/* MPS2 Peripheral Library * * Copyright (c) 2006-2015 ARM Limited * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions are met: * * 1. Redistributions of source code must retain the above copyright notice, * this list of conditions and the following disclaimer. * * 2. Redistributions in binary form must reproduce the above copyright notice, * this list of conditions and the following disclaimer in the documentation * and/or other materials provided with the distribution. * * 3. Neither the name of the copyright holder nor the names of its contributors * may be used to endorse or promote products derived from this software without * specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" * AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE * LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE * POSSIBILITY OF SUCH DAMAGE. */ /* * Code implementation file for the LAN Ethernet interface. */ #include #include "mbed_wait_api.h" #include "ETH_MPS2.h" // SMSC9220 low-level operations unsigned int smsc9220_mac_regread(unsigned char regoffset, unsigned int *data) { unsigned int val, maccmd; int timedout; int error; error = 0; val = SMSC9220->MAC_CSR_CMD; if(!(val & ((unsigned int)1 << 31))) { // Make sure there's no pending operation maccmd = 0; maccmd |= regoffset; maccmd |= ((unsigned int)1 << 30); // Indicates read maccmd |= ((unsigned int)1 << 31); // Start bit SMSC9220->MAC_CSR_CMD = maccmd; // Start operation timedout = 50; do { val = SMSC9220->BYTE_TEST; // A no-op read. wait_ms(1); timedout--; } while(timedout && (SMSC9220->MAC_CSR_CMD & ((unsigned int)1 << 31))); if(!timedout) { error = 1; } else *data = SMSC9220->MAC_CSR_DATA; } else { *data = 0; } return error; } unsigned int smsc9220_mac_regwrite(unsigned char regoffset, unsigned int data) { unsigned int read, maccmd; int timedout; int error; error = 0; read = SMSC9220->MAC_CSR_CMD; if(!(read & ((unsigned int)1 << 31))) { // Make sure there's no pending operation SMSC9220->MAC_CSR_DATA = data; // Store data. maccmd = 0; maccmd |= regoffset; maccmd &= ~((unsigned int)1 << 30); // Clear indicates write maccmd |= ((unsigned int)1 << 31); // Indicate start of operation SMSC9220->MAC_CSR_CMD = maccmd; timedout = 50; do { read = SMSC9220->BYTE_TEST; // A no-op read. wait_ms(1); timedout--; } while(timedout && (SMSC9220->MAC_CSR_CMD & ((unsigned int)1 << 31))); if(!timedout) { error = 1; } } else { printf("Warning: SMSC9220 MAC CSR is busy. No data written.\n"); } return error; } unsigned int smsc9220_phy_regread(unsigned char regoffset, unsigned short *data) { unsigned int val, phycmd; int error; int timedout; error = 0; smsc9220_mac_regread(SMSC9220_MAC_MII_ACC, &val); if(!(val & 1)) { // Not busy phycmd = 0; phycmd |= (1 << 11); // 1 to [15:11] phycmd |= ((regoffset & 0x1F) << 6); // Put regoffset to [10:6] phycmd &= ~(1 << 1); // Clear [1] indicates read. phycmd |= (1 << 0); // Set [0] indicates operation start smsc9220_mac_regwrite(SMSC9220_MAC_MII_ACC, phycmd); val = 0; timedout = 50; do { wait_ms(1); timedout--; smsc9220_mac_regread(SMSC9220_MAC_MII_ACC,&val); } while(timedout && (val & ((unsigned int)1 << 0))); if(!timedout) { error = 1; } else smsc9220_mac_regread(SMSC9220_MAC_MII_DATA, (unsigned int *)data); } else { *data = 0; } return error; } unsigned int smsc9220_phy_regwrite(unsigned char regoffset, unsigned short data) { unsigned int val, phycmd; int error; int timedout; error = 0; smsc9220_mac_regread(SMSC9220_MAC_MII_ACC, &val); if(!(val & 1)) { // Not busy smsc9220_mac_regwrite(SMSC9220_MAC_MII_DATA, (data & 0xFFFF)); // Load the data phycmd = 0; phycmd |= (1 << 11); // 1 to [15:11] phycmd |= ((regoffset & 0x1F) << 6); // Put regoffset to [10:6] phycmd |= (1 << 1); // Set [1] indicates write. phycmd |= (1 << 0); // Set [0] indicates operation start smsc9220_mac_regwrite(SMSC9220_MAC_MII_ACC, phycmd); // Start operation phycmd = 0; timedout = 50; do { wait_ms(1); timedout--; smsc9220_mac_regread(SMSC9220_MAC_MII_ACC, &phycmd); } while(timedout && (phycmd & (1 << 0))); if(!timedout) { error = 1; } } else { printf("Warning: SMSC9220 MAC MII is busy. No data written.\n"); } return error; } // Returns smsc9220 id. unsigned int smsc9220_read_id(void) { return SMSC9220->ID_REV; } // Initiates a soft reset, returns failure or success. unsigned int smsc9220_soft_reset(void) { int timedout; timedout = 10; // Soft reset SMSC9220->HW_CFG |= 1; do { wait_ms(1); timedout--; } while(timedout && (SMSC9220->HW_CFG & 1)); if(!timedout) return 1; return 0; } void smsc9220_set_txfifo(unsigned int val) { // 2kb minimum, 14kb maximum if(val < 2 || val > 14) return; SMSC9220->HW_CFG = val << 16; } unsigned int smsc9220_wait_eeprom(void) { int timedout; timedout = 50; do { wait_ms(1); timedout--; } while(timedout && (SMSC9220->E2P_CMD & ((unsigned int) 1 << 31))); if(!timedout) return 1; return 0; } /* initialise irqs */ void smsc9220_init_irqs(void) { SMSC9220->INT_EN = 0x0; SMSC9220->INT_STS = 0xFFFFFFFF; // clear all interrupts SMSC9220->IRQ_CFG = 0x22000100; // irq deassertion at 220 usecs and master IRQ enable. } unsigned int smsc9220_check_phy(void) { unsigned short phyid1, phyid2; smsc9220_phy_regread(SMSC9220_PHY_ID1,&phyid1); smsc9220_phy_regread(SMSC9220_PHY_ID2,&phyid2); return ((phyid1 == 0xFFFF && phyid2 == 0xFFFF) || (phyid1 == 0x0 && phyid2 == 0x0)); } unsigned int smsc9220_reset_phy(void) { unsigned short read; int error; error = 0; if(smsc9220_phy_regread(SMSC9220_PHY_BCONTROL, &read)) { error = 1; return error; } read |= (1 << 15); if(smsc9220_phy_regwrite(SMSC9220_PHY_BCONTROL, read)) { error = 1; return error; } return 0; } /* Advertise all speeds and pause capabilities */ void smsc9220_advertise_cap(void) { unsigned short aneg_adv; aneg_adv = 0; smsc9220_phy_regread(SMSC9220_PHY_ANEG_ADV, &aneg_adv); aneg_adv |= 0xDE0; smsc9220_phy_regwrite(SMSC9220_PHY_ANEG_ADV, aneg_adv); smsc9220_phy_regread(SMSC9220_PHY_ANEG_ADV, &aneg_adv); return; } void smsc9220_establish_link(void) { unsigned short bcr; smsc9220_phy_regread(SMSC9220_PHY_BCONTROL, &bcr); bcr |= (1 << 12) | (1 << 9); smsc9220_phy_regwrite(SMSC9220_PHY_BCONTROL, bcr); smsc9220_phy_regread(SMSC9220_PHY_BCONTROL, &bcr); { unsigned int hw_cfg; hw_cfg = 0; hw_cfg = SMSC9220->HW_CFG; hw_cfg &= 0xF0000; hw_cfg |= (1 << 20); SMSC9220->HW_CFG = hw_cfg; } return; } void smsc9220_enable_xmit(void) { SMSC9220->TX_CFG = 0x2; // Enable trasmission return; } void smsc9220_enable_mac_xmit(void) { unsigned int mac_cr; mac_cr = 0; smsc9220_mac_regread(SMSC9220_MAC_CR, &mac_cr); mac_cr |= (1 << 3); // xmit enable mac_cr |= (1 << 28); // Heartbeat disable smsc9220_mac_regwrite(SMSC9220_MAC_CR, mac_cr); return; } void smsc9220_enable_mac_recv(void) { unsigned int mac_cr; mac_cr = 0; smsc9220_mac_regread(SMSC9220_MAC_CR, &mac_cr); mac_cr |= (1 << 2); // Recv enable smsc9220_mac_regwrite(SMSC9220_MAC_CR, mac_cr); return; } unsigned int smsc9220_check_ready(void) { return !(SMSC9220->PMT_CTRL & 1); } /* Generate a soft irq */ void smsc9220_set_soft_int(void) { SMSC9220->INT_EN |= 0x80000000; } /* clear soft irq */ void smsc9220_clear_soft_int(void) { SMSC9220->INT_STS |= 0x80000000; } unsigned int smsc9220_recv_packet(unsigned int *recvbuf, unsigned int *index) { unsigned int rxfifo_inf; // Tells us the status of rx payload and status fifos. unsigned int rxfifo_stat; unsigned int pktsize; unsigned int dwords_to_read; rxfifo_inf = SMSC9220->RX_FIFO_INF; if(rxfifo_inf & 0xFFFF) { // If there's data rxfifo_stat = SMSC9220->RX_STAT_PORT; if(rxfifo_stat != 0) { // Fetch status of this packet pktsize = ((rxfifo_stat >> 16) & 0x3FFF); if(rxfifo_stat & (1 << 15)) { printf("Error occured during receiving of packets on the bus.\n"); return 1; } else { /* Below formula (recommended by SMSC9220 code) * gives 1 more than required. This is perhaps because * a last word is needed for not word aligned packets. */ dwords_to_read = (pktsize + 3) >> 2; // PIO copy of data received: while(dwords_to_read > 0) { recvbuf[*index] = SMSC9220->RX_DATA_PORT; (*index)++; dwords_to_read--; } } } else { return 1; } } else { return 1; } rxfifo_stat = SMSC9220->RX_STAT_PORT; rxfifo_inf = SMSC9220->RX_FIFO_INF; return 0; } // Does the actual transfer of data to FIFO, note it does no // fifo availability checking. This should be done by caller. // Assumes the whole frame is transferred at once as a single segment void smsc9220_xmit_packet(unsigned char * pkt, unsigned int length) { unsigned int txcmd_a, txcmd_b; unsigned int dwords_to_write; volatile unsigned int dwritten; unsigned int *pktptr; volatile unsigned int xmit_stat, xmit_stat2, xmit_inf; int i; pktptr = (unsigned int *) pkt; txcmd_a = 0; txcmd_b = 0; txcmd_a |= (1 << 12) | (1 << 13); // First and last segments txcmd_a |= length & 0x7FF; // [10:0] contains length txcmd_b |= ((length & 0xFFFF) << 16); // [31:16] contains length txcmd_b |= length & 0x7FF; // [10:0] also contains length SMSC9220->TX_DATA_PORT = txcmd_a; SMSC9220->TX_DATA_PORT = txcmd_b; dwritten = dwords_to_write = (length + 3) >> 2; // PIO Copy to FIFO. Could replace this with DMA. while(dwords_to_write > 0) { SMSC9220->TX_DATA_PORT = *pktptr; pktptr++; dwords_to_write--; } xmit_stat = SMSC9220->TX_STAT_PORT; xmit_stat2 = SMSC9220->TX_STAT_PORT; xmit_inf = SMSC9220->TX_FIFO_INF; if(xmit_stat2 != 0 ) { for(i = 0; i < 6; i++) { xmit_stat2 = SMSC9220->TX_STAT_PORT; } } }