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[/] [or1k/] [trunk/] [insight/] [gdb/] [rdi-share/] [rx.c] - Rev 1765
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/* * Copyright (C) 1995 Advanced RISC Machines Limited. All rights reserved. * * This software may be freely used, copied, modified, and distributed * provided that the above copyright notice is preserved in all copies of the * software. */ /*-*-C-*- * * $Revision: 1.1.1.1 $ * $Date: 2002-01-16 10:24:34 $ * * * Project: ANGEL * * Title: Character reception engine */ #include <stdarg.h> /* ANSI varargs support */ #include "angel.h" /* Angel system definitions */ #include "angel_endian.h" /* Endian independant memory access macros */ #include "crc.h" /* crc generation definitions and headers */ #include "rxtx.h" #include "channels.h" #include "buffers.h" #ifdef TARGET # include "devdriv.h" #endif #include "logging.h" static re_status unexp_stx(struct re_state *rxstate); static re_status unexp_etx(struct re_state *rxstate); /* bitfield for the rx_engine state */ typedef enum rx_state_flag{ RST_STX, RST_TYP, RST_LEN, RST_DAT, RST_CRC, RST_ETX, RST_ESC = (0x1 << 0x3) } rx_state_flag; void Angel_RxEngineInit(const struct re_config *rxconfig, struct re_state *rxstate) { rxstate->rx_state = RST_STX; rxstate->field_c = 0; rxstate->index = 0; rxstate->crc = 0; rxstate->error = RE_OKAY; rxstate->config = rxconfig; } re_status Angel_RxEngine(unsigned char new_ch, struct data_packet *packet, struct re_state *rxstate) { /* * TODO: add the flow control bits in * Note: We test for the data field in a seperate case so we can * completely avoid entering the switch for most chars */ /* see if we're expecting a escaped char */ if ((rxstate->rx_state & RST_ESC) == RST_ESC) { /* unescape the char and unset the flag*/ new_ch &= ~serial_ESCAPE; #ifdef DO_TRACE __rt_trace("rxe-echar-%2x ", new_ch); #endif rxstate->rx_state &= ~RST_ESC; } else if ( (1 << new_ch) & rxstate->config->esc_set ) { /* see if the incoming char is a special one */ if (new_ch == rxstate->config->esc) { #ifdef DO_TRACE __rt_trace("rxe-esc "); #endif rxstate->rx_state |= RST_ESC; return RS_IN_PKT; } else { /* * must be a normal packet so do some unexpected etx/stx checking * we haven't been told to escape or received an escape so unless * we are expecting an stx or etx then we can take the unexpected * stx/etx trap */ if ((new_ch == (rxstate->config->stx)) && (rxstate->rx_state != RST_STX)) return unexp_stx(rxstate); if ((new_ch == (rxstate->config->etx)) && (rxstate->rx_state != RST_ETX)) return unexp_etx(rxstate); } } if (rxstate->rx_state == RST_DAT) { /* * do this to speed up the common case, no real penalty for * other cases */ #ifdef DO_TRACE __rt_trace("rxe-dat "); #endif rxstate->crc = crc32(&new_ch, 1, rxstate->crc); (packet->data)[rxstate->index++] = (unsigned int)new_ch & 0xff; if (rxstate->index == packet->len) rxstate->rx_state = RST_CRC; return RS_IN_PKT; } /* * Now that the common case is out of the way we can test for everything * else without worrying quite so much about the speed, changing the * order to len,crc,stx,etx,typ might gain a tiny bit of speed but lets * leave that for the moment */ switch (rxstate->rx_state) { case RST_STX: if (new_ch == rxstate->config->stx) { rxstate->rx_state = RST_TYP; rxstate->error = RE_OKAY; rxstate->crc = startCRC32; rxstate->index = 0; return RS_IN_PKT; } else { rxstate->error = RE_OKAY; return RS_WAIT_PKT; } case RST_TYP: packet->type = (DevChanID)new_ch; rxstate->rx_state = RST_LEN; rxstate->error = RE_OKAY; rxstate->field_c = 0; /* set up here for the length that follows */ #ifdef DO_TRACE __rt_trace("rxe-type-%2x ", packet->type); #endif rxstate->crc = crc32(&new_ch, 1, rxstate->crc); return RS_IN_PKT; case RST_LEN: rxstate->crc = crc32(&new_ch, 1, rxstate->crc); if (rxstate->field_c++ == 0) { /* first length byte */ packet->len = ((unsigned int)new_ch) << 8; return RS_IN_PKT; } else { /* got the whole legth */ packet->len |= new_ch; #ifdef DO_TRACE __rt_trace("rxe-len-%4x\n", packet->len); #endif /* check that the length is ok */ if (packet->len == 0) { /* empty pkt */ rxstate->field_c = 0; rxstate->rx_state = RST_CRC; return RS_IN_PKT; } else { if (packet->data == NULL) { /* need to alloc the data buffer */ if (!rxstate->config->ba_callback( packet, rxstate->config->ba_data)) { rxstate->rx_state = RST_STX; rxstate->error = RE_INTERNAL; return RS_BAD_PKT; } } if (packet->len > packet->buf_len) { /* pkt bigger than buffer */ rxstate->field_c = 0; rxstate->rx_state = RST_STX; rxstate->error = RE_LEN; return RS_BAD_PKT; } else { /* packet ok */ rxstate->field_c = 0; rxstate->rx_state = RST_DAT; return RS_IN_PKT; } } } case RST_DAT: /* dummy case (dealt with earlier) */ #ifdef ASSERTIONS_ENABLED __rt_warning("ERROR: hit RST_dat in switch\n"); #endif rxstate->rx_state = RST_STX; rxstate->error = RE_INTERNAL; return RS_BAD_PKT; case RST_CRC: if (rxstate->field_c == 0) packet->crc = 0; packet->crc |= (new_ch & 0xFF) << ((3 - rxstate->field_c) * 8); rxstate->field_c++; if (rxstate->field_c == 4) { /* last crc field */ rxstate->field_c = 0; rxstate->rx_state = RST_ETX; #ifdef DO_TRACE __rt_trace("rxe-rcrc-%8x ", packet->crc); #endif } return RS_IN_PKT; case RST_ETX: if (new_ch == rxstate->config->etx) { #if defined(DEBUG) && !defined(NO_PKT_DATA) { int c; # ifdef DO_TRACE __rt_trace("\n"); # endif __rt_info("RXE Data ="); for (c=0; c < packet->len; c++) __rt_info("%02x", packet->data[c]); __rt_info("\n"); } #endif /* check crc */ if (rxstate->crc == packet->crc) { /* crc ok */ rxstate->rx_state = RST_STX; rxstate->field_c = 0; return RS_GOOD_PKT; } else { #ifdef ASSERTIONS_ENABLED __rt_warning("Bad crc, rx calculates it should be 0x%x\n", rxstate->crc); #endif rxstate->rx_state = RST_STX; rxstate->error = RE_CRC; return RS_BAD_PKT; } } else if (new_ch == rxstate->config->stx) return unexp_stx(rxstate); else { rxstate->rx_state = RST_STX; rxstate->error = RE_NETX; return RS_BAD_PKT; } default: #ifdef ASSERTIONS_ENABLED __rt_warning("ERROR fell through rxengine\n"); #endif rxstate->rx_state = RST_STX; rxstate->error = RE_INTERNAL; return RS_BAD_PKT; } } static re_status unexp_stx(struct re_state *rxstate) { #ifdef ASSERTIONS_ENABLED __rt_warning("Unexpected stx\n"); #endif rxstate->crc = startCRC32; rxstate->index = 0; rxstate->rx_state = RST_TYP; rxstate->error = RE_U_STX; rxstate->field_c = 0; return RS_BAD_PKT; } static re_status unexp_etx(struct re_state *rxstate) { #ifdef ASSERTIONS_ENABLED __rt_warning("Unexpected etx, rxstate: index= 0x%2x, field_c=0x%2x, state=0x%2x\n", rxstate->index, rxstate->field_c, rxstate->rx_state); #endif rxstate->crc = 0; rxstate->index = 0; rxstate->rx_state = RST_STX; rxstate->error = RE_U_ETX; rxstate->field_c = 0; return RS_BAD_PKT; } /* * This can be used as the buffer allocation callback for the rx engine, * and makes use of angel_DD_GetBuffer() [in devdrv.h]. * * Saves duplicating this callback function in every device driver that * uses the rx engine. * * Note that this REQUIRES that the device id is installed as ba_data * in the rx engine config structure for the driver. */ bool angel_DD_RxEng_BufferAlloc( struct data_packet *packet, void *cb_data ) { #ifdef TARGET DeviceID devid = (DeviceID)cb_data; #else IGNORE(cb_data); #endif if ( packet->type < DC_NUM_CHANNELS ) { /* request a buffer down from the channels layer */ #ifdef TARGET packet->data = angel_DD_GetBuffer( devid, packet->type, packet->len ); #else packet->data = malloc(packet->len); #endif if ( packet->data == NULL ) return FALSE; else { packet->buf_len = packet->len; return TRUE; } } else { /* bad type field */ return FALSE; } } /* EOF rx.c */