/* This file contains device independent device driver interface. * * Changes: * Jul 25, 2005 added SYS_SIG type for signals (Jorrit N. Herder) * Sep 15, 2004 added SYN_ALARM type for timeouts (Jorrit N. Herder) * Jul 23, 2004 removed kernel dependencies (Jorrit N. Herder) * Apr 02, 1992 constructed from AT wini and floppy driver (Kees J. Bot) * * * The drivers support the following operations (using message format m2): * * m_type DEVICE IO_ENDPT COUNT POSITION ADRRESS * ---------------------------------------------------------------- * | DEV_OPEN | device | proc nr | | | | * |------------+---------+---------+---------+---------+---------| * | DEV_CLOSE | device | proc nr | | | | * |------------+---------+---------+---------+---------+---------| * | DEV_READ | device | proc nr | bytes | offset | buf ptr | * |------------+---------+---------+---------+---------+---------| * | DEV_WRITE | device | proc nr | bytes | offset | buf ptr | * |------------+---------+---------+---------+---------+---------| * | DEV_GATHER | device | proc nr | iov len | offset | iov ptr | * |------------+---------+---------+---------+---------+---------| * | DEV_SCATTER| device | proc nr | iov len | offset | iov ptr | * |------------+---------+---------+---------+---------+---------| * | DEV_IOCTL | device | proc nr |func code| | buf ptr | * |------------+---------+---------+---------+---------+---------| * | CANCEL | device | proc nr | r/w | | | * |------------+---------+---------+---------+---------+---------| * | HARD_STOP | | | | | | * |------------+---------+---------+---------+---------+---------| * | DEV_*_S | variants using safecopies of above | * ---------------------------------------------------------------- * * The file contains one entry point: * * driver_task: called by the device dependent task entry */ #include "../drivers.h" #include #include #include "driver.h" /* Claim space for variables. */ #if 0 PRIVATE u8_t buffer[(unsigned) 2 * DMA_BUF_SIZE]; #endif u8_t *tmp_buf; /* the DMA buffer eventually */ phys_bytes tmp_phys; /* phys address of DMA buffer */ FORWARD _PROTOTYPE( int do_rdwt, (struct driver *dr, message *mp, int safe) ); FORWARD _PROTOTYPE( int do_vrdwt, (struct driver *dr, message *mp, int safe) ); int device_caller; PRIVATE mq_t *queue_head = NULL; /*===========================================================================* * driver_task * *===========================================================================*/ PUBLIC void driver_task(dp) struct driver *dp; /* Device dependent entry points. */ { /* Main program of any device driver task. */ int r, proc_nr; message mess; system_hz = sys_hz(); /* Init MQ library. */ mq_init(); /* Here is the main loop of the disk task. It waits for a message, carries * it out, and sends a reply. */ while (TRUE) { /* Any queued messages? Oldest are at the head. */ if(queue_head) { mq_t *mq; mq = queue_head; memcpy(&mess, &mq->mq_mess, sizeof(mess)); queue_head = queue_head->mq_next; mq_free(mq); } else { int s; /* Wait for a request to read or write a disk block. */ if ((s=receive(ANY, &mess)) != OK) panic((*dp->dr_name)(),"receive() failed", s); } device_caller = mess.m_source; proc_nr = mess.IO_ENDPT; /* Now carry out the work. */ switch(mess.m_type) { case DEV_OPEN: r = (*dp->dr_open)(dp, &mess); break; case DEV_CLOSE: r = (*dp->dr_close)(dp, &mess); break; #ifdef DEV_IOCTL case DEV_IOCTL: r = (*dp->dr_ioctl)(dp, &mess, 0); break; #endif case DEV_IOCTL_S: r = (*dp->dr_ioctl)(dp, &mess, 1); break; case CANCEL: r = (*dp->dr_cancel)(dp, &mess);break; case DEV_SELECT: r = (*dp->dr_select)(dp, &mess);break; #ifdef DEV_READ case DEV_READ: case DEV_WRITE: r = do_rdwt(dp, &mess, 0); break; #endif case DEV_READ_S: case DEV_WRITE_S: r = do_rdwt(dp, &mess, 1); break; #ifdef DEV_GATHER case DEV_GATHER: case DEV_SCATTER: r = do_vrdwt(dp, &mess, 0); break; #endif case DEV_GATHER_S: case DEV_SCATTER_S: r = do_vrdwt(dp, &mess, 1); break; case HARD_INT: /* leftover interrupt or expired timer. */ if(dp->dr_hw_int) { (*dp->dr_hw_int)(dp, &mess); } continue; case PROC_EVENT: case SYS_SIG: (*dp->dr_signal)(dp, &mess); continue; /* don't reply */ case SYN_ALARM: (*dp->dr_alarm)(dp, &mess); continue; /* don't reply */ case DEV_PING: notify(mess.m_source); continue; default: if(dp->dr_other) r = (*dp->dr_other)(dp, &mess, 0); else r = EINVAL; break; } /* Clean up leftover state. */ (*dp->dr_cleanup)(); /* Finally, prepare and send the reply message. */ if (r != EDONTREPLY) { mess.m_type = TASK_REPLY; mess.REP_ENDPT = proc_nr; /* Status is # of bytes transferred or error code. */ mess.REP_STATUS = r; r= sendnb(device_caller, &mess); if (r != OK) { printf("driver_task: unable to sendnb to %d: %d\n", device_caller, r); } } } } /*===========================================================================* * init_buffer * *===========================================================================*/ PUBLIC void init_buffer(void) { /* Select a buffer that can safely be used for DMA transfers. It may also * be used to read partition tables and such. Its absolute address is * 'tmp_phys', the normal address is 'tmp_buf'. */ unsigned left; if(!(tmp_buf = alloc_contig(2*DMA_BUF_SIZE, AC_ALIGN4K, &tmp_phys))) panic(__FILE__, "can't allocate tmp_buf", DMA_BUF_SIZE); } /*===========================================================================* * do_rdwt * *===========================================================================*/ PRIVATE int do_rdwt(dp, mp, safe) struct driver *dp; /* device dependent entry points */ message *mp; /* pointer to read or write message */ int safe; /* use safecopies? */ { /* Carry out a single read or write request. */ iovec_t iovec1; int r, opcode; phys_bytes phys_addr; u64_t position; /* Disk address? Address and length of the user buffer? */ if (mp->COUNT < 0) return(EINVAL); /* Check the user buffer (not relevant for safe copies). */ if(!safe) { printf("libdriver_asyn: do_rdwt: no support for non-safe command.\n"); return EINVAL; } /* Prepare for I/O. */ if ((*dp->dr_prepare)(mp->DEVICE) == NIL_DEV) return(ENXIO); /* Create a one element scatter/gather vector for the buffer. */ if( #ifdef DEV_READ mp->m_type == DEV_READ || #endif mp->m_type == DEV_READ_S) opcode = DEV_GATHER_S; else opcode = DEV_SCATTER_S; iovec1.iov_addr = (vir_bytes) mp->ADDRESS; iovec1.iov_size = mp->COUNT; /* Transfer bytes from/to the device. */ position= make64(mp->POSITION, mp->HIGHPOS); r = (*dp->dr_transfer)(mp->IO_ENDPT, opcode, position, &iovec1, 1, safe); /* Return the number of bytes transferred or an error code. */ return(r == OK ? (mp->COUNT - iovec1.iov_size) : r); } /*==========================================================================* * do_vrdwt * *==========================================================================*/ PRIVATE int do_vrdwt(dp, mp, safe) struct driver *dp; /* device dependent entry points */ message *mp; /* pointer to read or write message */ int safe; /* use safecopies? */ { /* Carry out an device read or write to/from a vector of user addresses. * The "user addresses" are assumed to be safe, i.e. FS transferring to/from * its own buffers, so they are not checked. */ static iovec_t iovec[NR_IOREQS]; iovec_t *iov; phys_bytes iovec_size; unsigned nr_req; int r, j, opcode; u64_t position; nr_req = mp->COUNT; /* Length of I/O vector */ { /* Copy the vector from the caller to kernel space. */ if (nr_req > NR_IOREQS) nr_req = NR_IOREQS; iovec_size = (phys_bytes) (nr_req * sizeof(iovec[0])); if(safe) { if (OK != sys_safecopyfrom(mp->m_source, (vir_bytes) mp->IO_GRANT, 0, (vir_bytes) iovec, iovec_size, D)) { panic((*dp->dr_name)(),"bad (safe) I/O vector by", mp->m_source); } } else { if (OK != sys_datacopy(mp->m_source, (vir_bytes) mp->ADDRESS, SELF, (vir_bytes) iovec, iovec_size)) { panic((*dp->dr_name)(),"bad I/O vector by", mp->m_source); } } iov = iovec; } /* Prepare for I/O. */ if ((*dp->dr_prepare)(mp->DEVICE) == NIL_DEV) return(ENXIO); /* Transfer bytes from/to the device. */ opcode = mp->m_type; position= make64(mp->POSITION, mp->HIGHPOS); r = (*dp->dr_transfer)(mp->IO_ENDPT, opcode, position, iov, nr_req, safe); /* Copy the I/O vector back to the caller. */ if(safe) { if (OK != sys_safecopyto(mp->m_source, (vir_bytes) mp->IO_GRANT, 0, (vir_bytes) iovec, iovec_size, D)) { panic((*dp->dr_name)(),"couldn't return I/O vector", mp->m_source); } } else { sys_datacopy(SELF, (vir_bytes) iovec, mp->m_source, (vir_bytes) mp->ADDRESS, iovec_size); } return(r); } /*===========================================================================* * no_name * *===========================================================================*/ PUBLIC char *no_name() { /* Use this default name if there is no specific name for the device. This was * originally done by fetching the name from the task table for this process: * "return(tasktab[proc_number(proc_ptr) + NR_TASKS].name);", but currently a * real "noname" is returned. Perhaps, some system information service can be * queried for a name at a later time. */ static char name[] = "noname"; return name; } /*============================================================================* * do_nop * *============================================================================*/ PUBLIC int do_nop(dp, mp) struct driver *dp; message *mp; { /* Nothing there, or nothing to do. */ switch (mp->m_type) { case DEV_OPEN: return(ENODEV); case DEV_CLOSE: return(OK); case DEV_IOCTL_S: #ifdef DEV_IOCTL case DEV_IOCTL: return(ENOTTY); #endif default: printf("nop: ignoring code %d\n", mp->m_type); return(EIO); } } /*============================================================================* * nop_ioctl * *============================================================================*/ PUBLIC int nop_ioctl(dp, mp, safe) struct driver *dp; message *mp; int safe; { return(ENOTTY); } /*============================================================================* * nop_signal * *============================================================================*/ PUBLIC void nop_signal(dp, mp) struct driver *dp; message *mp; { /* Default action for signal is to ignore. */ } /*============================================================================* * nop_alarm * *============================================================================*/ PUBLIC void nop_alarm(dp, mp) struct driver *dp; message *mp; { /* Ignore the leftover alarm. */ } /*===========================================================================* * nop_prepare * *===========================================================================*/ PUBLIC struct device *nop_prepare(device) { /* Nothing to prepare for. */ return(NIL_DEV); } /*===========================================================================* * nop_cleanup * *===========================================================================*/ PUBLIC void nop_cleanup() { /* Nothing to clean up. */ } /*===========================================================================* * nop_cancel * *===========================================================================*/ PUBLIC int nop_cancel(struct driver *dr, message *m) { /* Nothing to do for cancel. */ return(OK); } /*===========================================================================* * nop_select * *===========================================================================*/ PUBLIC int nop_select(struct driver *dr, message *m) { /* Nothing to do for select. */ return(OK); } /*============================================================================* * do_diocntl * *============================================================================*/ PUBLIC int do_diocntl(dp, mp, safe) struct driver *dp; message *mp; /* pointer to ioctl request */ int safe; /* addresses or grants? */ { /* Carry out a partition setting/getting request. */ struct device *dv; struct partition entry; int s; if (mp->REQUEST != DIOCSETP && mp->REQUEST != DIOCGETP) { if(dp->dr_other) { return dp->dr_other(dp, mp, safe); } else return(ENOTTY); } /* Decode the message parameters. */ if ((dv = (*dp->dr_prepare)(mp->DEVICE)) == NIL_DEV) return(ENXIO); if (mp->REQUEST == DIOCSETP) { /* Copy just this one partition table entry. */ if(safe) { s=sys_safecopyfrom(mp->IO_ENDPT, (vir_bytes) mp->IO_GRANT, 0, (vir_bytes) &entry, sizeof(entry), D); } else{ s=sys_datacopy(mp->IO_ENDPT, (vir_bytes) mp->ADDRESS, SELF, (vir_bytes) &entry, sizeof(entry)); } if(s != OK) return s; dv->dv_base = entry.base; dv->dv_size = entry.size; } else { /* Return a partition table entry and the geometry of the drive. */ entry.base = dv->dv_base; entry.size = dv->dv_size; (*dp->dr_geometry)(&entry); if(safe) { s=sys_safecopyto(mp->IO_ENDPT, (vir_bytes) mp->IO_GRANT, 0, (vir_bytes) &entry, sizeof(entry), D); } else { s=sys_datacopy(SELF, (vir_bytes) &entry, mp->IO_ENDPT, (vir_bytes) mp->ADDRESS, sizeof(entry)); } if (OK != s) return s; } return(OK); } /*===========================================================================* * mq_queue * *===========================================================================*/ PUBLIC int mq_queue(message *m) { mq_t *mq, *mi; if(!(mq = mq_get())) panic("libdriver","mq_queue: mq_get failed", NO_NUM); memcpy(&mq->mq_mess, m, sizeof(mq->mq_mess)); mq->mq_next = NULL; if(!queue_head) { queue_head = mq; } else { for(mi = queue_head; mi->mq_next; mi = mi->mq_next) ; mi->mq_next = mq; } return OK; }