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[/] [or1k_old/] [trunk/] [uclinux/] [uClinux-2.0.x/] [drivers/] [isdn/] [pcbit/] [layer2.c] - Rev 199
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/* * Copyright (C) 1996 Universidade de Lisboa * * Written by Pedro Roque Marques (roque@di.fc.ul.pt) * * This software may be used and distributed according to the terms of * the GNU Public License, incorporated herein by reference. */ /* * PCBIT-D low-layer interface */ /* * Based on documentation provided by Inesc: * - "Interface com bus do PC para o PCBIT e PCBIT-D", Inesc, Jan 93 */ /* * TODO: better handling of errors * re-write/remove debug printks */ #define __NO_VERSION__ #ifdef MODULE #define INCLUDE_INLINE_FUNCS #endif #include <linux/module.h> #include <linux/sched.h> #include <linux/string.h> #include <linux/kernel.h> #include <linux/types.h> #include <linux/malloc.h> #include <linux/interrupt.h> #include <linux/tqueue.h> #include <linux/mm.h> #include <linux/skbuff.h> #include <linux/isdnif.h> #include <asm/system.h> #include <asm/io.h> #include "pcbit.h" #include "layer2.h" #include "edss1.h" #undef DEBUG_FRAG /* * task queue struct */ /* * Layer 3 packet demultiplexer * drv.c */ extern void pcbit_l3_receive(struct pcbit_dev *dev, ulong msg, struct sk_buff *skb, ushort hdr_len, ushort refnum); /* * Prototypes */ void pcbit_deliver(void *data); static void pcbit_transmit(struct pcbit_dev *dev); static void pcbit_recv_ack(struct pcbit_dev *dev, unsigned char ack); static void pcbit_l2_error(struct pcbit_dev *dev); static void pcbit_l2_active_conf(struct pcbit_dev *dev, u_char info); static void pcbit_l2_err_recover(unsigned long data); static void pcbit_firmware_bug(struct pcbit_dev *dev); static __inline__ void pcbit_sched_delivery(struct pcbit_dev *dev) { queue_task(&dev->qdelivery, &tq_immediate); mark_bh(IMMEDIATE_BH); } /* * Called from layer3 */ int pcbit_l2_write(struct pcbit_dev *dev, ulong msg, ushort refnum, struct sk_buff *skb, unsigned short hdr_len) { struct frame_buf *frame, *ptr; unsigned long flags; if (dev->l2_state != L2_RUNNING && dev->l2_state != L2_LOADING) { dev_kfree_skb(skb, FREE_WRITE); return -1; } if ((frame = (struct frame_buf *) kmalloc(sizeof(struct frame_buf), GFP_ATOMIC)) == NULL) { printk(KERN_WARNING "pcbit_2_write: kmalloc failed\n"); dev_kfree_skb(skb, FREE_WRITE); return -1; } frame->msg = msg; frame->refnum = refnum; frame->copied = 0; frame->hdr_len = hdr_len; if (skb) frame->dt_len = skb->len - hdr_len; else frame->dt_len = 0; frame->skb = skb; frame->next = NULL; save_flags(flags); cli(); if (dev->write_queue == NULL) { dev->write_queue = frame; restore_flags(flags); pcbit_transmit(dev); } else { for (ptr = dev->write_queue; ptr->next; ptr = ptr->next); ptr->next = frame; restore_flags(flags); } return 0; } static __inline__ void pcbit_tx_update(struct pcbit_dev *dev, ushort len) { u_char info; dev->send_seq = (dev->send_seq + 1) % 8; dev->fsize[dev->send_seq] = len; info = 0; info |= dev->rcv_seq << 3; info |= dev->send_seq; writeb(info, dev->sh_mem + BANK4); } /* * called by interrupt service routine or by write_2 */ static void pcbit_transmit(struct pcbit_dev *dev) { struct frame_buf *frame = NULL; unsigned char unacked; int flen; /* fragment frame length including all headers */ int totlen; /* non-fragmented frame length */ int free; int count, cp_len; unsigned long flags; unsigned short tt; if (dev->l2_state != L2_RUNNING && dev->l2_state != L2_LOADING) return; unacked = (dev->send_seq + (8 - dev->unack_seq)) & 0x07; save_flags(flags); cli(); if (dev->free > 16 && dev->write_queue && unacked < 7) { if (!dev->w_busy) dev->w_busy = 1; else { restore_flags(flags); return; } frame = dev->write_queue; free = dev->free; restore_flags(flags); if (frame->copied == 0) { /* Type 0 frame */ struct msg_fmt *msg; if (frame->skb) totlen = FRAME_HDR_LEN + PREHDR_LEN + frame->skb->len; else totlen = FRAME_HDR_LEN + PREHDR_LEN; flen = MIN(totlen, free); msg = (struct msg_fmt *) &(frame->msg); /* * Board level 2 header */ pcbit_writew(dev, flen - FRAME_HDR_LEN); pcbit_writeb(dev, msg->cpu); pcbit_writeb(dev, msg->proc); /* TH */ pcbit_writew(dev, frame->hdr_len + PREHDR_LEN); /* TD */ pcbit_writew(dev, frame->dt_len); /* * Board level 3 fixed-header */ /* LEN = TH */ pcbit_writew(dev, frame->hdr_len + PREHDR_LEN); /* XX */ pcbit_writew(dev, 0); /* C + S */ pcbit_writeb(dev, msg->cmd); pcbit_writeb(dev, msg->scmd); /* NUM */ pcbit_writew(dev, frame->refnum); count = FRAME_HDR_LEN + PREHDR_LEN; } else { /* Type 1 frame */ totlen = 2 + (frame->skb->len - frame->copied); flen = MIN(totlen, free); /* TT */ tt = ((ushort) (flen - 2)) | 0x8000U; /* Type 1 */ pcbit_writew(dev, tt); count = 2; } if (frame->skb) { cp_len = MIN(frame->skb->len - frame->copied, flen - count); memcpy_topcbit(dev, frame->skb->data + frame->copied, cp_len); frame->copied += cp_len; } /* bookkeeping */ dev->free -= flen; pcbit_tx_update(dev, flen); save_flags(flags); cli(); if (frame->skb == NULL || frame->copied == frame->skb->len) { dev->write_queue = frame->next; if (frame->skb != NULL) { /* free frame */ dev_kfree_skb(frame->skb, FREE_WRITE); } kfree(frame); } dev->w_busy = 0; restore_flags(flags); } else { restore_flags(flags); #ifdef DEBUG printk(KERN_DEBUG "unacked %d free %d write_queue %s\n", unacked, dev->free, dev->write_queue ? "not empty" : "empty"); #endif } } /* * deliver a queued frame to the upper layer */ void pcbit_deliver(void *data) { struct frame_buf *frame; unsigned long flags; struct msg_fmt msg; struct pcbit_dev *dev = (struct pcbit_dev *) data; save_flags(flags); cli(); while ((frame = dev->read_queue)) { dev->read_queue = frame->next; restore_flags(flags); msg.cpu = 0; msg.proc = 0; msg.cmd = frame->skb->data[2]; msg.scmd = frame->skb->data[3]; frame->refnum = *((ushort *) frame->skb->data + 4); frame->msg = *((ulong *) & msg); skb_pull(frame->skb, 6); pcbit_l3_receive(dev, frame->msg, frame->skb, frame->hdr_len, frame->refnum); kfree(frame); save_flags(flags); cli(); } restore_flags(flags); } /* * Reads BANK 2 & Reassembles */ static void pcbit_receive(struct pcbit_dev *dev) { unsigned short tt; u_char cpu, proc; struct frame_buf *frame = NULL; unsigned long flags; u_char type1; if (dev->l2_state != L2_RUNNING && dev->l2_state != L2_LOADING) return; tt = pcbit_readw(dev); if ((tt & 0x7fffU) > 511) { printk(KERN_INFO "pcbit: invalid frame length -> TT=%04x\n", tt); pcbit_l2_error(dev); return; } if (!(tt & 0x8000U)) { /* Type 0 */ type1 = 0; if (dev->read_frame) { printk(KERN_DEBUG "pcbit_receive: Type 0 frame and read_frame != NULL\n"); #if 0 pcbit_l2_error(dev); return; #else /* discard previous queued frame */ if (dev->read_frame->skb) { SET_SKB_FREE(dev->read_frame->skb); kfree_skb(dev->read_frame->skb, FREE_READ); } kfree(dev->read_frame); dev->read_frame = NULL; #endif } frame = kmalloc(sizeof(struct frame_buf), GFP_ATOMIC); if (frame == NULL) { printk(KERN_WARNING "kmalloc failed\n"); return; } memset(frame, 0, sizeof(struct frame_buf)); cpu = pcbit_readb(dev); proc = pcbit_readb(dev); if (cpu != 0x06 && cpu != 0x02) { printk(KERN_DEBUG "pcbit: invalid cpu value\n"); kfree(frame); pcbit_l2_error(dev); return; } /* * we discard cpu & proc on receiving * but we read it to update the pointer */ frame->hdr_len = pcbit_readw(dev); frame->dt_len = pcbit_readw(dev); /* * 0 sized packet * I don't know if they are an error or not... * But they are very frequent * Not documented */ if (frame->hdr_len == 0) { kfree(frame); #ifdef DEBUG printk(KERN_DEBUG "0 sized frame\n"); #endif pcbit_firmware_bug(dev); return; } /* sanity check the length values */ if (frame->hdr_len > 1024 || frame->dt_len > 2048) { #ifdef DEBUG printk(KERN_DEBUG "length problem: "); printk(KERN_DEBUG "TH=%04x TD=%04x\n", frame->hdr_len, frame->dt_len); #endif pcbit_l2_error(dev); kfree(frame); return; } /* minimum frame read */ frame->skb = dev_alloc_skb(frame->hdr_len + frame->dt_len + ((frame->hdr_len + 15) & ~15)); if (!frame->skb) { printk(KERN_DEBUG "pcbit_receive: out of memory\n"); kfree(frame); return; } /* 16 byte alignment for IP */ if (frame->dt_len) skb_reserve(frame->skb, (frame->hdr_len + 15) & ~15); } else { /* Type 1 */ type1 = 1; tt &= 0x7fffU; if (!(frame = dev->read_frame)) { printk("Type 1 frame and no frame queued\n"); #if 1 /* usually after an error: toss frame */ dev->readptr += tt; if (dev->readptr > dev->sh_mem + BANK2 + BANKLEN) dev->readptr -= BANKLEN; #else pcbit_l2_error(dev); #endif return; } } memcpy_frompcbit(dev, skb_put(frame->skb, tt), tt); frame->copied += tt; if (frame->copied == frame->hdr_len + frame->dt_len) { save_flags(flags); cli(); if (type1) { dev->read_frame = NULL; } if (dev->read_queue) { struct frame_buf *ptr; for (ptr = dev->read_queue; ptr->next; ptr = ptr->next); ptr->next = frame; } else dev->read_queue = frame; restore_flags(flags); } else { save_flags(flags); cli(); dev->read_frame = frame; restore_flags(flags); } } /* * The board sends 0 sized frames * They are TDATA_CONFs that get messed up somehow * gotta send a fake acknowledgment to the upper layer somehow */ static __inline__ void pcbit_fake_conf(struct pcbit_dev *dev, struct pcbit_chan *chan) { isdn_ctrl ictl; if (chan->queued) { chan->queued--; ictl.driver = dev->id; ictl.command = ISDN_STAT_BSENT; ictl.arg = chan->id; dev->dev_if->statcallb(&ictl); } } static void pcbit_firmware_bug(struct pcbit_dev *dev) { struct pcbit_chan *chan; chan = dev->b1; if (chan->fsm_state == ST_ACTIVE) { pcbit_fake_conf(dev, chan); } chan = dev->b2; if (chan->fsm_state == ST_ACTIVE) { pcbit_fake_conf(dev, chan); } } void pcbit_irq_handler(int interrupt, void *devptr, struct pt_regs *regs) { struct pcbit_dev *dev; u_char info, ack_seq, read_seq; dev = (struct pcbit_dev *) devptr; if (!dev) { printk(KERN_WARNING "pcbit_irq_handler: wrong device\n"); return; } if (dev->interrupt) { printk(KERN_DEBUG "pcbit: reentering interrupt hander\n"); return; } dev->interrupt = 1; info = readb(dev->sh_mem + BANK3); if (dev->l2_state == L2_STARTING || dev->l2_state == L2_ERROR) { pcbit_l2_active_conf(dev, info); dev->interrupt = 0; return; } if (info & 0x40U) { /* E bit set */ #ifdef DEBUG printk(KERN_DEBUG "pcbit_irq_handler: E bit on\n"); #endif pcbit_l2_error(dev); dev->interrupt = 0; return; } if (dev->l2_state != L2_RUNNING && dev->l2_state != L2_LOADING) { dev->interrupt = 0; return; } ack_seq = (info >> 3) & 0x07U; read_seq = (info & 0x07U); dev->interrupt = 0; if (read_seq != dev->rcv_seq) { while (read_seq != dev->rcv_seq) { pcbit_receive(dev); dev->rcv_seq = (dev->rcv_seq + 1) % 8; } pcbit_sched_delivery(dev); } if (ack_seq != dev->unack_seq) { pcbit_recv_ack(dev, ack_seq); } info = dev->rcv_seq << 3; info |= dev->send_seq; writeb(info, dev->sh_mem + BANK4); } static void pcbit_l2_active_conf(struct pcbit_dev *dev, u_char info) { u_char state; state = dev->l2_state; #ifdef DEBUG printk(KERN_DEBUG "layer2_active_confirm\n"); #endif if (info & 0x80U) { dev->rcv_seq = info & 0x07U; dev->l2_state = L2_RUNNING; } else dev->l2_state = L2_DOWN; if (state == L2_STARTING) wake_up_interruptible(&dev->set_running_wq); if (state == L2_ERROR && dev->l2_state == L2_RUNNING) { pcbit_transmit(dev); } } static void pcbit_l2_err_recover(unsigned long data) { struct pcbit_dev *dev; struct frame_buf *frame; dev = (struct pcbit_dev *) data; del_timer(&dev->error_recover_timer); if (dev->w_busy || dev->r_busy) { init_timer(&dev->error_recover_timer); dev->error_recover_timer.expires = jiffies + ERRTIME; add_timer(&dev->error_recover_timer); return; } dev->w_busy = dev->r_busy = 1; if (dev->read_frame) { if (dev->read_frame->skb) { SET_SKB_FREE(dev->read_frame->skb); kfree_skb(dev->read_frame->skb, FREE_READ); } kfree(dev->read_frame); dev->read_frame = NULL; } if (dev->write_queue) { frame = dev->write_queue; #ifdef FREE_ON_ERROR dev->write_queue = dev->write_queue->next; if (frame->skb) { dev_kfree_skb(frame->skb, FREE_WRITE); } kfree(frame); #else frame->copied = 0; #endif } dev->rcv_seq = dev->send_seq = dev->unack_seq = 0; dev->free = 511; dev->l2_state = L2_ERROR; /* this is an hack... */ pcbit_firmware_bug(dev); dev->writeptr = dev->sh_mem; dev->readptr = dev->sh_mem + BANK2; writeb((0x80U | ((dev->rcv_seq & 0x07) << 3) | (dev->send_seq & 0x07)), dev->sh_mem + BANK4); dev->w_busy = dev->r_busy = 0; } static void pcbit_l2_error(struct pcbit_dev *dev) { if (dev->l2_state == L2_RUNNING) { printk(KERN_INFO "pcbit: layer 2 error\n"); #ifdef DEBUG log_state(dev); #endif dev->l2_state = L2_DOWN; init_timer(&dev->error_recover_timer); dev->error_recover_timer.function = &pcbit_l2_err_recover; dev->error_recover_timer.data = (ulong) dev; dev->error_recover_timer.expires = jiffies + ERRTIME; add_timer(&dev->error_recover_timer); } } /* * Description: * if board acks frames * update dev->free * call pcbit_transmit to write possible queued frames */ static void pcbit_recv_ack(struct pcbit_dev *dev, unsigned char ack) { int i, count; int unacked; unacked = (dev->send_seq + (8 - dev->unack_seq)) & 0x07; /* dev->unack_seq < ack <= dev->send_seq; */ if (unacked) { if (dev->send_seq > dev->unack_seq) if (ack <= dev->unack_seq || ack > dev->send_seq) { printk(KERN_DEBUG "layer 2 ack unacceptable - dev %d", dev->id); pcbit_l2_error(dev); } else if (ack > dev->send_seq && ack <= dev->unack_seq) { printk(KERN_DEBUG "layer 2 ack unacceptable - dev %d", dev->id); pcbit_l2_error(dev); } /* ack is acceptable */ i = dev->unack_seq; do { dev->unack_seq = i = (i + 1) % 8; dev->free += dev->fsize[i]; } while (i != ack); count = 0; while (count < 7 && dev->write_queue) { u8 lsend_seq = dev->send_seq; pcbit_transmit(dev); if (dev->send_seq == lsend_seq) break; count++; } } else printk(KERN_DEBUG "recv_ack: unacked = 0\n"); }
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