/* * Copyright (c) Eicon Networks, 2002. * This source file is supplied for the use with Eicon Networks range of DIVA Server Adapters. * Eicon File Revision : 2.1 * This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 2, or (at your option) any later version. * This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY OF ANY KIND WHATSOEVER INCLUDING ANY implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. * You should have received a copy of the GNU General Public License along with this program; if not, write to the Free Software Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA. * */ #include "platform.h" #if defined(DIVA_ISTREAM) /* { */ #include "pc.h" #include "pr_pc.h" #include "di_defs.h" #include "divasync.h" #include "di.h" #if !defined USE_EXTENDED_DEBUGS #include "dimaint.h" #else #define dprintf #endif #include "dfifo.h" int diva_istream_write (void* context, int Id, void* data, int length, int final, byte usr1, byte usr2); int diva_istream_read (void* context, int Id, void* data, int max_length, int* final, byte* usr1, byte* usr2); /* ------------------------------------------------------------------- Does provide iStream interface to the client ------------------------------------------------------------------- */ void diva_xdi_provide_istream_info (ADAPTER* a, diva_xdi_stream_interface_t* pi) { pi->provided_service = 0; } /* ------------------------------------------------------------------ Does write the data from caller's buffer to the card's stream interface. If synchronous service was requested, then function does return amount of data written to stream. 'final' does indicate that pice of data to be written is final part of frame (necessary only by structured datatransfer) return 0 if zero lengh packet was written return -1 if stream is full ------------------------------------------------------------------ */ int diva_istream_write (void* context, int Id, void* data, int length, int final, byte usr1, byte usr2) { ADAPTER* a = (ADAPTER*)context; int written = 0, to_write = -1; char tmp[4]; byte* data_ptr = (byte*)data; for (;;) { a->ram_in_dw (a, #ifdef PLATFORM_GT_32BIT ULongToPtr(a->tx_stream[Id] + a->tx_pos[Id]), #else (void*)(a->tx_stream[Id] + a->tx_pos[Id]), #endif (dword*)&tmp[0], 1); if (tmp[0] & DIVA_DFIFO_READY) { /* No free blocks more */ if (to_write < 0) return (-1); /* was not able to write */ break; /* only part of message was written */ } to_write = min(length, DIVA_DFIFO_DATA_SZ); if (to_write) { a->ram_out_buffer (a, #ifdef PLATFORM_GT_32BIT ULongToPtr(a->tx_stream[Id] + a->tx_pos[Id]+4), #else (void*)(a->tx_stream[Id] + a->tx_pos[Id] + 4), #endif data_ptr, (word)to_write); length -= to_write; written += to_write; data_ptr += to_write; } tmp[1] = (char)to_write; tmp[0] = (tmp[0] & DIVA_DFIFO_WRAP) | DIVA_DFIFO_READY | ((!length && final) ? DIVA_DFIFO_LAST : 0); if (tmp[0] & DIVA_DFIFO_LAST) { tmp[2] = usr1; tmp[3] = usr2; } a->ram_out_dw (a, #ifdef PLATFORM_GT_32BIT ULongToPtr(a->tx_stream[Id] + a->tx_pos[Id]), #else (void*)(a->tx_stream[Id] + a->tx_pos[Id]), #endif (dword*)&tmp[0], 1); if (tmp[0] & DIVA_DFIFO_WRAP) { a->tx_pos[Id] = 0; } else { a->tx_pos[Id] += DIVA_DFIFO_STEP; } if (!length) { break; } } return (written); } /* ------------------------------------------------------------------- In case of SYNCRONOUS service: Does write data from stream in caller's buffer. Does return amount of data written to buffer Final flag is set on return if last part of structured frame was received return 0 if zero packet was received return -1 if stream is empty return -2 if read buffer does not profide sufficient space to accommodate entire segment max_length should be at least 68 bytes ------------------------------------------------------------------- */ int diva_istream_read (void* context, int Id, void* data, int max_length, int* final, byte* usr1, byte* usr2) { ADAPTER* a = (ADAPTER*)context; int read = 0, to_read = -1; char tmp[4]; byte* data_ptr = (byte*)data; *final = 0; for (;;) { a->ram_in_dw (a, #ifdef PLATFORM_GT_32BIT ULongToPtr(a->rx_stream[Id] + a->rx_pos[Id]), #else (void*)(a->rx_stream[Id] + a->rx_pos[Id]), #endif (dword*)&tmp[0], 1); if (tmp[1] > max_length) { if (to_read < 0) return (-2); /* was not able to read */ break; } if (!(tmp[0] & DIVA_DFIFO_READY)) { if (to_read < 0) return (-1); /* was not able to read */ break; } to_read = min(max_length, (int)tmp[1]); if (to_read) { a->ram_in_buffer(a, #ifdef PLATFORM_GT_32BIT ULongToPtr(a->rx_stream[Id] + a->rx_pos[Id] + 4), #else (void*)(a->rx_stream[Id] + a->rx_pos[Id] + 4), #endif data_ptr, (word)to_read); max_length -= to_read; read += to_read; data_ptr += to_read; } if (tmp[0] & DIVA_DFIFO_LAST) { *final = 1; } tmp[0] &= DIVA_DFIFO_WRAP; a->ram_out_dw(a, #ifdef PLATFORM_GT_32BIT ULongToPtr(a->rx_stream[Id] + a->rx_pos[Id]), #else (void*)(a->rx_stream[Id] + a->rx_pos[Id]), #endif (dword*)&tmp[0], 1); if (tmp[0] & DIVA_DFIFO_WRAP) { a->rx_pos[Id] = 0; } else { a->rx_pos[Id] += DIVA_DFIFO_STEP; } if (*final) { if (usr1) *usr1 = tmp[2]; if (usr2) *usr2 = tmp[3]; break; } } return (read); } /* --------------------------------------------------------------------- Does check if one of streams had caused interrupt and does wake up corresponding application --------------------------------------------------------------------- */ void pr_stream (ADAPTER * a) { } #endif /* } */