enters _bdv_isr() at cycle %d\n"
    263269        "  for task %d running on P[%d,%d,%d] / bdv_status = %x\n",
    264         x , y , p , _get_proctime() ,
    265         ltid , remote_x , remote_y , remote_p , status );
     270        c_x , c_y , c_p , _get_proctime() ,
     271        ltid , x , y , p , status );
    266272#endif
    267273
  • soft/giet_vm/giet_drivers/hba_driver.c

    r603 r630  
    2323#include <vmem.h>
    2424
    25 ///////////////////////////////////////////////////////////////////////////////////
     25//////////////////////////////////////////////////////////////////////////////////
     26//      Extern variables
     27//////////////////////////////////////////////////////////////////////////////////
     28
     29// allocated in the boot.c or kernel_init.c files
     30extern static_scheduler_t* _schedulers[X_SIZE][Y_SIZE][NB_PROCS_MAX];
     31
     32//////////////////////////////////////////////////////////////////////////////////
    2633//               Global variables
    27 ///////////////////////////////////////////////////////////////////////////////////
    28 
    2934//////////////////////////////////////////////////////////////////////////////////
    3035// The global variable hba_boot_mode defines the way the HBA component is used
    3136// and must be defined in both kernel_init.c and boot.c files.
    32 // - during the boot phase, only one processor has access to the HBA in synchronous
    33 //   mode, there is no need for the allocator to use a lock
     37// - during the boot phase, only one processor access the HBA in synchronous
     38//   mode. There is no need for the allocator to use a lock.
    3439// - after the boot phase, the HBA device can be used by several processors. The
    3540//   allocator is protected by a sqt_lock.
     
    278283    // in descheduling mode, we deschedule the task
    279284    // and use an interrupt to reschedule the task.
    280     // We need a critical section, because we must reset the RUN bit
     285    // We need a critical section, because we must set the NORUN bit
    281286        // before to launch the transfer, and we don't want to be
    282287    // descheduled between these two operations.
     
    303308        _it_disable( &save_sr );
    304309
    305         // reset runnable
    306         _set_task_slot( x, y, p, ltid, CTX_RUN_ID, 0 ); 
    307 
     310        // Set NORUN_MASK_IOC bit
     311        static_scheduler_t* psched  = (static_scheduler_t*)_schedulers[x][y][p];
     312        unsigned int*       ptr     = &psched->context[ltid][CTX_NORUN_ID];
     313        _atomic_or( ptr , NORUN_MASK_IOC );
     314     
    308315        // start HBA transfer
    309316        _hba_set_register( HBA_PXCI, (1<<cmd_id) );
     
    432439
    433440            // identify waiting task
    434             unsigned int remote_procid  = _hba_gtid[cmd_id]>>16;
    435             unsigned int ltid           = _hba_gtid[cmd_id] & 0xFFFF;
    436             unsigned int remote_cluster = remote_procid >> P_WIDTH;
    437             unsigned int remote_x       = remote_cluster >> Y_WIDTH;
    438             unsigned int remote_y       = remote_cluster & ((1<<Y_WIDTH)-1);
    439             unsigned int remote_p       = remote_procid & ((1<<P_WIDTH)-1);
     441            unsigned int procid  = _hba_gtid[cmd_id]>>16;
     442            unsigned int ltid    = _hba_gtid[cmd_id] & 0xFFFF;
     443            unsigned int cluster = procid >> P_WIDTH;
     444            unsigned int x       = cluster >> Y_WIDTH;
     445            unsigned int y       = cluster & ((1<<Y_WIDTH)-1);
     446            unsigned int p       = procid & ((1<<P_WIDTH)-1);
    440447 
    441             // re-activates waiting task
    442             _set_task_slot( remote_x,
    443                             remote_y,
    444                             remote_p,
    445                             ltid,
    446                             CTX_RUN_ID,
    447                             1 );
     448            // Reset NORUN_MASK_IOC bit
     449            static_scheduler_t* psched  = (static_scheduler_t*)_schedulers[x][y][p];
     450            unsigned int*       ptr     = &psched->context[ltid][CTX_NORUN_ID];
     451            _atomic_and( ptr , ~NORUN_MASK_IOC );
    448452
    449453            // send a WAKUP WTI to processor running the waiting task
    450             _xcu_send_wti( remote_cluster ,
    451                            remote_p ,
     454            _xcu_send_wti( cluster ,
     455                           p ,
    452456                           0 );          // don't force context switch
    453457
     
    457461        "  resume task %d running on P[%d,%d,%d]\n",
    458462        cmd_id , _get_proctime() ,
    459         ltid , remote_x , remote_y , remote_p );
     463        ltid , x , y , p );
    460464#endif
    461465        }
  • soft/giet_vm/giet_drivers/mmc_driver.c

    r615 r630  
    3939
    4040///////////////////////////////////////////////////////////////////////////////
    41 // Locks protecting MMC components (one per cluster)
    42 // There are two kinds of lock: the _mmc_lock table contains all the locks and
    43 // and is stored in the kernel data segment, whereas the _mmc_distributed_lock
    44 // contains the addresses of locks which are distributed in every cluster (each
    45 // cluster contains the lock which protects its own mmc_component).
     41//     Global variables
     42///////////////////////////////////////////////////////////////////////////////
     43// Two kinds of locks protecting the MMC components (one per cluster):
     44// - the _mmc_lock array contains spin_locks allocated in cluster[0,0].
     45//   They must be used by the boot code because the kernel heap is not set.
     46// - the _mmc_distributed_locks array contains pointers on distributed
     47//   spin_loks allocated in the distributed heap in each cluster.
     48//   Each cluster contains the lock protecting its own mmc_component.
     49//   They can be used by the kernel code.
    4650// The global variable mmc_boot_mode define the type of lock which is used,
    4751// and must be defined in both kernel_init.c and boot.c files.
    48 // - the boot code must use a spin_lock because the kernel heap is not set.
    49 // - the kernel code can use a sqt_lock when the kernel heap is set.
    50 ///////////////////////////////////////////////////////////////////////////////
    51 
    52 extern unsigned int  _mmc_boot_mode;
     52///////////////////////////////////////////////////////////////////////////////
     53
     54__attribute__((section(".kdata")))
     55unsigned int  _mmc_boot_mode;
    5356
    5457__attribute__((section(".kdata")))
     
    6467void _mmc_init_locks()
    6568{
    66     unsigned int cx;    // cluster X coordinate
    67     unsigned int cy;    // cluster Y coordinate
     69    unsigned int x;    // cluster X coordinate
     70    unsigned int y;    // cluster Y coordinate
    6871   
    69     for ( cx = 0 ; cx < X_SIZE ; cx++ )
    70     {
    71         for ( cy = 0 ; cy < Y_SIZE ; cy++ )
     72    for ( x = 0 ; x < X_SIZE ; x++ )
     73    {
     74        for ( y = 0 ; y < Y_SIZE ; y++ )
    7275        {
    73             _mmc_distributed_lock[cx][cy] = _remote_malloc( sizeof(spin_lock_t), cx, cy );
    74             _spin_lock_init( _mmc_distributed_lock[cx][cy] );
     76            if ( _mmc_boot_mode )
     77            {
     78                _spin_lock_init( &_mmc_lock[x][y] );
     79            }
     80            else
     81            {
     82                _mmc_distributed_lock[x][y] = _remote_malloc( sizeof(spin_lock_t), x, y );
     83                _spin_lock_init( _mmc_distributed_lock[x][y] );
     84            }
    7585        }
    7686    }
  • soft/giet_vm/giet_drivers/mwr_driver.c

    r563 r630  
    4141#endif
    4242
    43 
    44 /////////////////////////////////////////////////////////////////////////////
    45 //      Global variables (all arrays are indexed by the cluster index)
     43/////////////////////////////////////////////////////////////////////////////
     44//      Extern variables
     45/////////////////////////////////////////////////////////////////////////////
     46
     47// allocated in the boot.c or kernel_init.c files
     48extern static_scheduler_t* _schedulers[X_SIZE][Y_SIZE][NB_PROCS_MAX];
     49
     50/////////////////////////////////////////////////////////////////////////////
     51//      Global variables
     52/////////////////////////////////////////////////////////////////////////////
     53// All arrays are indexed by the cluster index.
    4654/////////////////////////////////////////////////////////////////////////////
    4755
     
    150158{
    151159    // get coprocessor coordinates and characteristics
    152     // the processor executing the ISR an the coprocessor
    153     // are in the same cluster
     160    // processor executing ISR and coprocessor are in the same cluster
    154161    unsigned int gpid       = _get_procid();
    155162    unsigned int cluster_xy = gpid >> P_WIDTH;
     
    160167    unsigned int nb_to      = info & 0xFF;
    161168    unsigned int nb_from    = (info>>8) & 0xFF;
     169
    162170    unsigned int channel;
    163171    unsigned int status;
    164172    unsigned int error = 0;
    165173
    166     // check status, report errors and reset all channels
     174    // check status, report errors and reset for all channels
    167175    for ( channel = 0 ; channel < (nb_to + nb_from) ; channel++ )
    168176    {
     
    199207    // identify task waiting on coprocessor completion
    200208    // this task can run in a remote cluster
    201     unsigned int gtid           = _coproc_gtid[cluster_id];
    202     unsigned int remote_procid  = gtid>>16;
    203     unsigned int ltid           = gtid & 0xFFFF;
    204     unsigned int remote_cluster = remote_procid >> P_WIDTH;
    205     unsigned int remote_x       = remote_cluster >> Y_WIDTH;
    206     unsigned int remote_y       = remote_cluster & ((1<<Y_WIDTH)-1);
    207     unsigned int remote_p       = remote_procid & ((1<<P_WIDTH)-1);
    208 
    209     // re-activates sleeping task
    210     _set_task_slot( remote_x,
    211                     remote_y,
    212                     remote_p,
    213                     ltid,       
    214                     CTX_RUN_ID,  // CTX_RUN slot
    215                     1 );         // running value
     209    unsigned int r_gtid    = _coproc_gtid[cluster_id];
     210    unsigned int r_procid  = r_gtid>>16;
     211    unsigned int r_ltid    = r_gtid & 0xFFFF;
     212    unsigned int r_cluster = r_procid >> P_WIDTH;
     213    unsigned int r_x       = r_cluster >> Y_WIDTH;
     214    unsigned int r_y       = r_cluster & ((1<<Y_WIDTH)-1);
     215    unsigned int r_p       = r_procid & ((1<<P_WIDTH)-1);
     216
     217    // Reset NORUN_MASK_IOC bit
     218    static_scheduler_t* psched  = (static_scheduler_t*)_schedulers[r_x][r_y][r_p];
     219    unsigned int*       ptr     = &psched->context[r_ltid][CTX_NORUN_ID];
     220    _atomic_and( ptr , ~NORUN_MASK_IOC );
    216221
    217222    // send a WAKUP WTI to processor running the sleeping task
    218     _xcu_send_wti( remote_cluster,   
    219                    remote_p,
     223    _xcu_send_wti( r_cluster,   
     224                   r_p,
    220225                   0 );          // don't force context switch
    221226
     
    224229_printf("\n[GIET DEBUG COPROC] P[%d,%d,%d] executes _mwr_isr() at cycle %d\n"
    225230        "  for task %d running on P[%d,%d,%d] / error = %d\n",
    226         x , y , p , _get_proctime() , ltid , remote_x , remote_y , remote_p , error );
    227 #endif
    228 }
     231        x , y , p , _get_proctime() , ltid , r_x , r_y , r_p , error );
     232#endif
     233}  // end _mwr_isr()
    229234
    230235
  • soft/giet_vm/giet_drivers/sdc_driver.c

    r603 r630  
    2020
    2121#define  SDC_POLLING_TIMEOUT  1000000   // number of retries for polling PXCI
     22
     23//////////////////////////////////////////////////////////////////////////////////
     24//      Extern variables
     25//////////////////////////////////////////////////////////////////////////////////
     26
     27// allocated in the boot.c or kernel_init.c files
     28extern static_scheduler_t* _schedulers[X_SIZE][Y_SIZE][NB_PROCS_MAX];
    2229
    2330///////////////////////////////////////////////////////////////////////////////////
     
    401408    // in descheduling mode, we deschedule the task
    402409    // and use an interrupt to reschedule the task.
    403     // We need a critical section, because we must reset the RUN bit
     410    // We need a critical section, because we must set the NORUN bit
    404411        // before to launch the transfer, and we don't want to be
    405412    // descheduled between these two operations.
     
    426433        _it_disable( &save_sr );
    427434
    428         // reset runnable
    429         _set_task_slot( x, y, p, ltid, CTX_RUN_ID, 0 ); 
    430 
     435        // Set NORUN_MASK_IOC bit
     436        static_scheduler_t* psched  = (static_scheduler_t*)_schedulers[x][y][p];
     437        unsigned int*       ptr     = &psched->context[ltid][CTX_NORUN_ID];
     438        _atomic_or( ptr , NORUN_MASK_IOC );
     439       
    431440        // start transfer
    432441        _sdc_set_register( AHCI_PXCI, (1<<ptw) );
     
    489498 
    490499            // identify waiting task
    491             unsigned int remote_procid  = _ahci_gtid[ptr]>>16;
    492             unsigned int ltid           = _ahci_gtid[ptr] & 0xFFFF;
    493             unsigned int remote_cluster = remote_procid >> P_WIDTH;
    494             unsigned int remote_x       = remote_cluster >> Y_WIDTH;
    495             unsigned int remote_y       = remote_cluster & ((1<<Y_WIDTH)-1);
    496             unsigned int remote_p       = remote_procid & ((1<<P_WIDTH)-1);
     500            unsigned int procid  = _ahci_gtid[ptr]>>16;
     501            unsigned int ltid    = _ahci_gtid[ptr] & 0xFFFF;
     502            unsigned int cluster = procid >> P_WIDTH;
     503            unsigned int x       = cluster >> Y_WIDTH;
     504            unsigned int y       = cluster & ((1<<Y_WIDTH)-1);
     505            unsigned int p       = procid & ((1<<P_WIDTH)-1);
    497506 
    498             // re-activates waiting task
    499             _set_task_slot( remote_x,
    500                             remote_y,
    501                             remote_p,
    502                             ltid,
    503                             CTX_RUN_ID,
    504                             1 );
     507            // Reset NORUN_MASK_IOC bit
     508            static_scheduler_t* psched  = (static_scheduler_t*)_schedulers[x][y][p];
     509            unsigned int*       ptr     = &psched->context[ltid][CTX_NORUN_ID];
     510            _atomic_and( ptr , ~NORUN_MASK_IOC );
    505511
    506512            // send a WAKUP WTI to processor running the waiting task
    507             _xcu_send_wti( remote_cluster ,
    508                            remote_p ,
     513            _xcu_send_wti( cluster ,
     514                           p ,
    509515                           0 );          // don't force context switch
    510516
     
    514520        "  resume task %d running on P[%d,%d,%d] / status = %x\n",
    515521        ptr , _get_proctime() ,
    516         ltid , remote_x , remote_y , remote_p , _ahci_status[ptr] );
     522        ltid , x , y , p , _ahci_status[ptr] );
    517523#endif
    518524        }
     
    521527            break;
    522528        }
    523     }
     529    }  // end for completed commands
    524530}  // end _sdc_isr()
    525531
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