/* -*- c++ -*- */ /* * Copyright 2007,2008 Free Software Foundation, Inc. * * 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 3 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the 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, see . */ #ifdef HAVE_CONFIG_H #include "config.h" #endif #include "app_passthru_v2.h" #include "buffer_pool.h" #include "memcpy_wa.h" #include "ethernet.h" #include "nonstdio.h" #include "print_rmon_regs.h" #include "db.h" #include "clocks.h" #include volatile bool link_is_up = false; // eth handler sets this // If this is non-zero, this dbsm could be writing to the ethernet dbsm_t *ac_could_be_sending_to_eth; //static unsigned char exp_seqno = 0; void set_reply_hdr(u2_eth_packet_t *reply_pkt, u2_eth_packet_t const *cmd_pkt) { reply_pkt->ehdr.dst = cmd_pkt->ehdr.src; reply_pkt->ehdr.ethertype = U2_ETHERTYPE; reply_pkt->thdr.flags = 0; reply_pkt->thdr.fifo_status = 0; // written by protocol engine reply_pkt->thdr.seqno = 0; // written by protocol engine reply_pkt->thdr.ack = 0; // written by protocol engine u2p_set_word0(&reply_pkt->fixed, 0, CONTROL_CHAN); reply_pkt->fixed.timestamp = timer_regs->time; } static void send_reply(unsigned char *reply, size_t reply_len) { if (reply_len < 64) reply_len = 64; // wait for buffer to become idle hal_set_leds(0x4, 0x4); while((buffer_pool_status->status & BPS_IDLE(CPU_TX_BUF)) == 0) ; hal_set_leds(0x0, 0x4); // copy reply into CPU_TX_BUF memcpy_wa(buffer_ram(CPU_TX_BUF), reply, reply_len); // wait until nobody else is sending to the ethernet if (ac_could_be_sending_to_eth){ hal_set_leds(0x8, 0x8); dbsm_wait_for_opening(ac_could_be_sending_to_eth); hal_set_leds(0x0, 0x8); } // fire it off bp_send_from_buf(CPU_TX_BUF, PORT_ETH, 1, 0, reply_len/4); // wait for it to complete (not long, it's a small pkt) while((buffer_pool_status->status & (BPS_DONE(CPU_TX_BUF) | BPS_ERROR(CPU_TX_BUF))) == 0) ; bp_clear_buf(CPU_TX_BUF); } static size_t op_id_cmd(const op_generic_t *p, void *reply_payload, size_t reply_payload_space) { op_id_reply_t *r = (op_id_reply_t *) reply_payload; if (reply_payload_space < sizeof(*r)) // no room return 0; // Build reply subpacket r->opcode = OP_ID_REPLY; r->len = sizeof(op_id_reply_t); r->rid = p->rid; r->addr = *ethernet_mac_addr(); r->hw_rev = 0x0000; // FIXME // r->fpga_md5sum = ; // FIXME // r->sw_md5sum = ; // FIXME // FIXME Add d'board info, including dbid, min/max gain, min/max freq return r->len; } static size_t add_eop(void *reply_payload, size_t reply_payload_space) { op_generic_t *r = (op_generic_t *) reply_payload; if (reply_payload_space < sizeof(*r)) return 0; // no room r->opcode = OP_EOP; r->len = sizeof(*r); r->rid = 0; r->ok = 0; return r->len; } bool handle_control_chan_frame(u2_eth_packet_t *pkt, size_t len) { unsigned char reply[sizeof(u2_eth_packet_t) + 4 * sizeof(u2_subpkt_t)] _AL4; unsigned char *reply_payload = &reply[sizeof(u2_eth_packet_t)]; int reply_payload_space = sizeof(reply) - sizeof(u2_eth_packet_t); bool handled_it = false; // initialize reply memset(reply, 0, sizeof(reply)); set_reply_hdr((u2_eth_packet_t *) reply, pkt); // point to beginning of payload (subpackets) unsigned char *payload = ((unsigned char *) pkt) + sizeof(u2_eth_packet_t); int payload_len = len - sizeof(u2_eth_packet_t); size_t subpktlen = 0; while (payload_len >= sizeof(op_generic_t)){ const op_generic_t *gp = (const op_generic_t *) payload; subpktlen = 0; switch(gp->opcode){ case OP_EOP: // end of subpackets goto end_of_subpackets; case OP_ID: subpktlen = op_id_cmd(gp, reply_payload, reply_payload_space); handled_it = true; break; default: if (0){ printf("\npassing on %d\n", gp->opcode); } break; } int t = (gp->len + 3) & ~3; // bump to a multiple of 4 payload += t; payload_len -= t; subpktlen = (subpktlen + 3) & ~3; // bump to a multiple of 4 reply_payload += subpktlen; reply_payload_space -= subpktlen; } end_of_subpackets: if (handled_it){ // add the EOP marker subpktlen = add_eop(reply_payload, reply_payload_space); subpktlen = (subpktlen + 3) & ~3; // bump to a multiple of 4 reply_payload += subpktlen; reply_payload_space -= subpktlen; send_reply(reply, reply_payload - reply); } return handled_it; } /* * Called when an ethernet packet is received. * Return true if we handled it here, otherwise * it'll be passed on to the DSP Tx pipe */ bool eth_pkt_inspector(dbsm_t *sm, int bufno) { u2_eth_packet_t *pkt = (u2_eth_packet_t *) buffer_ram(bufno); size_t byte_len = (buffer_pool_status->last_line[bufno] - 3) * 4; //static size_t last_len = 0; // hal_toggle_leds(0x1); // inspect rcvd frame and figure out what do do. if (pkt->ehdr.ethertype != U2_ETHERTYPE) return true; // ignore, probably bogus PAUSE frame from MAC int chan = u2p_chan(&pkt->fixed); switch (chan){ case CONTROL_CHAN: return handle_control_chan_frame(pkt, byte_len); break; case 0: default: #if 0 if (last_len != 0){ if (byte_len != last_len){ printf("Len: %d last: %d\n", byte_len, last_len); } } last_len = byte_len; if((pkt->thdr.seqno) == exp_seqno){ exp_seqno++; //putchar('.'); } else { // putchar('S'); //printf("S%d %d ",exp_seqno,pkt->thdr.seqno); exp_seqno = pkt->thdr.seqno + 1; } #endif return false; // pass it on to Tx DSP break; } } /* * Called when eth phy state changes (w/ interrupts disabled) */ void link_changed_callback(int speed) { link_is_up = speed != 0; hal_set_leds(link_is_up ? LED_RJ45 : 0x0, LED_RJ45); printf("\neth link changed: speed = %d\n", speed); }