/* * driver: reading from and writing to system console on S/390 via SCLP * * Copyright IBM Corp. 1999, 2009 * * Author(s): Martin Peschke <mpeschke@de.ibm.com> * Martin Schwidefsky <schwidefsky@de.ibm.com> */ #include <linux/kmod.h> #include <linux/types.h> #include <linux/err.h> #include <linux/string.h> #include <linux/spinlock.h> #include <linux/ctype.h> #include <asm/uaccess.h> #include "sclp.h" #include "sclp_rw.h" /* * The room for the SCCB (only for writing) is not equal to a pages size * (as it is specified as the maximum size in the SCLP documentation) * because of the additional data structure described above. */ #define MAX_SCCB_ROOM (PAGE_SIZE - sizeof(struct sclp_buffer)) static void sclp_rw_pm_event(struct sclp_register *reg, enum sclp_pm_event sclp_pm_event) { sclp_console_pm_event(sclp_pm_event); } /* Event type structure for write message and write priority message */ static struct sclp_register sclp_rw_event = { .send_mask = EVTYP_MSG_MASK | EVTYP_PMSGCMD_MASK, .pm_event_fn = sclp_rw_pm_event, }; /* * Setup a sclp write buffer. Gets a page as input (4K) and returns * a pointer to a struct sclp_buffer structure that is located at the * end of the input page. This reduces the buffer space by a few * bytes but simplifies things. */ struct sclp_buffer * sclp_make_buffer(void *page, unsigned short columns, unsigned short htab) { struct sclp_buffer *buffer; struct write_sccb *sccb; sccb = (struct write_sccb *) page; /* * We keep the struct sclp_buffer structure at the end * of the sccb page. */ buffer = ((struct sclp_buffer *) ((addr_t) sccb + PAGE_SIZE)) - 1; buffer->sccb = sccb; buffer->retry_count = 0; buffer->mto_number = 0; buffer->mto_char_sum = 0; buffer->current_line = NULL; buffer->current_length = 0; buffer->columns = columns; buffer->htab = htab; /* initialize sccb */ memset(sccb, 0, sizeof(struct write_sccb)); sccb->header.length = sizeof(struct write_sccb); sccb->msg_buf.header.length = sizeof(struct msg_buf); sccb->msg_buf.header.type = EVTYP_MSG; sccb->msg_buf.mdb.header.length = sizeof(struct mdb); sccb->msg_buf.mdb.header.type = 1; sccb->msg_buf.mdb.header.tag = 0xD4C4C240; /* ebcdic "MDB " */ sccb->msg_buf.mdb.header.revision_code = 1; sccb->msg_buf.mdb.go.length = sizeof(struct go); sccb->msg_buf.mdb.go.type = 1; return buffer; } /* * Return a pointer to the original page that has been used to create * the buffer. */ void * sclp_unmake_buffer(struct sclp_buffer *buffer) { return buffer->sccb; } /* * Initialize a new Message Text Object (MTO) at the end of the provided buffer * with enough room for max_len characters. Return 0 on success. */ static int sclp_initialize_mto(struct sclp_buffer *buffer, int max_len) { struct write_sccb *sccb; struct mto *mto; int mto_size; /* max size of new Message Text Object including message text */ mto_size = sizeof(struct mto) + max_len; /* check if current buffer sccb can contain the mto */ sccb = buffer->sccb; if ((MAX_SCCB_ROOM - sccb->header.length) < mto_size) return -ENOMEM; /* find address of new message text object */ mto = (struct mto *)(((addr_t) sccb) + sccb->header.length); /* * fill the new Message-Text Object, * starting behind the former last byte of the SCCB */ memset(mto, 0, sizeof(struct mto)); mto->length = sizeof(struct mto); mto->type = 4; /* message text object */ mto->line_type_flags = LNTPFLGS_ENDTEXT; /* end text */ /* set pointer to first byte after struct mto. */ buffer->current_line = (char *) (mto + 1); buffer->current_length = 0; return 0; } /* * Finalize MTO initialized by sclp_initialize_mto(), updating the sizes of * MTO, enclosing MDB, event buffer and SCCB. */ static void sclp_finalize_mto(struct sclp_buffer *buffer) { struct write_sccb *sccb; struct mto *mto; int str_len, mto_size; str_len = buffer->current_length; buffer->current_line = NULL; buffer->current_length = 0; /* real size of new Message Text Object including message text */ mto_size = sizeof(struct mto) + str_len; /* find address of new message text object */ sccb = buffer->sccb; mto = (struct mto *)(((addr_t) sccb) + sccb->header.length); /* set size of message text object */ mto->length = mto_size; /* * update values of sizes * (SCCB, Event(Message) Buffer, Message Data Block) */ sccb->header.length += mto_size; sccb->msg_buf.header.length += mto_size; sccb->msg_buf.mdb.header.length += mto_size; /* * count number of buffered messages (= number of Message Text * Objects) and number of buffered characters * for the SCCB currently used for buffering and at all */ buffer->mto_number++; buffer->mto_char_sum += str_len; } /* * processing of a message including escape characters, * returns number of characters written to the output sccb * ("processed" means that is not guaranteed that the character have already * been sent to the SCLP but that it will be done at least next time the SCLP * is not busy) */ int sclp_write(struct sclp_buffer *buffer, const unsigned char *msg, int count) { int spaces, i_msg; int rc; /* * parse msg for escape sequences (\t,\v ...) and put formated * msg into an mto (created by sclp_initialize_mto). * * We have to do this work ourselfs because there is no support for * these characters on the native machine and only partial support * under VM (Why does VM interpret \n but the native machine doesn't ?) * * Depending on i/o-control setting the message is always written * immediately or we wait for a final new line maybe coming with the * next message. Besides we avoid a buffer overrun by writing its * content. * * RESTRICTIONS: * * \r and \b work within one line because we are not able to modify * previous output that have already been accepted by the SCLP. * * \t combined with following \r is not correctly represented because * \t is expanded to some spaces but \r does not know about a * previous \t and decreases the current position by one column. * This is in order to a slim and quick implementation. */ for (i_msg = 0; i_msg < count; i_msg++) { switch (msg[i_msg]) { case '\n': /* new line, line feed (ASCII) */ /* check if new mto needs to be created */ if (buffer->current_line == NULL) { rc = sclp_initialize_mto(buffer, 0); if (rc) return i_msg; } sclp_finalize_mto(buffer); break; case '\a': /* bell, one for several times */ /* set SCLP sound alarm bit in General Object */ buffer->sccb->msg_buf.mdb.go.general_msg_flags |= GNRLMSGFLGS_SNDALRM; break; case '\t': /* horizontal tabulator */ /* check if new mto needs to be created */ if (buffer->current_line == NULL) { rc = sclp_initialize_mto(buffer, buffer->columns); if (rc) return i_msg; } /* "go to (next htab-boundary + 1, same line)" */ do { if (buffer->current_length >= buffer->columns) break; /* ok, add a blank */ *buffer->current_line++ = 0x40; buffer->current_length++; } while (buffer->current_length % buffer->htab); break; case '\f': /* form feed */ case '\v': /* vertical tabulator */ /* "go to (actual column, actual line + 1)" */ /* = new line, leading spaces */ if (buffer->current_line != NULL) { spaces = buffer->current_length; sclp_finalize_mto(buffer); rc = sclp_initialize_mto(buffer, buffer->columns); if (rc) return i_msg; memset(buffer->current_line, 0x40, spaces); buffer->current_line += spaces; buffer->current_length = spaces; } else { /* one an empty line this is the same as \n */ rc = sclp_initialize_mto(buffer, buffer->columns); if (rc) return i_msg; sclp_finalize_mto(buffer); } break; case '\b': /* backspace */ /* "go to (actual column - 1, actual line)" */ /* decrement counter indicating position, */ /* do not remove last character */ if (buffer->current_line != NULL && buffer->current_length > 0) { buffer->current_length--; buffer->current_line--; } break; case 0x00: /* end of string */ /* transfer current line to SCCB */ if (buffer->current_line != NULL) sclp_finalize_mto(buffer); /* skip the rest of the message including the 0 byte */ i_msg = count - 1; break; default: /* no escape character */ /* do not output unprintable characters */ if (!isprint(msg[i_msg])) break; /* check if new mto needs to be created */ if (buffer->current_line == NULL) { rc = sclp_initialize_mto(buffer, buffer->columns); if (rc) return i_msg; } *buffer->current_line++ = sclp_ascebc(msg[i_msg]); buffer->current_length++; break; } /* check if current mto is full */ if (buffer->current_line != NULL && buffer->current_length >= buffer->columns) sclp_finalize_mto(buffer); } /* return number of processed characters */ return i_msg; } /* * Return the number of free bytes in the sccb */ int sclp_buffer_space(struct sclp_buffer *buffer) { int count; count = MAX_SCCB_ROOM - buffer->sccb->header.length; if (buffer->current_line != NULL) count -= sizeof(struct mto) + buffer->current_length; return count; } /* * Return number of characters in buffer */ int sclp_chars_in_buffer(struct sclp_buffer *buffer) { int count; count = buffer->mto_char_sum; if (buffer->current_line != NULL) count += buffer->current_length; return count; } /* * sets or provides some values that influence the drivers behaviour */ void sclp_set_columns(struct sclp_buffer *buffer, unsigned short columns) { buffer->columns = columns; if (buffer->current_line != NULL && buffer->current_length > buffer->columns) sclp_finalize_mto(buffer); } void sclp_set_htab(struct sclp_buffer *buffer, unsigned short htab) { buffer->htab = htab; } /* * called by sclp_console_init and/or sclp_tty_init */ int sclp_rw_init(void) { static int init_done = 0; int rc; if (init_done) return 0; rc = sclp_register(&sclp_rw_event); if (rc == 0) init_done = 1; return rc; } #define SCLP_BUFFER_MAX_RETRY 1 /* * second half of Write Event Data-function that has to be done after * interruption indicating completion of Service Call. */ static void sclp_writedata_callback(struct sclp_req *request, void *data) { int rc; struct sclp_buffer *buffer; struct write_sccb *sccb; buffer = (struct sclp_buffer *) data; sccb = buffer->sccb; if (request->status == SCLP_REQ_FAILED) { if (buffer->callback != NULL) buffer->callback(buffer, -EIO); return; } /* check SCLP response code and choose suitable action */ switch (sccb->header.response_code) { case 0x0020 : /* Normal completion, buffer processed, message(s) sent */ rc = 0; break; case 0x0340: /* Contained SCLP equipment check */ if (++buffer->retry_count > SCLP_BUFFER_MAX_RETRY) { rc = -EIO; break; } /* remove processed buffers and requeue rest */ if (sclp_remove_processed((struct sccb_header *) sccb) > 0) { /* not all buffers were processed */ sccb->header.response_code = 0x0000; buffer->request.status = SCLP_REQ_FILLED; rc = sclp_add_request(request); if (rc == 0) return; } else rc = 0; break; case 0x0040: /* SCLP equipment check */ case 0x05f0: /* Target resource in improper state */ if (++buffer->retry_count > SCLP_BUFFER_MAX_RETRY) { rc = -EIO; break; } /* retry request */ sccb->header.response_code = 0x0000; buffer->request.status = SCLP_REQ_FILLED; rc = sclp_add_request(request); if (rc == 0) return; break; default: if (sccb->header.response_code == 0x71f0) rc = -ENOMEM; else rc = -EINVAL; break; } if (buffer->callback != NULL) buffer->callback(buffer, rc); } /* * Setup the request structure in the struct sclp_buffer to do SCLP Write * Event Data and pass the request to the core SCLP loop. Return zero on * success, non-zero otherwise. */ int sclp_emit_buffer(struct sclp_buffer *buffer, void (*callback)(struct sclp_buffer *, int)) { struct write_sccb *sccb; /* add current line if there is one */ if (buffer->current_line != NULL) sclp_finalize_mto(buffer); /* Are there messages in the output buffer ? */ if (buffer->mto_number == 0) return -EIO; sccb = buffer->sccb; if (sclp_rw_event.sclp_receive_mask & EVTYP_MSG_MASK) /* Use normal write message */ sccb->msg_buf.header.type = EVTYP_MSG; else if (sclp_rw_event.sclp_receive_mask & EVTYP_PMSGCMD_MASK) /* Use write priority message */ sccb->msg_buf.header.type = EVTYP_PMSGCMD; else return -EOPNOTSUPP; buffer->request.command = SCLP_CMDW_WRITE_EVENT_DATA; buffer->request.status = SCLP_REQ_FILLED; buffer->request.callback = sclp_writedata_callback; buffer->request.callback_data = buffer; buffer->request.sccb = sccb; buffer->callback = callback; return sclp_add_request(&buffer->request); }