/* * Mach Operating System * Copyright (c) 1993,1991,1990,1989 Carnegie Mellon University * All Rights Reserved. * * Permission to use, copy, modify and distribute this software and its * documentation is hereby granted, provided that both the copyright * notice and this permission notice appear in all copies of the * software, derivative works or modified versions, and any portions * thereof, and that both notices appear in supporting documentation. * * CARNEGIE MELLON ALLOWS FREE USE OF THIS SOFTWARE IN ITS "AS IS" * CONDITION. CARNEGIE MELLON DISCLAIMS ANY LIABILITY OF ANY KIND FOR * ANY DAMAGES WHATSOEVER RESULTING FROM THE USE OF THIS SOFTWARE. * * Carnegie Mellon requests users of this software to return to * * Software Distribution Coordinator or Software.Distribution@CS.CMU.EDU * School of Computer Science * Carnegie Mellon University * Pittsburgh PA 15213-3890 * * any improvements or extensions that they make and grant Carnegie Mellon * the rights to redistribute these changes. */ /* * Author: David B. Golub, Carnegie Mellon University * Date: 3/89 */ #include #include #include #include #include #include #include #include /* spl definitions */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #ifdef i386 #include #endif #ifdef i386 ipc_port_t mach_convert_device_to_port (void *d) { ipc_port_t port; mach_device_t device = d; if (! device) return IP_NULL; device_lock(device); if (device->state == DEV_STATE_OPEN) port = ipc_port_make_send(device->port); else port = IP_NULL; device_unlock(device); mach_device_deallocate(device); return port; } #endif /* i386 */ #ifdef i386 static io_return_t device_open(reply_port, reply_port_type, mode, name, device_p) #else io_return_t ds_device_open(open_port, reply_port, reply_port_type, mode, name, device_p) ipc_port_t open_port; #endif ipc_port_t reply_port; mach_msg_type_name_t reply_port_type; dev_mode_t mode; char * name; device_t *device_p; /* out */ { register mach_device_t device; register kern_return_t result; register io_req_t ior; char namebuf[64]; ipc_port_t notify; #ifndef i386 /* * Open must be called on the master device port. */ if (open_port != master_device_port) return (D_INVALID_OPERATION); /* * There must be a reply port. */ if (!IP_VALID(reply_port)) { printf("ds_* invalid reply port\n"); Debugger("ds_* reply_port"); return (MIG_NO_REPLY); /* no sense in doing anything */ } #endif /* ! i386 */ /* * Find the device. */ device = device_lookup(name); if (device == MACH_DEVICE_NULL) return (D_NO_SUCH_DEVICE); /* * If the device is being opened or closed, * wait for that operation to finish. */ device_lock(device); while (device->state == DEV_STATE_OPENING || device->state == DEV_STATE_CLOSING) { device->io_wait = TRUE; thread_sleep((event_t)device, simple_lock_addr(device->lock), TRUE); device_lock(device); } /* * If the device is already open, increment the open count * and return. */ if (device->state == DEV_STATE_OPEN) { if (device->flag & D_EXCL_OPEN) { /* * Cannot open a second time. */ device_unlock(device); mach_device_deallocate(device); return (D_ALREADY_OPEN); } device->open_count++; device_unlock(device); #ifdef i386 *device_p = &device->dev; #else *device_p = device; #endif return (D_SUCCESS); /* * Return deallocates device reference while acquiring * port. */ } /* * Allocate the device port and register the device before * opening it. */ device->state = DEV_STATE_OPENING; device_unlock(device); /* * Allocate port, keeping a reference for it. */ device->port = ipc_port_alloc_kernel(); if (device->port == IP_NULL) { device_lock(device); device->state = DEV_STATE_INIT; device->port = IP_NULL; if (device->io_wait) { device->io_wait = FALSE; thread_wakeup((event_t)device); } device_unlock(device); mach_device_deallocate(device); return (KERN_RESOURCE_SHORTAGE); } dev_port_enter(device); /* * Request no-senders notifications on device port. */ notify = ipc_port_make_sonce(device->port); ip_lock(device->port); ipc_port_nsrequest(device->port, 1, notify, ¬ify); assert(notify == IP_NULL); /* * Open the device. */ io_req_alloc(ior, 0); ior->io_device = device; ior->io_unit = device->dev_number; ior->io_op = IO_OPEN | IO_CALL; ior->io_mode = mode; ior->io_error = 0; ior->io_done = ds_open_done; ior->io_reply_port = reply_port; ior->io_reply_port_type = reply_port_type; result = (*device->dev_ops->d_open)(device->dev_number, (int)mode, ior); if (result == D_IO_QUEUED) return (MIG_NO_REPLY); /* * Return result via ds_open_done. */ ior->io_error = result; (void) ds_open_done(ior); io_req_free(ior); return (MIG_NO_REPLY); /* reply already sent */ } boolean_t ds_open_done(ior) register io_req_t ior; { kern_return_t result; register mach_device_t device; device = ior->io_device; result = ior->io_error; if (result != D_SUCCESS) { /* * Open failed. Deallocate port and device. */ dev_port_remove(device); ipc_port_dealloc_kernel(device->port); device->port = IP_NULL; device_lock(device); device->state = DEV_STATE_INIT; if (device->io_wait) { device->io_wait = FALSE; thread_wakeup((event_t)device); } device_unlock(device); mach_device_deallocate(device); device = MACH_DEVICE_NULL; } else { /* * Open succeeded. */ device_lock(device); device->state = DEV_STATE_OPEN; device->open_count = 1; if (device->io_wait) { device->io_wait = FALSE; thread_wakeup((event_t)device); } device_unlock(device); /* donate device reference to get port */ } /* * Must explicitly convert device to port, since * device_reply interface is built as 'user' side * (thus cannot get translation). */ if (IP_VALID(ior->io_reply_port)) { (void) ds_device_open_reply(ior->io_reply_port, ior->io_reply_port_type, result, #ifdef i386 (mach_convert_device_to_port (device))); #else convert_device_to_port(device)); #endif } else mach_device_deallocate(device); return (TRUE); } #ifdef i386 static io_return_t device_close(device) #else io_return_t ds_device_close(device) #endif register mach_device_t device; { #ifndef i386 if (device == DEVICE_NULL) return (D_NO_SUCH_DEVICE); #endif device_lock(device); /* * If device will remain open, do nothing. */ if (--device->open_count > 0) { device_unlock(device); return (D_SUCCESS); } /* * If device is being closed, do nothing. */ if (device->state == DEV_STATE_CLOSING) { device_unlock(device); return (D_SUCCESS); } /* * Mark device as closing, to prevent new IO. * Outstanding IO will still be in progress. */ device->state = DEV_STATE_CLOSING; device_unlock(device); /* * ? wait for IO to end ? * only if device wants to */ /* * Remove the device-port association. */ dev_port_remove(device); ipc_port_dealloc_kernel(device->port); /* * Close the device */ (*device->dev_ops->d_close)(device->dev_number); /* * Finally mark it closed. If someone else is trying * to open it, the open can now proceed. */ device_lock(device); device->state = DEV_STATE_INIT; if (device->io_wait) { device->io_wait = FALSE; thread_wakeup((event_t)device); } device_unlock(device); return (D_SUCCESS); } /* * Write to a device. */ #ifdef i386 static io_return_t device_write(d, reply_port, reply_port_type, mode, recnum, data, data_count, bytes_written) void *d; #else io_return_t ds_device_write(device, reply_port, reply_port_type, mode, recnum, data, data_count, bytes_written) register mach_device_t device; #endif ipc_port_t reply_port; mach_msg_type_name_t reply_port_type; dev_mode_t mode; recnum_t recnum; io_buf_ptr_t data; unsigned int data_count; int *bytes_written; /* out */ { #ifdef i386 register mach_device_t device = d; #endif register io_req_t ior; register io_return_t result; #ifndef i386 /* * Refuse if device is dead or not completely open. */ if (device == DEVICE_NULL) return (D_NO_SUCH_DEVICE); #endif if (device->state != DEV_STATE_OPEN) return (D_NO_SUCH_DEVICE); #ifndef i386 if (data == 0) return (D_INVALID_SIZE); #endif /* * XXX Need logic to reject ridiculously big requests. */ /* XXX note that a CLOSE may proceed at any point */ /* * Package the write request for the device driver */ io_req_alloc(ior, data_count); ior->io_device = device; ior->io_unit = device->dev_number; ior->io_op = IO_WRITE | IO_CALL; ior->io_mode = mode; ior->io_recnum = recnum; ior->io_data = data; ior->io_count = data_count; ior->io_total = data_count; ior->io_alloc_size = 0; ior->io_residual = 0; ior->io_error = 0; ior->io_done = ds_write_done; ior->io_reply_port = reply_port; ior->io_reply_port_type = reply_port_type; ior->io_copy = VM_MAP_COPY_NULL; /* * The ior keeps an extra reference for the device. */ mach_device_reference(device); /* * And do the write ... * * device_write_dealoc returns false if there's more * to do; it has updated the ior appropriately and expects * its caller to reinvoke it on the device. */ do { result = (*device->dev_ops->d_write)(device->dev_number, ior); /* * If the IO was queued, delay reply until it is finished. */ if (result == D_IO_QUEUED) return (MIG_NO_REPLY); /* * Discard the local mapping of the data. */ } while (!device_write_dealloc(ior)); /* * Return the number of bytes actually written. */ *bytes_written = ior->io_total - ior->io_residual; /* * Remove the extra reference. */ mach_device_deallocate(device); io_req_free(ior); return (result); } /* * Write to a device, but memory is in message. */ #ifdef i386 static io_return_t device_write_inband(d, reply_port, reply_port_type, mode, recnum, data, data_count, bytes_written) void *d; #else io_return_t ds_device_write_inband(device, reply_port, reply_port_type, mode, recnum, data, data_count, bytes_written) register mach_device_t device; #endif ipc_port_t reply_port; mach_msg_type_name_t reply_port_type; dev_mode_t mode; recnum_t recnum; io_buf_ptr_inband_t data; unsigned int data_count; int *bytes_written; /* out */ { #ifdef i386 register mach_device_t device = d; #endif register io_req_t ior; register io_return_t result; #ifndef i386 /* * Refuse if device is dead or not completely open. */ if (device == DEVICE_NULL) return (D_NO_SUCH_DEVICE); #endif if (device->state != DEV_STATE_OPEN) return (D_NO_SUCH_DEVICE); #ifndef i386 if (data == 0) return (D_INVALID_SIZE); #endif /* XXX note that a CLOSE may proceed at any point */ /* * Package the write request for the device driver. */ io_req_alloc(ior, 0); ior->io_device = device; ior->io_unit = device->dev_number; ior->io_op = IO_WRITE | IO_CALL | IO_INBAND; ior->io_mode = mode; ior->io_recnum = recnum; ior->io_data = data; ior->io_count = data_count; ior->io_total = data_count; ior->io_alloc_size = 0; ior->io_residual = 0; ior->io_error = 0; ior->io_done = ds_write_done; ior->io_reply_port = reply_port; ior->io_reply_port_type = reply_port_type; /* * The ior keeps an extra reference for the device. */ mach_device_reference(device); /* * And do the write. */ result = (*device->dev_ops->d_write)(device->dev_number, ior); /* * If the IO was queued, delay reply until it is finished. */ if (result == D_IO_QUEUED) return (MIG_NO_REPLY); /* * Return the number of bytes actually written. */ *bytes_written = ior->io_total - ior->io_residual; /* * Remove the extra reference. */ mach_device_deallocate(device); io_req_free(ior); return (result); } /* * Wire down incoming memory to give to device. */ kern_return_t device_write_get(ior, wait) register io_req_t ior; boolean_t *wait; { vm_map_copy_t io_copy; vm_offset_t new_addr; register kern_return_t result; int bsize; vm_size_t min_size; /* * By default, caller does not have to wait. */ *wait = FALSE; /* * Nothing to do if no data. */ if (ior->io_count == 0) return (KERN_SUCCESS); /* * Loaned iors already have valid data. */ if (ior->io_op & IO_LOANED) return (KERN_SUCCESS); /* * Inband case. */ if (ior->io_op & IO_INBAND) { assert(ior->io_count <= sizeof (io_buf_ptr_inband_t)); new_addr = zalloc(io_inband_zone); memcpy((void*)new_addr, ior->io_data, ior->io_count); ior->io_data = (io_buf_ptr_t)new_addr; ior->io_alloc_size = sizeof (io_buf_ptr_inband_t); return (KERN_SUCCESS); } /* * Figure out how much data to move this time. If the device * won't return a block size, then we have to do the whole * request in one shot (ditto if this is a block fragment), * otherwise, move at least one block's worth. */ result = (*ior->io_device->dev_ops->d_dev_info)( ior->io_device->dev_number, D_INFO_BLOCK_SIZE, &bsize); if (result != KERN_SUCCESS || ior->io_count < (vm_size_t) bsize) min_size = (vm_size_t) ior->io_count; else min_size = (vm_size_t) bsize; /* * Map the pages from this page list into memory. * io_data records location of data. * io_alloc_size is the vm size of the region to deallocate. */ io_copy = (vm_map_copy_t) ior->io_data; result = kmem_io_map_copyout(device_io_map, (vm_offset_t*)&ior->io_data, &new_addr, &ior->io_alloc_size, io_copy, min_size); if (result != KERN_SUCCESS) return (result); if ((ior->io_data + ior->io_count) > (((char *)new_addr) + ior->io_alloc_size)) { /* * Operation has to be split. Reset io_count for how * much we can do this time. */ assert(vm_map_copy_has_cont(io_copy)); assert(ior->io_count == io_copy->size); ior->io_count = ior->io_alloc_size - (ior->io_data - ((char *)new_addr)); /* * Caller must wait synchronously. */ ior->io_op &= ~IO_CALL; *wait = TRUE; } ior->io_copy = io_copy; /* vm_map_copy to discard */ return (KERN_SUCCESS); } /* * Clean up memory allocated for IO. */ boolean_t device_write_dealloc(ior) register io_req_t ior; { vm_map_copy_t new_copy = VM_MAP_COPY_NULL; register vm_map_copy_t io_copy; kern_return_t result; vm_offset_t size_to_do; int bsize; if (ior->io_alloc_size == 0) return (TRUE); /* * Inband case. */ if (ior->io_op & IO_INBAND) { zfree(io_inband_zone, (vm_offset_t)ior->io_data); return (TRUE); } if ((io_copy = ior->io_copy) == VM_MAP_COPY_NULL) return (TRUE); /* * To prevent a possible deadlock with the default pager, * we have to release space in the device_io_map before * we allocate any memory. (Which vm_map_copy_invoke_cont * might do.) See the discussion in ds_init. */ kmem_io_map_deallocate(device_io_map, trunc_page(ior->io_data), (vm_size_t) ior->io_alloc_size); if (vm_map_copy_has_cont(io_copy)) { /* * Remember how much is left, then * invoke or abort the continuation. */ size_to_do = io_copy->size - ior->io_count; if (ior->io_error == 0) { vm_map_copy_invoke_cont(io_copy, &new_copy, &result); } else { vm_map_copy_abort_cont(io_copy); result = KERN_FAILURE; } if (result == KERN_SUCCESS && new_copy != VM_MAP_COPY_NULL) { register int res; /* * We have a new continuation, reset the ior to * represent the remainder of the request. Must * adjust the recnum because drivers assume * that the residual is zero. */ ior->io_op &= ~IO_DONE; ior->io_op |= IO_CALL; res = (*ior->io_device->dev_ops->d_dev_info)( ior->io_device->dev_number, D_INFO_BLOCK_SIZE, &bsize); if (res != D_SUCCESS) panic("device_write_dealloc: No block size"); ior->io_recnum += ior->io_count/bsize; ior->io_count = new_copy->size; } else { /* * No continuation. Add amount we didn't get * to into residual. */ ior->io_residual += size_to_do; } } /* * Clean up the state for the IO that just completed. */ vm_map_copy_discard(ior->io_copy); ior->io_copy = VM_MAP_COPY_NULL; ior->io_data = (char *) new_copy; /* * Return FALSE if there's more IO to do. */ return(new_copy == VM_MAP_COPY_NULL); } /* * Send write completion message to client, and discard the data. */ boolean_t ds_write_done(ior) register io_req_t ior; { /* * device_write_dealloc discards the data that has been * written, but may decide that there is more to write. */ while (!device_write_dealloc(ior)) { register io_return_t result; register mach_device_t device; /* * More IO to do -- invoke it. */ device = ior->io_device; result = (*device->dev_ops->d_write)(device->dev_number, ior); /* * If the IO was queued, return FALSE -- not done yet. */ if (result == D_IO_QUEUED) return (FALSE); } /* * Now the write is really complete. Send reply. */ if (IP_VALID(ior->io_reply_port)) { (void) (*((ior->io_op & IO_INBAND) ? ds_device_write_reply_inband : ds_device_write_reply))(ior->io_reply_port, ior->io_reply_port_type, ior->io_error, (int) (ior->io_total - ior->io_residual)); } mach_device_deallocate(ior->io_device); return (TRUE); } /* * Read from a device. */ #ifdef i386 static io_return_t device_read(d, reply_port, reply_port_type, mode, recnum, bytes_wanted, data, data_count) void *d; #else io_return_t ds_device_read(device, reply_port, reply_port_type, mode, recnum, bytes_wanted, data, data_count) register mach_device_t device; #endif ipc_port_t reply_port; mach_msg_type_name_t reply_port_type; dev_mode_t mode; recnum_t recnum; int bytes_wanted; io_buf_ptr_t *data; /* out */ unsigned int *data_count; /* out */ { #ifdef i386 register mach_device_t device = d; #endif register io_req_t ior; register io_return_t result; #ifdef lint *data = *data; *data_count = *data_count; #endif /* lint */ #ifndef i386 /* * Refuse if device is dead or not completely open. */ if (device == DEVICE_NULL) return (D_NO_SUCH_DEVICE); #endif if (device->state != DEV_STATE_OPEN) return (D_NO_SUCH_DEVICE); /* XXX note that a CLOSE may proceed at any point */ /* * There must be a reply port. */ if (!IP_VALID(reply_port)) { printf("ds_* invalid reply port\n"); Debugger("ds_* reply_port"); return (MIG_NO_REPLY); /* no sense in doing anything */ } /* * Package the read request for the device driver */ io_req_alloc(ior, 0); ior->io_device = device; ior->io_unit = device->dev_number; ior->io_op = IO_READ | IO_CALL; ior->io_mode = mode; ior->io_recnum = recnum; ior->io_data = 0; /* driver must allocate data */ ior->io_count = bytes_wanted; ior->io_alloc_size = 0; /* no data allocated yet */ ior->io_residual = 0; ior->io_error = 0; ior->io_done = ds_read_done; ior->io_reply_port = reply_port; ior->io_reply_port_type = reply_port_type; /* * The ior keeps an extra reference for the device. */ mach_device_reference(device); /* * And do the read. */ result = (*device->dev_ops->d_read)(device->dev_number, ior); /* * If the IO was queued, delay reply until it is finished. */ if (result == D_IO_QUEUED) return (MIG_NO_REPLY); /* * Return result via ds_read_done. */ ior->io_error = result; (void) ds_read_done(ior); io_req_free(ior); return (MIG_NO_REPLY); /* reply has already been sent. */ } /* * Read from a device, but return the data 'inband.' */ #ifdef i386 static io_return_t device_read_inband(d, reply_port, reply_port_type, mode, recnum, bytes_wanted, data, data_count) void *d; #else io_return_t ds_device_read_inband(device, reply_port, reply_port_type, mode, recnum, bytes_wanted, data, data_count) register mach_device_t device; #endif ipc_port_t reply_port; mach_msg_type_name_t reply_port_type; dev_mode_t mode; recnum_t recnum; int bytes_wanted; char *data; /* pointer to OUT array */ unsigned int *data_count; /* out */ { #ifdef i386 register mach_device_t device = d; #endif register io_req_t ior; register io_return_t result; #ifdef lint *data = *data; *data_count = *data_count; #endif /* lint */ #ifndef i386 /* * Refuse if device is dead or not completely open. */ if (device == DEVICE_NULL) return (D_NO_SUCH_DEVICE); #endif if (device->state != DEV_STATE_OPEN) return (D_NO_SUCH_DEVICE); /* XXX note that a CLOSE may proceed at any point */ /* * There must be a reply port. */ if (!IP_VALID(reply_port)) { printf("ds_* invalid reply port\n"); Debugger("ds_* reply_port"); return (MIG_NO_REPLY); /* no sense in doing anything */ } /* * Package the read for the device driver */ io_req_alloc(ior, 0); ior->io_device = device; ior->io_unit = device->dev_number; ior->io_op = IO_READ | IO_CALL | IO_INBAND; ior->io_mode = mode; ior->io_recnum = recnum; ior->io_data = 0; /* driver must allocate data */ ior->io_count = ((bytes_wanted < sizeof(io_buf_ptr_inband_t)) ? bytes_wanted : sizeof(io_buf_ptr_inband_t)); ior->io_alloc_size = 0; /* no data allocated yet */ ior->io_residual = 0; ior->io_error = 0; ior->io_done = ds_read_done; ior->io_reply_port = reply_port; ior->io_reply_port_type = reply_port_type; /* * The ior keeps an extra reference for the device. */ mach_device_reference(device); /* * Do the read. */ result = (*device->dev_ops->d_read)(device->dev_number, ior); /* * If the io was queued, delay reply until it is finished. */ if (result == D_IO_QUEUED) return (MIG_NO_REPLY); /* * Return result, via ds_read_done. */ ior->io_error = result; (void) ds_read_done(ior); io_req_free(ior); return (MIG_NO_REPLY); /* reply has already been sent. */ } /* * Allocate wired-down memory for device read. */ kern_return_t device_read_alloc(ior, size) register io_req_t ior; register vm_size_t size; { vm_offset_t addr; kern_return_t kr; /* * Nothing to do if no data. */ if (ior->io_count == 0) return (KERN_SUCCESS); if (ior->io_op & IO_INBAND) { ior->io_data = (io_buf_ptr_t) zalloc(io_inband_zone); ior->io_alloc_size = sizeof(io_buf_ptr_inband_t); } else { size = round_page(size); kr = kmem_alloc(kernel_map, &addr, size); if (kr != KERN_SUCCESS) return (kr); ior->io_data = (io_buf_ptr_t) addr; ior->io_alloc_size = size; } return (KERN_SUCCESS); } boolean_t ds_read_done(ior) io_req_t ior; { vm_offset_t start_data, end_data; vm_offset_t start_sent, end_sent; register vm_size_t size_read; if (ior->io_error) size_read = 0; else size_read = ior->io_count - ior->io_residual; start_data = (vm_offset_t)ior->io_data; end_data = start_data + size_read; start_sent = (ior->io_op & IO_INBAND) ? start_data : trunc_page(start_data); end_sent = (ior->io_op & IO_INBAND) ? start_data + ior->io_alloc_size : round_page(end_data); /* * Zero memory that the device did not fill. */ if (start_sent < start_data) memset((char *)start_sent, 0, start_data - start_sent); if (end_sent > end_data) memset((char *)end_data, 0, end_sent - end_data); /* * Touch the data being returned, to mark it dirty. * If the pages were filled by DMA, the pmap module * may think that they are clean. */ { register vm_offset_t touch; register int c; for (touch = start_sent; touch < end_sent; touch += PAGE_SIZE) { c = *(volatile char *)touch; *(volatile char *)touch = c; } } /* * Send the data to the reply port - this * unwires and deallocates it. */ if (ior->io_op & IO_INBAND) { (void)ds_device_read_reply_inband(ior->io_reply_port, ior->io_reply_port_type, ior->io_error, (char *) start_data, size_read); } else { vm_map_copy_t copy; kern_return_t kr; kr = vm_map_copyin_page_list(kernel_map, start_data, size_read, TRUE, TRUE, ©, FALSE); if (kr != KERN_SUCCESS) panic("read_done: vm_map_copyin_page_list failed"); (void)ds_device_read_reply(ior->io_reply_port, ior->io_reply_port_type, ior->io_error, (char *) copy, size_read); } /* * Free any memory that was allocated but not sent. */ if (ior->io_count != 0) { if (ior->io_op & IO_INBAND) { if (ior->io_alloc_size > 0) zfree(io_inband_zone, (vm_offset_t)ior->io_data); } else { register vm_offset_t end_alloc; end_alloc = start_sent + round_page(ior->io_alloc_size); if (end_alloc > end_sent) (void) vm_deallocate(kernel_map, end_sent, end_alloc - end_sent); } } mach_device_deallocate(ior->io_device); return (TRUE); } #ifdef i386 static io_return_t device_set_status(d, flavor, status, status_count) void *d; #else io_return_t ds_device_set_status(device, flavor, status, status_count) register mach_device_t device; #endif dev_flavor_t flavor; dev_status_t status; mach_msg_type_number_t status_count; { #ifdef i386 register mach_device_t device = d; #endif #ifndef i386 /* * Refuse if device is dead or not completely open. */ if (device == DEVICE_NULL) return (D_NO_SUCH_DEVICE); #endif if (device->state != DEV_STATE_OPEN) return (D_NO_SUCH_DEVICE); /* XXX note that a CLOSE may proceed at any point */ return ((*device->dev_ops->d_setstat)(device->dev_number, flavor, status, status_count)); } #ifdef i386 io_return_t mach_device_get_status(d, flavor, status, status_count) void *d; #else io_return_t ds_device_get_status(device, flavor, status, status_count) register mach_device_t device; #endif dev_flavor_t flavor; dev_status_t status; /* pointer to OUT array */ mach_msg_type_number_t *status_count; /* out */ { #ifdef i386 register mach_device_t device = d; #endif #ifndef i386 /* * Refuse if device is dead or not completely open. */ if (device == DEVICE_NULL) return (D_NO_SUCH_DEVICE); #endif if (device->state != DEV_STATE_OPEN) return (D_NO_SUCH_DEVICE); /* XXX note that a CLOSE may proceed at any point */ return ((*device->dev_ops->d_getstat)(device->dev_number, flavor, status, status_count)); } #ifdef i386 static io_return_t device_set_filter(d, receive_port, priority, filter, filter_count) void *d; #else io_return_t ds_device_set_filter(device, receive_port, priority, filter, filter_count) register mach_device_t device; #endif ipc_port_t receive_port; int priority; filter_t filter[]; /* pointer to IN array */ unsigned int filter_count; { #ifdef i386 register mach_device_t device = d; #endif #ifndef i386 /* * Refuse if device is dead or not completely open. */ if (device == DEVICE_NULL) return (D_NO_SUCH_DEVICE); #endif if (device->state != DEV_STATE_OPEN) return (D_NO_SUCH_DEVICE); /* XXX note that a CLOSE may proceed at any point */ /* * Request is absurd if no receive port is specified. */ if (!IP_VALID(receive_port)) return (D_INVALID_OPERATION); return ((*device->dev_ops->d_async_in)(device->dev_number, receive_port, priority, filter, filter_count)); } #ifdef i386 static io_return_t device_map(d, protection, offset, size, pager, unmap) void *d; #else io_return_t ds_device_map(device, protection, offset, size, pager, unmap) register mach_device_t device; #endif vm_prot_t protection; vm_offset_t offset; vm_size_t size; ipc_port_t *pager; /* out */ boolean_t unmap; /* ? */ { #ifdef i386 register mach_device_t device = d; #endif #ifdef lint unmap = unmap; #endif /* lint */ if (protection & ~VM_PROT_ALL) return (KERN_INVALID_ARGUMENT); #ifndef i386 /* * Refuse if device is dead or not completely open. */ if (device == DEVICE_NULL) return (D_NO_SUCH_DEVICE); #endif if (device->state != DEV_STATE_OPEN) return (D_NO_SUCH_DEVICE); /* XXX note that a CLOSE may proceed at any point */ return (device_pager_setup(device, protection, offset, size, (mach_port_t*)pager)); } /* * Doesn't do anything (yet). */ #ifdef i386 static void #else void #endif ds_no_senders(notification) mach_no_senders_notification_t *notification; { printf("ds_no_senders called! device_port=0x%x count=%d\n", notification->not_header.msgh_remote_port, notification->not_count); } #ifndef i386 boolean_t ds_notify(msg) mach_msg_header_t *msg; { switch (msg->msgh_id) { case MACH_NOTIFY_NO_SENDERS: ds_no_senders((mach_no_senders_notification_t *) msg); return TRUE; default: printf("ds_notify: strange notification %d\n", msg->msgh_id); return FALSE; } } #endif queue_head_t io_done_list; decl_simple_lock_data(, io_done_list_lock) #define splio splsched /* XXX must block ALL io devices */ void iodone(ior) register io_req_t ior; { register spl_t s; /* * If this ior was loaned to us, return it directly. */ if (ior->io_op & IO_LOANED) { (*ior->io_done)(ior); return; } /* * If !IO_CALL, some thread is waiting for this. Must lock * structure to interlock correctly with iowait(). Else can * toss on queue for io_done thread to call completion. */ s = splio(); if ((ior->io_op & IO_CALL) == 0) { ior_lock(ior); ior->io_op |= IO_DONE; ior->io_op &= ~IO_WANTED; ior_unlock(ior); thread_wakeup((event_t)ior); } else { ior->io_op |= IO_DONE; simple_lock(&io_done_list_lock); enqueue_tail(&io_done_list, (queue_entry_t)ior); thread_wakeup((event_t)&io_done_list); simple_unlock(&io_done_list_lock); } splx(s); } void io_done_thread_continue() { for (;;) { register spl_t s; register io_req_t ior; #if defined (i386) && defined (LINUX_DEV) && defined (CONFIG_INET) free_skbuffs (); #endif s = splio(); simple_lock(&io_done_list_lock); while ((ior = (io_req_t)dequeue_head(&io_done_list)) != 0) { simple_unlock(&io_done_list_lock); (void) splx(s); if ((*ior->io_done)(ior)) { /* * IO done - free io_req_elt */ io_req_free(ior); } /* else routine has re-queued it somewhere */ s = splio(); simple_lock(&io_done_list_lock); } assert_wait(&io_done_list, FALSE); simple_unlock(&io_done_list_lock); (void) splx(s); counter(c_io_done_thread_block++); thread_block(io_done_thread_continue); } } void io_done_thread() { /* * Set thread privileges and highest priority. */ current_thread()->vm_privilege = TRUE; stack_privilege(current_thread()); thread_set_own_priority(0); io_done_thread_continue(); /*NOTREACHED*/ } #define DEVICE_IO_MAP_SIZE (2 * 1024 * 1024) extern void ds_trap_init(void); /* forward */ void ds_init() { vm_offset_t device_io_min, device_io_max; queue_init(&io_done_list); simple_lock_init(&io_done_list_lock); device_io_map = kmem_suballoc(kernel_map, &device_io_min, &device_io_max, DEVICE_IO_MAP_SIZE, FALSE); /* * If the kernel receives many device_write requests, the * device_io_map might run out of space. To prevent * device_write_get from failing in this case, we enable * wait_for_space on the map. This causes kmem_io_map_copyout * to block until there is sufficient space. * (XXX Large writes may be starved by small writes.) * * There is a potential deadlock problem with this solution, * if a device_write from the default pager has to wait * for the completion of a device_write which needs to wait * for memory allocation. Hence, once device_write_get * allocates space in device_io_map, no blocking memory * allocations should happen until device_write_dealloc * frees the space. (XXX A large write might starve * a small write from the default pager.) */ device_io_map->wait_for_space = TRUE; io_inband_zone = zinit(sizeof(io_buf_ptr_inband_t), 1000 * sizeof(io_buf_ptr_inband_t), 10 * sizeof(io_buf_ptr_inband_t), FALSE, "io inband read buffers"); ds_trap_init(); } void iowait(ior) io_req_t ior; { spl_t s; s = splio(); ior_lock(ior); while ((ior->io_op&IO_DONE)==0) { assert_wait((event_t)ior, FALSE); ior_unlock(ior); thread_block((void (*)()) 0); ior_lock(ior); } ior_unlock(ior); splx(s); } /* * Device trap support. */ /* * Memory Management * * This currently has a single pool of 2k wired buffers * since we only handle writes to an ethernet device. * Should be more general. */ #define IOTRAP_REQSIZE 2048 zone_t io_trap_zone; /* * Initialization. Called from ds_init(). */ void ds_trap_init(void) { io_trap_zone = zinit(IOTRAP_REQSIZE, 256 * IOTRAP_REQSIZE, 16 * IOTRAP_REQSIZE, FALSE, "wired device trap buffers"); } /* * Allocate an io_req_t. * Currently zalloc's from io_trap_zone. * * Could have lists of different size zones. * Could call a device-specific routine. */ io_req_t ds_trap_req_alloc(mach_device_t device, vm_size_t data_size) { return (io_req_t) zalloc(io_trap_zone); } /* * Called by iodone to release ior. */ boolean_t ds_trap_write_done(io_req_t ior) { register mach_device_t dev; dev = ior->io_device; /* * Should look at reply port and maybe send a message. */ zfree(io_trap_zone, (vm_offset_t) ior); /* * Give up device reference from ds_write_trap. */ mach_device_deallocate(dev); return TRUE; } /* * Like device_write except that data is in user space. */ #ifdef i386 static io_return_t device_write_trap (void *d, dev_mode_t mode, recnum_t recnum, vm_offset_t data, vm_size_t data_count) #else io_return_t ds_device_write_trap(device_t device, dev_mode_t mode, recnum_t recnum, vm_offset_t data, vm_size_t data_count) #endif { #ifdef i386 mach_device_t device = d; #endif io_req_t ior; io_return_t result; #ifndef i386 /* * Refuse if device is dead or not completely open. */ if (device == DEVICE_NULL) return (D_NO_SUCH_DEVICE); #endif if (device->state != DEV_STATE_OPEN) return (D_NO_SUCH_DEVICE); /* XXX note that a CLOSE may proceed at any point */ /* * Get a buffer to hold the ioreq. */ ior = ds_trap_req_alloc(device, data_count); /* * Package the write request for the device driver. */ ior->io_device = device; ior->io_unit = device->dev_number; ior->io_op = IO_WRITE | IO_CALL | IO_LOANED; ior->io_mode = mode; ior->io_recnum = recnum; ior->io_data = (io_buf_ptr_t) (vm_offset_t)ior + sizeof(struct io_req); ior->io_count = data_count; ior->io_total = data_count; ior->io_alloc_size = 0; ior->io_residual = 0; ior->io_error = 0; ior->io_done = ds_trap_write_done; ior->io_reply_port = IP_NULL; /* XXX */ ior->io_reply_port_type = 0; /* XXX */ /* * Copy the data from user space. */ if (data_count > 0) copyin((char *)data, (char *)ior->io_data, data_count); /* * The ior keeps an extra reference for the device. */ mach_device_reference(device); /* * And do the write. */ result = (*device->dev_ops->d_write)(device->dev_number, ior); /* * If the IO was queued, delay reply until it is finished. */ if (result == D_IO_QUEUED) return (MIG_NO_REPLY); /* * Remove the extra reference. */ mach_device_deallocate(device); zfree(io_trap_zone, (vm_offset_t) ior); return (result); } #ifdef i386 static io_return_t device_writev_trap (void *d, dev_mode_t mode, recnum_t recnum, io_buf_vec_t *iovec, vm_size_t iocount) #else io_return_t ds_device_writev_trap(device_t device, dev_mode_t mode, recnum_t recnum, io_buf_vec_t *iovec, vm_size_t iocount) #endif { #ifdef i386 mach_device_t device = d; #endif io_req_t ior; io_return_t result; io_buf_vec_t stack_iovec[16]; /* XXX */ vm_size_t data_count; int i; #ifndef i386 /* * Refuse if device is dead or not completely open. */ if (device == DEVICE_NULL) return (D_NO_SUCH_DEVICE); #endif if (device->state != DEV_STATE_OPEN) return (D_NO_SUCH_DEVICE); /* XXX note that a CLOSE may proceed at any point */ /* * Copyin user addresses. */ if (iocount > 16) return KERN_INVALID_VALUE; /* lame */ copyin((char *)iovec, (char *)stack_iovec, iocount * sizeof(io_buf_vec_t)); for (data_count = 0, i = 0; i < iocount; i++) data_count += stack_iovec[i].count; /* * Get a buffer to hold the ioreq. */ ior = ds_trap_req_alloc(device, data_count); /* * Package the write request for the device driver. */ ior->io_device = device; ior->io_unit = device->dev_number; ior->io_op = IO_WRITE | IO_CALL | IO_LOANED; ior->io_mode = mode; ior->io_recnum = recnum; ior->io_data = (io_buf_ptr_t) (vm_offset_t)ior + sizeof(struct io_req); ior->io_count = data_count; ior->io_total = data_count; ior->io_alloc_size = 0; ior->io_residual = 0; ior->io_error = 0; ior->io_done = ds_trap_write_done; ior->io_reply_port = IP_NULL; /* XXX */ ior->io_reply_port_type = 0; /* XXX */ /* * Copy the data from user space. */ if (data_count > 0) { vm_offset_t p; p = (vm_offset_t) ior->io_data; for (i = 0; i < iocount; i++) { copyin((char *) stack_iovec[i].data, (char *) p, stack_iovec[i].count); p += stack_iovec[i].count; } } /* * The ior keeps an extra reference for the device. */ mach_device_reference(device); /* * And do the write. */ result = (*device->dev_ops->d_write)(device->dev_number, ior); /* * If the IO was queued, delay reply until it is finished. */ if (result == D_IO_QUEUED) return (MIG_NO_REPLY); /* * Remove the extra reference. */ mach_device_deallocate(device); zfree(io_trap_zone, (vm_offset_t) ior); return (result); } #ifdef i386 struct device_emulation_ops mach_device_emulation_ops = { mach_device_reference, mach_device_deallocate, mach_convert_device_to_port, device_open, device_close, device_write, device_write_inband, device_read, device_read_inband, device_set_status, mach_device_get_status, device_set_filter, device_map, ds_no_senders, device_write_trap, device_writev_trap }; #endif