/* * epsonds-net.c - SANE library for Epson scanners. * * Copyright (C) 2006-2016 Tower Technologies * Author: Alessandro Zummo * * This file is part of the SANE package. * * 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, version 2. */ #define DEBUG_DECLARE_ONLY #include "sane/config.h" #ifdef HAVE_SYS_SELECT_H #include #endif #include "sane/sane.h" #include "sane/saneopts.h" #include "sane/sanei_tcp.h" #include "sane/sanei_config.h" #include "sane/sanei_backend.h" #include "epsonds.h" #include "epsonds-net.h" #include "byteorder.h" #include "sane/sanei_debug.h" static int epsonds_net_read_raw(epsonds_scanner *s, unsigned char *buf, ssize_t wanted, SANE_Status *status) { int ready, read = -1; fd_set readable; struct timeval tv; tv.tv_sec = 10; tv.tv_usec = 0; FD_ZERO(&readable); FD_SET(s->fd, &readable); ready = select(s->fd + 1, &readable, NULL, NULL, &tv); if (ready > 0) { read = sanei_tcp_read(s->fd, buf, wanted); } else { DBG(15, "%s: select failed: %d\n", __func__, ready); } *status = SANE_STATUS_GOOD; if (read < wanted) { *status = SANE_STATUS_IO_ERROR; } return read; } int epsonds_net_read(epsonds_scanner *s, unsigned char *buf, ssize_t wanted, SANE_Status * status) { ssize_t size; ssize_t read = 0; unsigned char header[12]; /* read from buffer, if available */ if (wanted && s->netptr != s->netbuf) { DBG(23, "reading %lu from buffer at %p, %lu available\n", (u_long) wanted, s->netptr, (u_long) s->netlen); memcpy(buf, s->netptr, wanted); read = wanted; s->netlen -= wanted; if (s->netlen == 0) { DBG(23, "%s: freeing %p\n", __func__, s->netbuf); free(s->netbuf); s->netbuf = s->netptr = NULL; s->netlen = 0; } return read; } /* receive net header */ size = epsonds_net_read_raw(s, header, 12, status); if (size != 12) { return 0; } if (header[0] != 'I' || header[1] != 'S') { DBG(1, "header mismatch: %02X %02x\n", header[0], header[1]); *status = SANE_STATUS_IO_ERROR; return 0; } // incoming payload size size = be32atoh(&header[6]); DBG(23, "%s: wanted = %lu, available = %lu\n", __func__, (u_long) wanted, (u_long) size); *status = SANE_STATUS_GOOD; if (size == wanted) { DBG(15, "%s: full read\n", __func__); if (size) { read = epsonds_net_read_raw(s, buf, size, status); } if (s->netbuf) { free(s->netbuf); s->netbuf = NULL; s->netlen = 0; } if (read < 0) { return 0; } } else if (wanted < size) { DBG(23, "%s: long tail\n", __func__); read = epsonds_net_read_raw(s, s->netbuf, size, status); if (read != size) { return 0; } memcpy(buf, s->netbuf, wanted); read = wanted; free(s->netbuf); s->netbuf = NULL; s->netlen = 0; } else { DBG(23, "%s: partial read\n", __func__); read = epsonds_net_read_raw(s, s->netbuf, size, status); if (read != size) { return 0; } s->netlen = size - wanted; s->netptr += wanted; read = wanted; DBG(23, "0,4 %02x %02x\n", s->netbuf[0], s->netbuf[4]); DBG(23, "storing %lu to buffer at %p, next read at %p, %lu bytes left\n", (u_long) size, s->netbuf, s->netptr, (u_long) s->netlen); memcpy(buf, s->netbuf, wanted); } return read; } SANE_Status epsonds_net_request_read(epsonds_scanner *s, size_t len) { SANE_Status status; epsonds_net_write(s, 0x2000, NULL, 0, len, &status); return status; } int epsonds_net_write(epsonds_scanner *s, unsigned int cmd, const unsigned char *buf, size_t buf_size, size_t reply_len, SANE_Status *status) { unsigned char *h1, *h2; unsigned char *packet = malloc(12 + 8); /* XXX check allocation failure */ h1 = packet; // packet header h2 = packet + 12; // data header if (reply_len) { s->netbuf = s->netptr = malloc(reply_len); s->netlen = reply_len; DBG(24, "allocated %lu bytes at %p\n", (u_long) reply_len, s->netbuf); } DBG(24, "%s: cmd = %04x, buf = %p, buf_size = %lu, reply_len = %lu\n", __func__, cmd, buf, (u_long) buf_size, (u_long) reply_len); memset(h1, 0x00, 12); memset(h2, 0x00, 8); h1[0] = 'I'; h1[1] = 'S'; h1[2] = cmd >> 8; // packet type h1[3] = cmd; // data type h1[4] = 0x00; h1[5] = 0x0C; // data offset DBG(24, "H1[0]: %02x %02x %02x %02x\n", h1[0], h1[1], h1[2], h1[3]); // 0x20 passthru // 0x21 job control if (buf_size) { htobe32a(&h1[6], buf_size); } if((cmd >> 8) == 0x20) { htobe32a(&h1[6], buf_size + 8); // data size (data header + payload) htobe32a(&h2[0], buf_size); // payload size htobe32a(&h2[4], reply_len); // expected answer size DBG(24, "H1[6]: %02x %02x %02x %02x (%lu)\n", h1[6], h1[7], h1[8], h1[9], (u_long) (buf_size + 8)); DBG(24, "H2[0]: %02x %02x %02x %02x (%lu)\n", h2[0], h2[1], h2[2], h2[3], (u_long) buf_size); DBG(24, "H2[4]: %02x %02x %02x %02x (%lu)\n", h2[4], h2[5], h2[6], h2[7], (u_long) reply_len); } if ((cmd >> 8) == 0x20 && (buf_size || reply_len)) { // send header + data header sanei_tcp_write(s->fd, packet, 12 + 8); } else { sanei_tcp_write(s->fd, packet, 12); } // send payload if (buf_size) sanei_tcp_write(s->fd, buf, buf_size); free(packet); *status = SANE_STATUS_GOOD; return buf_size; } SANE_Status epsonds_net_lock(struct epsonds_scanner *s) { SANE_Status status; unsigned char buf[7] = "\x01\xa0\x04\x00\x00\x01\x2c"; DBG(1, "%s\n", __func__); epsonds_net_write(s, 0x2100, buf, 7, 0, &status); epsonds_net_read(s, buf, 1, &status); // buf[0] should be ACK, 0x06 return status; } SANE_Status epsonds_net_unlock(struct epsonds_scanner *s) { SANE_Status status; DBG(1, "%s\n", __func__); epsonds_net_write(s, 0x2101, NULL, 0, 0, &status); /* epsonds_net_read(s, buf, 1, &status); */ return status; }