mbed-src - mbed library sources

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mbed library sources

Fork of mbed-src by mbed official

targets/hal/TARGET_NXP/TARGET_LPC408X/ethernet_api.c@250:a49055e7a707, 2014-07-08 (annotated)

Committer:: mbed_official
Date:: Tue Jul 08 11:15:08 2014 +0100
Revision:: 250:a49055e7a707
Parent:: 29:6ac4027eff2b
Child:: 251:de9a1e4ffd79

Synchronized with git revision 3197042b65f8d28e856e1a7812d45e2fbe80e3f1

Full URL: https://github.com/mbedmicro/mbed/commit/3197042b65f8d28e856e1a7812d45e2fbe80e3f1/

error.h -> mbed_error.h

Who changed what in which revision?

User	Revision	Line number	New contents of line
bogdanm	15:4892fe388435	1	/* mbed Microcontroller Library
bogdanm	15:4892fe388435	2	* Copyright (c) 2006-2013 ARM Limited
bogdanm	15:4892fe388435	3	*
bogdanm	15:4892fe388435	4	* Licensed under the Apache License, Version 2.0 (the "License");
bogdanm	15:4892fe388435	5	* you may not use this file except in compliance with the License.
bogdanm	15:4892fe388435	6	* You may obtain a copy of the License at
bogdanm	15:4892fe388435	7	*
bogdanm	15:4892fe388435	8	* http://www.apache.org/licenses/LICENSE-2.0
bogdanm	15:4892fe388435	9	*
bogdanm	15:4892fe388435	10	* Unless required by applicable law or agreed to in writing, software
bogdanm	15:4892fe388435	11	* distributed under the License is distributed on an "AS IS" BASIS,
bogdanm	15:4892fe388435	12	* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
bogdanm	15:4892fe388435	13	* See the License for the specific language governing permissions and
bogdanm	15:4892fe388435	14	* limitations under the License.
bogdanm	15:4892fe388435	15	*/
bogdanm	15:4892fe388435	16	#include <string.h>
bogdanm	15:4892fe388435	17
bogdanm	15:4892fe388435	18	#include "ethernet_api.h"
bogdanm	15:4892fe388435	19	#include "cmsis.h"
bogdanm	15:4892fe388435	20	#include "mbed_interface.h"
bogdanm	15:4892fe388435	21	#include "toolchain.h"
mbed_official	250:a49055e7a707	22	#include "mbed_error.h"
bogdanm	15:4892fe388435	23
bogdanm	15:4892fe388435	24	#define NEW_LOGIC 0
bogdanm	15:4892fe388435	25	#define NEW_ETH_BUFFER 0
bogdanm	15:4892fe388435	26
bogdanm	15:4892fe388435	27	#if NEW_ETH_BUFFER
bogdanm	15:4892fe388435	28
bogdanm	15:4892fe388435	29	#define NUM_RX_FRAG 4 // Number of Rx Fragments (== packets)
bogdanm	15:4892fe388435	30	#define NUM_TX_FRAG 3 // Number of Tx Fragments (== packets)
bogdanm	15:4892fe388435	31
bogdanm	15:4892fe388435	32	#define ETH_MAX_FLEN 1536 // Maximum Ethernet Frame Size
bogdanm	15:4892fe388435	33	#define ETH_FRAG_SIZE ETH_MAX_FLEN // Packet Fragment size (same as packet length)
bogdanm	15:4892fe388435	34
bogdanm	15:4892fe388435	35	#else
bogdanm	15:4892fe388435	36
bogdanm	15:4892fe388435	37	// Memfree calculation:
bogdanm	15:4892fe388435	38	// (16 * 1024) - ((2 * 4 * NUM_RX) + (2 * 4 * NUM_RX) + (0x300 * NUM_RX) +
bogdanm	15:4892fe388435	39	// (2 * 4 * NUM_TX) + (1 * 4 * NUM_TX) + (0x300 * NUM_TX)) = 8556
bogdanm	15:4892fe388435	40	/* EMAC Memory Buffer configuration for 16K Ethernet RAM. */
bogdanm	15:4892fe388435	41	#define NUM_RX_FRAG 4 /* Num.of RX Fragments 41536= 6.0kB /
bogdanm	15:4892fe388435	42	#define NUM_TX_FRAG 3 /* Num.of TX Fragments 31536= 4.6kB /
bogdanm	15:4892fe388435	43	//#define ETH_FRAG_SIZE 1536 /* Packet Fragment size 1536 Bytes */
bogdanm	15:4892fe388435	44
bogdanm	15:4892fe388435	45	//#define ETH_MAX_FLEN 1536 /* Max. Ethernet Frame Size */
bogdanm	15:4892fe388435	46	#define ETH_FRAG_SIZE 0x300 /* Packet Fragment size 1536/2 Bytes */
bogdanm	15:4892fe388435	47	#define ETH_MAX_FLEN 0x300 /* Max. Ethernet Frame Size */
bogdanm	15:4892fe388435	48
bogdanm	15:4892fe388435	49	const int ethernet_MTU_SIZE = 0x300;
bogdanm	15:4892fe388435	50
bogdanm	15:4892fe388435	51	#endif
bogdanm	15:4892fe388435	52
bogdanm	15:4892fe388435	53	#define ETHERNET_ADDR_SIZE 6
bogdanm	15:4892fe388435	54
bogdanm	15:4892fe388435	55	PACKED struct RX_DESC_TypeDef { /* RX Descriptor struct */
bogdanm	15:4892fe388435	56	unsigned int Packet;
bogdanm	15:4892fe388435	57	unsigned int Ctrl;
bogdanm	15:4892fe388435	58	};
bogdanm	15:4892fe388435	59	typedef struct RX_DESC_TypeDef RX_DESC_TypeDef;
bogdanm	15:4892fe388435	60
bogdanm	15:4892fe388435	61	PACKED struct RX_STAT_TypeDef { /* RX Status struct */
bogdanm	15:4892fe388435	62	unsigned int Info;
bogdanm	15:4892fe388435	63	unsigned int HashCRC;
bogdanm	15:4892fe388435	64	};
bogdanm	15:4892fe388435	65	typedef struct RX_STAT_TypeDef RX_STAT_TypeDef;
bogdanm	15:4892fe388435	66
bogdanm	15:4892fe388435	67	PACKED struct TX_DESC_TypeDef { /* TX Descriptor struct */
bogdanm	15:4892fe388435	68	unsigned int Packet;
bogdanm	15:4892fe388435	69	unsigned int Ctrl;
bogdanm	15:4892fe388435	70	};
bogdanm	15:4892fe388435	71	typedef struct TX_DESC_TypeDef TX_DESC_TypeDef;
bogdanm	15:4892fe388435	72
bogdanm	15:4892fe388435	73	PACKED struct TX_STAT_TypeDef { /* TX Status struct */
bogdanm	15:4892fe388435	74	unsigned int Info;
bogdanm	15:4892fe388435	75	};
bogdanm	15:4892fe388435	76	typedef struct TX_STAT_TypeDef TX_STAT_TypeDef;
bogdanm	15:4892fe388435	77
bogdanm	15:4892fe388435	78	/* MAC Configuration Register 1 */
bogdanm	15:4892fe388435	79	#define MAC1_REC_EN 0x00000001 /* Receive Enable */
bogdanm	15:4892fe388435	80	#define MAC1_PASS_ALL 0x00000002 /* Pass All Receive Frames */
bogdanm	15:4892fe388435	81	#define MAC1_RX_FLOWC 0x00000004 /* RX Flow Control */
bogdanm	15:4892fe388435	82	#define MAC1_TX_FLOWC 0x00000008 /* TX Flow Control */
bogdanm	15:4892fe388435	83	#define MAC1_LOOPB 0x00000010 /* Loop Back Mode */
bogdanm	15:4892fe388435	84	#define MAC1_RES_TX 0x00000100 /* Reset TX Logic */
bogdanm	15:4892fe388435	85	#define MAC1_RES_MCS_TX 0x00000200 /* Reset MAC TX Control Sublayer */
bogdanm	15:4892fe388435	86	#define MAC1_RES_RX 0x00000400 /* Reset RX Logic */
bogdanm	15:4892fe388435	87	#define MAC1_RES_MCS_RX 0x00000800 /* Reset MAC RX Control Sublayer */
bogdanm	15:4892fe388435	88	#define MAC1_SIM_RES 0x00004000 /* Simulation Reset */
bogdanm	15:4892fe388435	89	#define MAC1_SOFT_RES 0x00008000 /* Soft Reset MAC */
bogdanm	15:4892fe388435	90
bogdanm	15:4892fe388435	91	/* MAC Configuration Register 2 */
bogdanm	15:4892fe388435	92	#define MAC2_FULL_DUP 0x00000001 /* Full Duplex Mode */
bogdanm	15:4892fe388435	93	#define MAC2_FRM_LEN_CHK 0x00000002 /* Frame Length Checking */
bogdanm	15:4892fe388435	94	#define MAC2_HUGE_FRM_EN 0x00000004 /* Huge Frame Enable */
bogdanm	15:4892fe388435	95	#define MAC2_DLY_CRC 0x00000008 /* Delayed CRC Mode */
bogdanm	15:4892fe388435	96	#define MAC2_CRC_EN 0x00000010 /* Append CRC to every Frame */
bogdanm	15:4892fe388435	97	#define MAC2_PAD_EN 0x00000020 /* Pad all Short Frames */
bogdanm	15:4892fe388435	98	#define MAC2_VLAN_PAD_EN 0x00000040 /* VLAN Pad Enable */
bogdanm	15:4892fe388435	99	#define MAC2_ADET_PAD_EN 0x00000080 /* Auto Detect Pad Enable */
bogdanm	15:4892fe388435	100	#define MAC2_PPREAM_ENF 0x00000100 /* Pure Preamble Enforcement */
bogdanm	15:4892fe388435	101	#define MAC2_LPREAM_ENF 0x00000200 /* Long Preamble Enforcement */
bogdanm	15:4892fe388435	102	#define MAC2_NO_BACKOFF 0x00001000 /* No Backoff Algorithm */
bogdanm	15:4892fe388435	103	#define MAC2_BACK_PRESSURE 0x00002000 /* Backoff Presurre / No Backoff */
bogdanm	15:4892fe388435	104	#define MAC2_EXCESS_DEF 0x00004000 /* Excess Defer */
bogdanm	15:4892fe388435	105
bogdanm	15:4892fe388435	106	/* Back-to-Back Inter-Packet-Gap Register */
bogdanm	15:4892fe388435	107	#define IPGT_FULL_DUP 0x00000015 /* Recommended value for Full Duplex */
bogdanm	15:4892fe388435	108	#define IPGT_HALF_DUP 0x00000012 /* Recommended value for Half Duplex */
bogdanm	15:4892fe388435	109
bogdanm	15:4892fe388435	110	/* Non Back-to-Back Inter-Packet-Gap Register */
bogdanm	15:4892fe388435	111	#define IPGR_DEF 0x00000012 /* Recommended value */
bogdanm	15:4892fe388435	112
bogdanm	15:4892fe388435	113	/* Collision Window/Retry Register */
bogdanm	15:4892fe388435	114	#define CLRT_DEF 0x0000370F /* Default value */
bogdanm	15:4892fe388435	115
bogdanm	15:4892fe388435	116	/* PHY Support Register */
bogdanm	15:4892fe388435	117	#define SUPP_SPEED 0x00000100 /* Reduced MII Logic Current Speed */
bogdanm	15:4892fe388435	118	//#define SUPP_RES_RMII 0x00000800 /* Reset Reduced MII Logic */
bogdanm	15:4892fe388435	119	#define SUPP_RES_RMII 0x00000000 /* Reset Reduced MII Logic */
bogdanm	15:4892fe388435	120
bogdanm	15:4892fe388435	121	/* Test Register */
bogdanm	15:4892fe388435	122	#define TEST_SHCUT_PQUANTA 0x00000001 /* Shortcut Pause Quanta */
bogdanm	15:4892fe388435	123	#define TEST_TST_PAUSE 0x00000002 /* Test Pause */
bogdanm	15:4892fe388435	124	#define TEST_TST_BACKP 0x00000004 /* Test Back Pressure */
bogdanm	15:4892fe388435	125
bogdanm	15:4892fe388435	126	/* MII Management Configuration Register */
bogdanm	15:4892fe388435	127	#define MCFG_SCAN_INC 0x00000001 /* Scan Increment PHY Address */
bogdanm	15:4892fe388435	128	#define MCFG_SUPP_PREAM 0x00000002 /* Suppress Preamble */
bogdanm	15:4892fe388435	129	#define MCFG_CLK_SEL 0x0000003C /* Clock Select Mask */
bogdanm	15:4892fe388435	130	#define MCFG_RES_MII 0x00008000 /* Reset MII Management Hardware */
bogdanm	15:4892fe388435	131
bogdanm	15:4892fe388435	132	/* MII Management Command Register */
bogdanm	15:4892fe388435	133	#define MCMD_READ 0x00000001 /* MII Read */
bogdanm	15:4892fe388435	134	#define MCMD_SCAN 0x00000002 /* MII Scan continuously */
bogdanm	15:4892fe388435	135
bogdanm	15:4892fe388435	136	#define MII_WR_TOUT 0x00050000 /* MII Write timeout count */
bogdanm	15:4892fe388435	137	#define MII_RD_TOUT 0x00050000 /* MII Read timeout count */
bogdanm	15:4892fe388435	138
bogdanm	15:4892fe388435	139	/* MII Management Address Register */
bogdanm	15:4892fe388435	140	#define MADR_REG_ADR 0x0000001F /* MII Register Address Mask */
bogdanm	15:4892fe388435	141	#define MADR_PHY_ADR 0x00001F00 /* PHY Address Mask */
bogdanm	15:4892fe388435	142
bogdanm	15:4892fe388435	143	/* MII Management Indicators Register */
bogdanm	15:4892fe388435	144	#define MIND_BUSY 0x00000001 /* MII is Busy */
bogdanm	15:4892fe388435	145	#define MIND_SCAN 0x00000002 /* MII Scanning in Progress */
bogdanm	15:4892fe388435	146	#define MIND_NOT_VAL 0x00000004 /* MII Read Data not valid */
bogdanm	15:4892fe388435	147	#define MIND_MII_LINK_FAIL 0x00000008 /* MII Link Failed */
bogdanm	15:4892fe388435	148
bogdanm	15:4892fe388435	149	/* Command Register */
bogdanm	15:4892fe388435	150	#define CR_RX_EN 0x00000001 /* Enable Receive */
bogdanm	15:4892fe388435	151	#define CR_TX_EN 0x00000002 /* Enable Transmit */
bogdanm	15:4892fe388435	152	#define CR_REG_RES 0x00000008 /* Reset Host Registers */
bogdanm	15:4892fe388435	153	#define CR_TX_RES 0x00000010 /* Reset Transmit Datapath */
bogdanm	15:4892fe388435	154	#define CR_RX_RES 0x00000020 /* Reset Receive Datapath */
bogdanm	15:4892fe388435	155	#define CR_PASS_RUNT_FRM 0x00000040 /* Pass Runt Frames */
bogdanm	15:4892fe388435	156	#define CR_PASS_RX_FILT 0x00000080 /* Pass RX Filter */
bogdanm	15:4892fe388435	157	#define CR_TX_FLOW_CTRL 0x00000100 /* TX Flow Control */
bogdanm	15:4892fe388435	158	#define CR_RMII 0x00000200 /* Reduced MII Interface */
bogdanm	15:4892fe388435	159	#define CR_FULL_DUP 0x00000400 /* Full Duplex */
bogdanm	15:4892fe388435	160
bogdanm	15:4892fe388435	161	/* Status Register */
bogdanm	15:4892fe388435	162	#define SR_RX_EN 0x00000001 /* Enable Receive */
bogdanm	15:4892fe388435	163	#define SR_TX_EN 0x00000002 /* Enable Transmit */
bogdanm	15:4892fe388435	164
bogdanm	15:4892fe388435	165	/* Transmit Status Vector 0 Register */
bogdanm	15:4892fe388435	166	#define TSV0_CRC_ERR 0x00000001 /* CRC error */
bogdanm	15:4892fe388435	167	#define TSV0_LEN_CHKERR 0x00000002 /* Length Check Error */
bogdanm	15:4892fe388435	168	#define TSV0_LEN_OUTRNG 0x00000004 /* Length Out of Range */
bogdanm	15:4892fe388435	169	#define TSV0_DONE 0x00000008 /* Tramsmission Completed */
bogdanm	15:4892fe388435	170	#define TSV0_MCAST 0x00000010 /* Multicast Destination */
bogdanm	15:4892fe388435	171	#define TSV0_BCAST 0x00000020 /* Broadcast Destination */
bogdanm	15:4892fe388435	172	#define TSV0_PKT_DEFER 0x00000040 /* Packet Deferred */
bogdanm	15:4892fe388435	173	#define TSV0_EXC_DEFER 0x00000080 /* Excessive Packet Deferral */
bogdanm	15:4892fe388435	174	#define TSV0_EXC_COLL 0x00000100 /* Excessive Collision */
bogdanm	15:4892fe388435	175	#define TSV0_LATE_COLL 0x00000200 /* Late Collision Occured */
bogdanm	15:4892fe388435	176	#define TSV0_GIANT 0x00000400 /* Giant Frame */
bogdanm	15:4892fe388435	177	#define TSV0_UNDERRUN 0x00000800 /* Buffer Underrun */
bogdanm	15:4892fe388435	178	#define TSV0_BYTES 0x0FFFF000 /* Total Bytes Transferred */
bogdanm	15:4892fe388435	179	#define TSV0_CTRL_FRAME 0x10000000 /* Control Frame */
bogdanm	15:4892fe388435	180	#define TSV0_PAUSE 0x20000000 /* Pause Frame */
bogdanm	15:4892fe388435	181	#define TSV0_BACK_PRESS 0x40000000 /* Backpressure Method Applied */
bogdanm	15:4892fe388435	182	#define TSV0_VLAN 0x80000000 /* VLAN Frame */
bogdanm	15:4892fe388435	183
bogdanm	15:4892fe388435	184	/* Transmit Status Vector 1 Register */
bogdanm	15:4892fe388435	185	#define TSV1_BYTE_CNT 0x0000FFFF /* Transmit Byte Count */
bogdanm	15:4892fe388435	186	#define TSV1_COLL_CNT 0x000F0000 /* Transmit Collision Count */
bogdanm	15:4892fe388435	187
bogdanm	15:4892fe388435	188	/* Receive Status Vector Register */
bogdanm	15:4892fe388435	189	#define RSV_BYTE_CNT 0x0000FFFF /* Receive Byte Count */
bogdanm	15:4892fe388435	190	#define RSV_PKT_IGNORED 0x00010000 /* Packet Previously Ignored */
bogdanm	15:4892fe388435	191	#define RSV_RXDV_SEEN 0x00020000 /* RXDV Event Previously Seen */
bogdanm	15:4892fe388435	192	#define RSV_CARR_SEEN 0x00040000 /* Carrier Event Previously Seen */
bogdanm	15:4892fe388435	193	#define RSV_REC_CODEV 0x00080000 /* Receive Code Violation */
bogdanm	15:4892fe388435	194	#define RSV_CRC_ERR 0x00100000 /* CRC Error */
bogdanm	15:4892fe388435	195	#define RSV_LEN_CHKERR 0x00200000 /* Length Check Error */
bogdanm	15:4892fe388435	196	#define RSV_LEN_OUTRNG 0x00400000 /* Length Out of Range */
bogdanm	15:4892fe388435	197	#define RSV_REC_OK 0x00800000 /* Frame Received OK */
bogdanm	15:4892fe388435	198	#define RSV_MCAST 0x01000000 /* Multicast Frame */
bogdanm	15:4892fe388435	199	#define RSV_BCAST 0x02000000 /* Broadcast Frame */
bogdanm	15:4892fe388435	200	#define RSV_DRIB_NIBB 0x04000000 /* Dribble Nibble */
bogdanm	15:4892fe388435	201	#define RSV_CTRL_FRAME 0x08000000 /* Control Frame */
bogdanm	15:4892fe388435	202	#define RSV_PAUSE 0x10000000 /* Pause Frame */
bogdanm	15:4892fe388435	203	#define RSV_UNSUPP_OPC 0x20000000 /* Unsupported Opcode */
bogdanm	15:4892fe388435	204	#define RSV_VLAN 0x40000000 /* VLAN Frame */
bogdanm	15:4892fe388435	205
bogdanm	15:4892fe388435	206	/* Flow Control Counter Register */
bogdanm	15:4892fe388435	207	#define FCC_MIRR_CNT 0x0000FFFF /* Mirror Counter */
bogdanm	15:4892fe388435	208	#define FCC_PAUSE_TIM 0xFFFF0000 /* Pause Timer */
bogdanm	15:4892fe388435	209
bogdanm	15:4892fe388435	210	/* Flow Control Status Register */
bogdanm	15:4892fe388435	211	#define FCS_MIRR_CNT 0x0000FFFF /* Mirror Counter Current */
bogdanm	15:4892fe388435	212
bogdanm	15:4892fe388435	213	/* Receive Filter Control Register */
bogdanm	15:4892fe388435	214	#define RFC_UCAST_EN 0x00000001 /* Accept Unicast Frames Enable */
bogdanm	15:4892fe388435	215	#define RFC_BCAST_EN 0x00000002 /* Accept Broadcast Frames Enable */
bogdanm	15:4892fe388435	216	#define RFC_MCAST_EN 0x00000004 /* Accept Multicast Frames Enable */
bogdanm	15:4892fe388435	217	#define RFC_UCAST_HASH_EN 0x00000008 /* Accept Unicast Hash Filter Frames */
bogdanm	15:4892fe388435	218	#define RFC_MCAST_HASH_EN 0x00000010 /* Accept Multicast Hash Filter Fram.*/
bogdanm	15:4892fe388435	219	#define RFC_PERFECT_EN 0x00000020 /* Accept Perfect Match Enable */
bogdanm	15:4892fe388435	220	#define RFC_MAGP_WOL_EN 0x00001000 /* Magic Packet Filter WoL Enable */
bogdanm	15:4892fe388435	221	#define RFC_PFILT_WOL_EN 0x00002000 /* Perfect Filter WoL Enable */
bogdanm	15:4892fe388435	222
bogdanm	15:4892fe388435	223	/* Receive Filter WoL Status/Clear Registers */
bogdanm	15:4892fe388435	224	#define WOL_UCAST 0x00000001 /* Unicast Frame caused WoL */
bogdanm	15:4892fe388435	225	#define WOL_BCAST 0x00000002 /* Broadcast Frame caused WoL */
bogdanm	15:4892fe388435	226	#define WOL_MCAST 0x00000004 /* Multicast Frame caused WoL */
bogdanm	15:4892fe388435	227	#define WOL_UCAST_HASH 0x00000008 /* Unicast Hash Filter Frame WoL */
bogdanm	15:4892fe388435	228	#define WOL_MCAST_HASH 0x00000010 /* Multicast Hash Filter Frame WoL */
bogdanm	15:4892fe388435	229	#define WOL_PERFECT 0x00000020 /* Perfect Filter WoL */
bogdanm	15:4892fe388435	230	#define WOL_RX_FILTER 0x00000080 /* RX Filter caused WoL */
bogdanm	15:4892fe388435	231	#define WOL_MAG_PACKET 0x00000100 /* Magic Packet Filter caused WoL */
bogdanm	15:4892fe388435	232
bogdanm	15:4892fe388435	233	/* Interrupt Status/Enable/Clear/Set Registers */
bogdanm	15:4892fe388435	234	#define INT_RX_OVERRUN 0x00000001 /* Overrun Error in RX Queue */
bogdanm	15:4892fe388435	235	#define INT_RX_ERR 0x00000002 /* Receive Error */
bogdanm	15:4892fe388435	236	#define INT_RX_FIN 0x00000004 /* RX Finished Process Descriptors */
bogdanm	15:4892fe388435	237	#define INT_RX_DONE 0x00000008 /* Receive Done */
bogdanm	15:4892fe388435	238	#define INT_TX_UNDERRUN 0x00000010 /* Transmit Underrun */
bogdanm	15:4892fe388435	239	#define INT_TX_ERR 0x00000020 /* Transmit Error */
bogdanm	15:4892fe388435	240	#define INT_TX_FIN 0x00000040 /* TX Finished Process Descriptors */
bogdanm	15:4892fe388435	241	#define INT_TX_DONE 0x00000080 /* Transmit Done */
bogdanm	15:4892fe388435	242	#define INT_SOFT_INT 0x00001000 /* Software Triggered Interrupt */
bogdanm	15:4892fe388435	243	#define INT_WAKEUP 0x00002000 /* Wakeup Event Interrupt */
bogdanm	15:4892fe388435	244
bogdanm	15:4892fe388435	245	/* Power Down Register */
bogdanm	15:4892fe388435	246	#define PD_POWER_DOWN 0x80000000 /* Power Down MAC */
bogdanm	15:4892fe388435	247
bogdanm	15:4892fe388435	248	/* RX Descriptor Control Word */
bogdanm	15:4892fe388435	249	#define RCTRL_SIZE 0x000007FF /* Buffer size mask */
bogdanm	15:4892fe388435	250	#define RCTRL_INT 0x80000000 /* Generate RxDone Interrupt */
bogdanm	15:4892fe388435	251
bogdanm	15:4892fe388435	252	/* RX Status Hash CRC Word */
bogdanm	15:4892fe388435	253	#define RHASH_SA 0x000001FF /* Hash CRC for Source Address */
bogdanm	15:4892fe388435	254	#define RHASH_DA 0x001FF000 /* Hash CRC for Destination Address */
bogdanm	15:4892fe388435	255
bogdanm	15:4892fe388435	256	/* RX Status Information Word */
bogdanm	15:4892fe388435	257	#define RINFO_SIZE 0x000007FF /* Data size in bytes */
bogdanm	15:4892fe388435	258	#define RINFO_CTRL_FRAME 0x00040000 /* Control Frame */
bogdanm	15:4892fe388435	259	#define RINFO_VLAN 0x00080000 /* VLAN Frame */
bogdanm	15:4892fe388435	260	#define RINFO_FAIL_FILT 0x00100000 /* RX Filter Failed */
bogdanm	15:4892fe388435	261	#define RINFO_MCAST 0x00200000 /* Multicast Frame */
bogdanm	15:4892fe388435	262	#define RINFO_BCAST 0x00400000 /* Broadcast Frame */
bogdanm	15:4892fe388435	263	#define RINFO_CRC_ERR 0x00800000 /* CRC Error in Frame */
bogdanm	15:4892fe388435	264	#define RINFO_SYM_ERR 0x01000000 /* Symbol Error from PHY */
bogdanm	15:4892fe388435	265	#define RINFO_LEN_ERR 0x02000000 /* Length Error */
bogdanm	15:4892fe388435	266	#define RINFO_RANGE_ERR 0x04000000 /* Range Error (exceeded max. size) */
bogdanm	15:4892fe388435	267	#define RINFO_ALIGN_ERR 0x08000000 /* Alignment Error */
bogdanm	15:4892fe388435	268	#define RINFO_OVERRUN 0x10000000 /* Receive overrun */
bogdanm	15:4892fe388435	269	#define RINFO_NO_DESCR 0x20000000 /* No new Descriptor available */
bogdanm	15:4892fe388435	270	#define RINFO_LAST_FLAG 0x40000000 /* Last Fragment in Frame */
bogdanm	15:4892fe388435	271	#define RINFO_ERR 0x80000000 /* Error Occured (OR of all errors) */
bogdanm	15:4892fe388435	272
bogdanm	15:4892fe388435	273	//#define RINFO_ERR_MASK (RINFO_FAIL_FILT \| RINFO_CRC_ERR \| RINFO_SYM_ERR \| RINFO_LEN_ERR \| RINFO_ALIGN_ERR \| RINFO_OVERRUN)
bogdanm	15:4892fe388435	274	#define RINFO_ERR_MASK (RINFO_FAIL_FILT \| RINFO_SYM_ERR \| \
bogdanm	15:4892fe388435	275	RINFO_LEN_ERR \| RINFO_ALIGN_ERR \| RINFO_OVERRUN)
bogdanm	15:4892fe388435	276
bogdanm	15:4892fe388435	277
bogdanm	15:4892fe388435	278	/* TX Descriptor Control Word */
bogdanm	15:4892fe388435	279	#define TCTRL_SIZE 0x000007FF /* Size of data buffer in bytes */
bogdanm	15:4892fe388435	280	#define TCTRL_OVERRIDE 0x04000000 /* Override Default MAC Registers */
bogdanm	15:4892fe388435	281	#define TCTRL_HUGE 0x08000000 /* Enable Huge Frame */
bogdanm	15:4892fe388435	282	#define TCTRL_PAD 0x10000000 /* Pad short Frames to 64 bytes */
bogdanm	15:4892fe388435	283	#define TCTRL_CRC 0x20000000 /* Append a hardware CRC to Frame */
bogdanm	15:4892fe388435	284	#define TCTRL_LAST 0x40000000 /* Last Descriptor for TX Frame */
bogdanm	15:4892fe388435	285	#define TCTRL_INT 0x80000000 /* Generate TxDone Interrupt */
bogdanm	15:4892fe388435	286
bogdanm	15:4892fe388435	287	/* TX Status Information Word */
bogdanm	15:4892fe388435	288	#define TINFO_COL_CNT 0x01E00000 /* Collision Count */
bogdanm	15:4892fe388435	289	#define TINFO_DEFER 0x02000000 /* Packet Deferred (not an error) */
bogdanm	15:4892fe388435	290	#define TINFO_EXCESS_DEF 0x04000000 /* Excessive Deferral */
bogdanm	15:4892fe388435	291	#define TINFO_EXCESS_COL 0x08000000 /* Excessive Collision */
bogdanm	15:4892fe388435	292	#define TINFO_LATE_COL 0x10000000 /* Late Collision Occured */
bogdanm	15:4892fe388435	293	#define TINFO_UNDERRUN 0x20000000 /* Transmit Underrun */
bogdanm	15:4892fe388435	294	#define TINFO_NO_DESCR 0x40000000 /* No new Descriptor available */
bogdanm	15:4892fe388435	295	#define TINFO_ERR 0x80000000 /* Error Occured (OR of all errors) */
bogdanm	15:4892fe388435	296
bogdanm	15:4892fe388435	297	/* ENET Device Revision ID */
bogdanm	15:4892fe388435	298	#define OLD_EMAC_MODULE_ID 0x39022000 /* Rev. ID for first rev '-' */
bogdanm	15:4892fe388435	299
bogdanm	15:4892fe388435	300	/* DP83848C PHY Registers */
bogdanm	15:4892fe388435	301	#define PHY_REG_BMCR 0x00 /* Basic Mode Control Register */
bogdanm	15:4892fe388435	302	#define PHY_REG_BMSR 0x01 /* Basic Mode Status Register */
bogdanm	15:4892fe388435	303	#define PHY_REG_IDR1 0x02 /* PHY Identifier 1 */
bogdanm	15:4892fe388435	304	#define PHY_REG_IDR2 0x03 /* PHY Identifier 2 */
bogdanm	15:4892fe388435	305	#define PHY_REG_ANAR 0x04 /* Auto-Negotiation Advertisement */
bogdanm	15:4892fe388435	306	#define PHY_REG_ANLPAR 0x05 /* Auto-Neg. Link Partner Abitily */
bogdanm	15:4892fe388435	307	#define PHY_REG_ANER 0x06 /* Auto-Neg. Expansion Register */
bogdanm	15:4892fe388435	308	#define PHY_REG_ANNPTR 0x07 /* Auto-Neg. Next Page TX */
bogdanm	15:4892fe388435	309
bogdanm	15:4892fe388435	310	/* PHY Extended Registers */
bogdanm	15:4892fe388435	311	#define PHY_REG_STS 0x10 /* Status Register */
bogdanm	15:4892fe388435	312	#define PHY_REG_MICR 0x11 /* MII Interrupt Control Register */
bogdanm	15:4892fe388435	313	#define PHY_REG_MISR 0x12 /* MII Interrupt Status Register */
bogdanm	15:4892fe388435	314	#define PHY_REG_FCSCR 0x14 /* False Carrier Sense Counter */
bogdanm	15:4892fe388435	315	#define PHY_REG_RECR 0x15 /* Receive Error Counter */
bogdanm	15:4892fe388435	316	#define PHY_REG_PCSR 0x16 /* PCS Sublayer Config. and Status */
bogdanm	15:4892fe388435	317	#define PHY_REG_RBR 0x17 /* RMII and Bypass Register */
bogdanm	15:4892fe388435	318	#define PHY_REG_LEDCR 0x18 /* LED Direct Control Register */
bogdanm	15:4892fe388435	319	#define PHY_REG_PHYCR 0x19 /* PHY Control Register */
bogdanm	15:4892fe388435	320	#define PHY_REG_10BTSCR 0x1A /* 10Base-T Status/Control Register */
bogdanm	15:4892fe388435	321	#define PHY_REG_CDCTRL1 0x1B /* CD Test Control and BIST Extens. */
bogdanm	15:4892fe388435	322	#define PHY_REG_EDCR 0x1D /* Energy Detect Control Register */
bogdanm	15:4892fe388435	323
bogdanm	15:4892fe388435	324	#define PHY_REG_SCSR 0x1F /* PHY Special Control/Status Register */
bogdanm	15:4892fe388435	325
bogdanm	15:4892fe388435	326	#define PHY_FULLD_100M 0x2100 /* Full Duplex 100Mbit */
bogdanm	15:4892fe388435	327	#define PHY_HALFD_100M 0x2000 /* Half Duplex 100Mbit */
bogdanm	15:4892fe388435	328	#define PHY_FULLD_10M 0x0100 /* Full Duplex 10Mbit */
bogdanm	15:4892fe388435	329	#define PHY_HALFD_10M 0x0000 /* Half Duplex 10MBit */
bogdanm	15:4892fe388435	330	#define PHY_AUTO_NEG 0x3000 /* Select Auto Negotiation */
bogdanm	15:4892fe388435	331
bogdanm	15:4892fe388435	332	#define DP83848C_DEF_ADR 0x0100 /* Default PHY device address */
bogdanm	15:4892fe388435	333	#define DP83848C_ID 0x20005C90 /* PHY Identifier - DP83848C */
bogdanm	15:4892fe388435	334
bogdanm	15:4892fe388435	335	#define LAN8720_ID 0x0007C0F0 /* PHY Identifier - LAN8720 */
bogdanm	15:4892fe388435	336
bogdanm	15:4892fe388435	337	#define PHY_STS_LINK 0x0001 /* PHY Status Link Mask */
bogdanm	15:4892fe388435	338	#define PHY_STS_SPEED 0x0002 /* PHY Status Speed Mask */
bogdanm	15:4892fe388435	339	#define PHY_STS_DUPLEX 0x0004 /* PHY Status Duplex Mask */
bogdanm	15:4892fe388435	340
bogdanm	15:4892fe388435	341	#define PHY_BMCR_RESET 0x8000 /* PHY Reset */
bogdanm	15:4892fe388435	342
bogdanm	15:4892fe388435	343	#define PHY_BMSR_LINK 0x0004 /* PHY BMSR Link valid */
bogdanm	15:4892fe388435	344
bogdanm	15:4892fe388435	345	#define PHY_SCSR_100MBIT 0x0008 /* Speed: 1=100 MBit, 0=10Mbit */
bogdanm	15:4892fe388435	346	#define PHY_SCSR_DUPLEX 0x0010 /* PHY Duplex Mask */
bogdanm	15:4892fe388435	347
bogdanm	15:4892fe388435	348
bogdanm	15:4892fe388435	349	static int phy_read(unsigned int PhyReg);
bogdanm	15:4892fe388435	350	static int phy_write(unsigned int PhyReg, unsigned short Data);
bogdanm	15:4892fe388435	351
bogdanm	15:4892fe388435	352	static void txdscr_init(void);
bogdanm	15:4892fe388435	353	static void rxdscr_init(void);
bogdanm	15:4892fe388435	354
bogdanm	15:4892fe388435	355	#if defined (__ICCARM__)
bogdanm	15:4892fe388435	356	# define AHBSRAM1
bogdanm	15:4892fe388435	357	#elif defined(TOOLCHAIN_GCC_CR)
bogdanm	15:4892fe388435	358	# define AHBSRAM1 __attribute__((section(".data.$RamPeriph32")))
bogdanm	15:4892fe388435	359	#else
bogdanm	15:4892fe388435	360	# define AHBSRAM1 __attribute__((section("AHBSRAM1"),aligned))
bogdanm	15:4892fe388435	361	#endif
bogdanm	15:4892fe388435	362
bogdanm	15:4892fe388435	363	AHBSRAM1 volatile uint8_t rxbuf[NUM_RX_FRAG][ETH_FRAG_SIZE];
bogdanm	15:4892fe388435	364	AHBSRAM1 volatile uint8_t txbuf[NUM_TX_FRAG][ETH_FRAG_SIZE];
bogdanm	15:4892fe388435	365	AHBSRAM1 volatile RX_DESC_TypeDef rxdesc[NUM_RX_FRAG];
bogdanm	15:4892fe388435	366	AHBSRAM1 volatile RX_STAT_TypeDef rxstat[NUM_RX_FRAG];
bogdanm	15:4892fe388435	367	AHBSRAM1 volatile TX_DESC_TypeDef txdesc[NUM_TX_FRAG];
bogdanm	15:4892fe388435	368	AHBSRAM1 volatile TX_STAT_TypeDef txstat[NUM_TX_FRAG];
bogdanm	15:4892fe388435	369
bogdanm	15:4892fe388435	370
bogdanm	15:4892fe388435	371	#if NEW_LOGIC
bogdanm	15:4892fe388435	372	static int rx_consume_offset = -1;
bogdanm	15:4892fe388435	373	static int tx_produce_offset = -1;
bogdanm	15:4892fe388435	374	#else
bogdanm	15:4892fe388435	375	static int send_doff = 0;
bogdanm	15:4892fe388435	376	static int send_idx = -1;
bogdanm	15:4892fe388435	377	static int send_size = 0;
bogdanm	15:4892fe388435	378
bogdanm	15:4892fe388435	379	static int receive_soff = 0;
bogdanm	15:4892fe388435	380	static int receive_idx = -1;
bogdanm	15:4892fe388435	381	#endif
bogdanm	15:4892fe388435	382
bogdanm	15:4892fe388435	383	static uint32_t phy_id = 0;
bogdanm	15:4892fe388435	384
bogdanm	15:4892fe388435	385	static inline int rinc(int idx, int mod) {
bogdanm	15:4892fe388435	386	++idx;
bogdanm	15:4892fe388435	387	idx %= mod;
bogdanm	15:4892fe388435	388	return idx;
bogdanm	15:4892fe388435	389	}
bogdanm	15:4892fe388435	390
bogdanm	15:4892fe388435	391	//extern unsigned int SystemFrequency;
bogdanm	15:4892fe388435	392	static inline unsigned int clockselect() {
bogdanm	15:4892fe388435	393	if(SystemCoreClock < 10000000) {
bogdanm	15:4892fe388435	394	return 1;
bogdanm	15:4892fe388435	395	} else if(SystemCoreClock < 15000000) {
bogdanm	15:4892fe388435	396	return 2;
bogdanm	15:4892fe388435	397	} else if(SystemCoreClock < 20000000) {
bogdanm	15:4892fe388435	398	return 3;
bogdanm	15:4892fe388435	399	} else if(SystemCoreClock < 25000000) {
bogdanm	15:4892fe388435	400	return 4;
bogdanm	15:4892fe388435	401	} else if(SystemCoreClock < 35000000) {
bogdanm	15:4892fe388435	402	return 5;
bogdanm	15:4892fe388435	403	} else if(SystemCoreClock < 50000000) {
bogdanm	15:4892fe388435	404	return 6;
bogdanm	15:4892fe388435	405	} else if(SystemCoreClock < 70000000) {
bogdanm	15:4892fe388435	406	return 7;
bogdanm	15:4892fe388435	407	} else if(SystemCoreClock < 80000000) {
bogdanm	15:4892fe388435	408	return 8;
bogdanm	15:4892fe388435	409	} else if(SystemCoreClock < 90000000) {
bogdanm	15:4892fe388435	410	return 9;
bogdanm	15:4892fe388435	411	} else if(SystemCoreClock < 100000000) {
bogdanm	15:4892fe388435	412	return 10;
bogdanm	15:4892fe388435	413	} else if(SystemCoreClock < 120000000) {
bogdanm	15:4892fe388435	414	return 11;
bogdanm	15:4892fe388435	415	} else if(SystemCoreClock < 130000000) {
bogdanm	15:4892fe388435	416	return 12;
bogdanm	15:4892fe388435	417	} else if(SystemCoreClock < 140000000) {
bogdanm	15:4892fe388435	418	return 13;
bogdanm	15:4892fe388435	419	} else if(SystemCoreClock < 150000000) {
bogdanm	15:4892fe388435	420	return 15;
bogdanm	15:4892fe388435	421	} else if(SystemCoreClock < 160000000) {
bogdanm	15:4892fe388435	422	return 16;
bogdanm	15:4892fe388435	423	} else {
bogdanm	15:4892fe388435	424	return 0;
bogdanm	15:4892fe388435	425	}
bogdanm	15:4892fe388435	426	}
bogdanm	15:4892fe388435	427
bogdanm	15:4892fe388435	428	#ifndef min
bogdanm	15:4892fe388435	429	#define min(x, y) (((x)<(y))?(x):(y))
bogdanm	15:4892fe388435	430	#endif
bogdanm	15:4892fe388435	431
bogdanm	15:4892fe388435	432	/*----------------------------------------------------------------------------
bogdanm	15:4892fe388435	433	Ethernet Device initialize
bogdanm	15:4892fe388435	434	----------------------------------------------------------------------------/
bogdanm	15:4892fe388435	435	int ethernet_init() {
bogdanm	15:4892fe388435	436	int regv, tout;
bogdanm	15:4892fe388435	437	char mac[ETHERNET_ADDR_SIZE];
bogdanm	15:4892fe388435	438	unsigned int clock = clockselect();
bogdanm	15:4892fe388435	439
bogdanm	15:4892fe388435	440	LPC_SC->PCONP \|= 0x40000000; /* Power Up the EMAC controller. */
bogdanm	15:4892fe388435	441
bogdanm	15:4892fe388435	442	LPC_IOCON->P1_0 &= ~0x07; /* ENET I/O config */
bogdanm	15:4892fe388435	443	LPC_IOCON->P1_0 \|= 0x01; /* ENET_TXD0 */
bogdanm	15:4892fe388435	444	LPC_IOCON->P1_1 &= ~0x07;
bogdanm	15:4892fe388435	445	LPC_IOCON->P1_1 \|= 0x01; /* ENET_TXD1 */
bogdanm	15:4892fe388435	446	LPC_IOCON->P1_4 &= ~0x07;
bogdanm	15:4892fe388435	447	LPC_IOCON->P1_4 \|= 0x01; /* ENET_TXEN */
bogdanm	15:4892fe388435	448	LPC_IOCON->P1_8 &= ~0x07;
bogdanm	15:4892fe388435	449	LPC_IOCON->P1_8 \|= 0x01; /* ENET_CRS */
bogdanm	15:4892fe388435	450	LPC_IOCON->P1_9 &= ~0x07;
bogdanm	15:4892fe388435	451	LPC_IOCON->P1_9 \|= 0x01; /* ENET_RXD0 */
bogdanm	15:4892fe388435	452	LPC_IOCON->P1_10 &= ~0x07;
bogdanm	15:4892fe388435	453	LPC_IOCON->P1_10 \|= 0x01; /* ENET_RXD1 */
bogdanm	15:4892fe388435	454	LPC_IOCON->P1_14 &= ~0x07;
bogdanm	15:4892fe388435	455	LPC_IOCON->P1_14 \|= 0x01; /* ENET_RX_ER */
bogdanm	15:4892fe388435	456	LPC_IOCON->P1_15 &= ~0x07;
bogdanm	15:4892fe388435	457	LPC_IOCON->P1_15 \|= 0x01; /* ENET_REF_CLK */
bogdanm	15:4892fe388435	458	LPC_IOCON->P1_16 &= ~0x07; /* ENET/PHY I/O config */
bogdanm	15:4892fe388435	459	LPC_IOCON->P1_16 \|= 0x01; /* ENET_MDC */
bogdanm	15:4892fe388435	460	LPC_IOCON->P1_17 &= ~0x07;
bogdanm	15:4892fe388435	461	LPC_IOCON->P1_17 \|= 0x01; /* ENET_MDIO */
bogdanm	15:4892fe388435	462
bogdanm	15:4892fe388435	463	/* Reset all EMAC internal modules. */
bogdanm	15:4892fe388435	464	LPC_EMAC->MAC1 = MAC1_RES_TX \| MAC1_RES_MCS_TX \| MAC1_RES_RX \|
bogdanm	15:4892fe388435	465	MAC1_RES_MCS_RX \| MAC1_SIM_RES \| MAC1_SOFT_RES;
bogdanm	15:4892fe388435	466	LPC_EMAC->Command = CR_REG_RES \| CR_TX_RES \| CR_RX_RES \| CR_PASS_RUNT_FRM;
bogdanm	15:4892fe388435	467
bogdanm	15:4892fe388435	468	for(tout = 100; tout; tout--) __NOP(); /* A short delay after reset. */
bogdanm	15:4892fe388435	469
bogdanm	15:4892fe388435	470	LPC_EMAC->MAC1 = MAC1_PASS_ALL; /* Initialize MAC control registers. */
bogdanm	15:4892fe388435	471	LPC_EMAC->MAC2 = MAC2_CRC_EN \| MAC2_PAD_EN;
bogdanm	15:4892fe388435	472	LPC_EMAC->MAXF = ETH_MAX_FLEN;
bogdanm	15:4892fe388435	473	LPC_EMAC->CLRT = CLRT_DEF;
bogdanm	15:4892fe388435	474	LPC_EMAC->IPGR = IPGR_DEF;
bogdanm	15:4892fe388435	475
bogdanm	15:4892fe388435	476	LPC_EMAC->Command = CR_RMII \| CR_PASS_RUNT_FRM; /* Enable Reduced MII interface. */
bogdanm	15:4892fe388435	477
bogdanm	15:4892fe388435	478	LPC_EMAC->MCFG = (clock << 0x2) & MCFG_CLK_SEL; /* Set clock */
bogdanm	15:4892fe388435	479	LPC_EMAC->MCFG \|= MCFG_RES_MII; /* and reset */
bogdanm	15:4892fe388435	480
bogdanm	15:4892fe388435	481	for(tout = 100; tout; tout--) __NOP(); /* A short delay */
bogdanm	15:4892fe388435	482
bogdanm	15:4892fe388435	483	LPC_EMAC->MCFG = (clock << 0x2) & MCFG_CLK_SEL;
bogdanm	15:4892fe388435	484	LPC_EMAC->MCMD = 0;
bogdanm	15:4892fe388435	485
bogdanm	15:4892fe388435	486	LPC_EMAC->SUPP = SUPP_RES_RMII; /* Reset Reduced MII Logic. */
bogdanm	15:4892fe388435	487
bogdanm	15:4892fe388435	488	for (tout = 100; tout; tout--) __NOP(); /* A short delay */
bogdanm	15:4892fe388435	489
bogdanm	15:4892fe388435	490	LPC_EMAC->SUPP = 0;
bogdanm	15:4892fe388435	491
bogdanm	15:4892fe388435	492	phy_write(PHY_REG_BMCR, PHY_BMCR_RESET); /* perform PHY reset */
bogdanm	15:4892fe388435	493	for(tout = 0x20000; ; tout--) { /* Wait for hardware reset to end. */
bogdanm	15:4892fe388435	494	regv = phy_read(PHY_REG_BMCR);
bogdanm	15:4892fe388435	495	if(regv < 0 \|\| tout == 0) {
bogdanm	15:4892fe388435	496	return -1; /* Error */
bogdanm	15:4892fe388435	497	}
bogdanm	15:4892fe388435	498	if(!(regv & PHY_BMCR_RESET)) {
bogdanm	15:4892fe388435	499	break; /* Reset complete. */
bogdanm	15:4892fe388435	500	}
bogdanm	15:4892fe388435	501	}
bogdanm	15:4892fe388435	502
bogdanm	15:4892fe388435	503	phy_id = (phy_read(PHY_REG_IDR1) << 16);
bogdanm	15:4892fe388435	504	phy_id \|= (phy_read(PHY_REG_IDR2) & 0XFFF0);
bogdanm	15:4892fe388435	505
bogdanm	15:4892fe388435	506	if (phy_id != DP83848C_ID && phy_id != LAN8720_ID) {
bogdanm	15:4892fe388435	507	error("Unknown Ethernet PHY (%x)", (unsigned int)phy_id);
bogdanm	15:4892fe388435	508	}
bogdanm	15:4892fe388435	509
bogdanm	15:4892fe388435	510	ethernet_set_link(-1, 0);
bogdanm	15:4892fe388435	511
bogdanm	15:4892fe388435	512	/* Set the Ethernet MAC Address registers */
bogdanm	15:4892fe388435	513	ethernet_address(mac);
bogdanm	15:4892fe388435	514	LPC_EMAC->SA0 = ((uint32_t)mac[5] << 8) \| (uint32_t)mac[4];
bogdanm	15:4892fe388435	515	LPC_EMAC->SA1 = ((uint32_t)mac[3] << 8) \| (uint32_t)mac[2];
bogdanm	15:4892fe388435	516	LPC_EMAC->SA2 = ((uint32_t)mac[1] << 8) \| (uint32_t)mac[0];
bogdanm	15:4892fe388435	517
bogdanm	15:4892fe388435	518	txdscr_init(); /* initialize DMA TX Descriptor */
bogdanm	15:4892fe388435	519	rxdscr_init(); /* initialize DMA RX Descriptor */
bogdanm	15:4892fe388435	520
bogdanm	15:4892fe388435	521	LPC_EMAC->RxFilterCtrl = RFC_UCAST_EN \| RFC_MCAST_EN \| RFC_BCAST_EN \| RFC_PERFECT_EN;
bogdanm	15:4892fe388435	522	/* Receive Broadcast, Perfect Match Packets */
bogdanm	15:4892fe388435	523
bogdanm	15:4892fe388435	524	LPC_EMAC->IntEnable = INT_RX_DONE \| INT_TX_DONE; /* Enable EMAC interrupts. */
bogdanm	15:4892fe388435	525	LPC_EMAC->IntClear = 0xFFFF; /* Reset all interrupts */
bogdanm	15:4892fe388435	526
bogdanm	15:4892fe388435	527	LPC_EMAC->Command \|= (CR_RX_EN \| CR_TX_EN); /* Enable receive and transmit mode of MAC Ethernet core */
bogdanm	15:4892fe388435	528	LPC_EMAC->MAC1 \|= MAC1_REC_EN;
bogdanm	15:4892fe388435	529
bogdanm	15:4892fe388435	530	#if NEW_LOGIC
bogdanm	15:4892fe388435	531	rx_consume_offset = -1;
bogdanm	15:4892fe388435	532	tx_produce_offset = -1;
bogdanm	15:4892fe388435	533	#else
bogdanm	15:4892fe388435	534	send_doff = 0;
bogdanm	15:4892fe388435	535	send_idx = -1;
bogdanm	15:4892fe388435	536	send_size = 0;
bogdanm	15:4892fe388435	537
bogdanm	15:4892fe388435	538	receive_soff = 0;
bogdanm	15:4892fe388435	539	receive_idx = -1;
bogdanm	15:4892fe388435	540	#endif
bogdanm	15:4892fe388435	541
bogdanm	15:4892fe388435	542	return 0;
bogdanm	15:4892fe388435	543	}
bogdanm	15:4892fe388435	544
bogdanm	15:4892fe388435	545	/*----------------------------------------------------------------------------
bogdanm	15:4892fe388435	546	Ethernet Device Uninitialize
bogdanm	15:4892fe388435	547	----------------------------------------------------------------------------/
bogdanm	15:4892fe388435	548	void ethernet_free() {
bogdanm	15:4892fe388435	549	LPC_EMAC->IntEnable &= ~(INT_RX_DONE \| INT_TX_DONE);
bogdanm	15:4892fe388435	550	LPC_EMAC->IntClear = 0xFFFF;
bogdanm	15:4892fe388435	551
bogdanm	15:4892fe388435	552	LPC_SC->PCONP &= ~0x40000000; /* Power down the EMAC controller. */
bogdanm	15:4892fe388435	553
bogdanm	15:4892fe388435	554	LPC_IOCON->P1_0 &= ~0x07; /* ENET I/O config */
bogdanm	15:4892fe388435	555	LPC_IOCON->P1_1 &= ~0x07;
bogdanm	15:4892fe388435	556	LPC_IOCON->P1_4 &= ~0x07;
bogdanm	15:4892fe388435	557	LPC_IOCON->P1_8 &= ~0x07;
bogdanm	15:4892fe388435	558	LPC_IOCON->P1_9 &= ~0x07;
bogdanm	15:4892fe388435	559	LPC_IOCON->P1_10 &= ~0x07;
bogdanm	15:4892fe388435	560	LPC_IOCON->P1_14 &= ~0x07;
bogdanm	15:4892fe388435	561	LPC_IOCON->P1_15 &= ~0x07;
bogdanm	15:4892fe388435	562	LPC_IOCON->P1_16 &= ~0x07; /* ENET/PHY I/O config */
bogdanm	15:4892fe388435	563	LPC_IOCON->P1_17 &= ~0x07;
bogdanm	15:4892fe388435	564	}
bogdanm	15:4892fe388435	565
bogdanm	15:4892fe388435	566	// if(TxProduceIndex == TxConsumeIndex) buffer array is empty
bogdanm	15:4892fe388435	567	// if(TxProduceIndex == TxConsumeIndex - 1) buffer is full, should not fill
bogdanm	15:4892fe388435	568	// TxProduceIndex - The buffer that will/is being fileld by driver, s/w increment
bogdanm	15:4892fe388435	569	// TxConsumeIndex - The buffer that will/is beign sent by hardware
bogdanm	15:4892fe388435	570
bogdanm	15:4892fe388435	571	int ethernet_write(const char *data, int slen) {
bogdanm	15:4892fe388435	572
bogdanm	15:4892fe388435	573	#if NEW_LOGIC
bogdanm	15:4892fe388435	574
bogdanm	15:4892fe388435	575	if(tx_produce_offset < 0) { // mark as active if not already
bogdanm	15:4892fe388435	576	tx_produce_offset = 0;
bogdanm	15:4892fe388435	577	}
bogdanm	15:4892fe388435	578
bogdanm	15:4892fe388435	579	int index = LPC_EMAC->TxProduceIndex;
bogdanm	15:4892fe388435	580
bogdanm	15:4892fe388435	581	int remaining = ETH_MAX_FLEN - tx_produce_offset - 4; // bytes written plus checksum
bogdanm	15:4892fe388435	582	int requested = slen;
bogdanm	15:4892fe388435	583	int ncopy = min(remaining, requested);
bogdanm	15:4892fe388435	584
bogdanm	15:4892fe388435	585	void pdst = (void )(txdesc[index].Packet + tx_produce_offset);
bogdanm	15:4892fe388435	586	void psrc = (void )(data);
bogdanm	15:4892fe388435	587
bogdanm	15:4892fe388435	588	if(ncopy > 0 ){
bogdanm	15:4892fe388435	589	if(data != NULL) {
bogdanm	15:4892fe388435	590	memcpy(pdst, psrc, ncopy);
bogdanm	15:4892fe388435	591	} else {
bogdanm	15:4892fe388435	592	memset(pdst, 0, ncopy);
bogdanm	15:4892fe388435	593	}
bogdanm	15:4892fe388435	594	}
bogdanm	15:4892fe388435	595
bogdanm	15:4892fe388435	596	tx_produce_offset += ncopy;
bogdanm	15:4892fe388435	597
bogdanm	15:4892fe388435	598	return ncopy;
bogdanm	15:4892fe388435	599
bogdanm	15:4892fe388435	600	#else
bogdanm	15:4892fe388435	601	void pdst, psrc;
bogdanm	15:4892fe388435	602	const int dlen = ETH_FRAG_SIZE;
bogdanm	15:4892fe388435	603	int copy = 0;
bogdanm	15:4892fe388435	604	int soff = 0;
bogdanm	15:4892fe388435	605
bogdanm	15:4892fe388435	606	if(send_idx == -1) {
bogdanm	15:4892fe388435	607	send_idx = LPC_EMAC->TxProduceIndex;
bogdanm	15:4892fe388435	608	}
bogdanm	15:4892fe388435	609
bogdanm	15:4892fe388435	610	if(slen + send_doff > ethernet_MTU_SIZE) {
bogdanm	15:4892fe388435	611	return -1;
bogdanm	15:4892fe388435	612	}
bogdanm	15:4892fe388435	613
bogdanm	15:4892fe388435	614	do {
bogdanm	15:4892fe388435	615	copy = min(slen - soff, dlen - send_doff);
bogdanm	15:4892fe388435	616	pdst = (void *)(txdesc[send_idx].Packet + send_doff);
bogdanm	15:4892fe388435	617	psrc = (void *)(data + soff);
bogdanm	15:4892fe388435	618	if(send_doff + copy > ETH_FRAG_SIZE) {
bogdanm	15:4892fe388435	619	txdesc[send_idx].Ctrl = (send_doff-1) \| (TCTRL_INT);
bogdanm	15:4892fe388435	620	send_idx = rinc(send_idx, NUM_TX_FRAG);
bogdanm	15:4892fe388435	621	send_doff = 0;
bogdanm	15:4892fe388435	622	}
bogdanm	15:4892fe388435	623
bogdanm	15:4892fe388435	624	if(data != NULL) {
bogdanm	15:4892fe388435	625	memcpy(pdst, psrc, copy);
bogdanm	15:4892fe388435	626	} else {
bogdanm	15:4892fe388435	627	memset(pdst, 0, copy);
bogdanm	15:4892fe388435	628	}
bogdanm	15:4892fe388435	629
bogdanm	15:4892fe388435	630	soff += copy;
bogdanm	15:4892fe388435	631	send_doff += copy;
bogdanm	15:4892fe388435	632	send_size += copy;
bogdanm	15:4892fe388435	633	} while(soff != slen);
bogdanm	15:4892fe388435	634
bogdanm	15:4892fe388435	635	return soff;
bogdanm	15:4892fe388435	636	#endif
bogdanm	15:4892fe388435	637	}
bogdanm	15:4892fe388435	638
bogdanm	15:4892fe388435	639	int ethernet_send() {
bogdanm	15:4892fe388435	640
bogdanm	15:4892fe388435	641	#if NEW_LOGIC
bogdanm	15:4892fe388435	642	if(tx_produce_offset < 0) { // no buffer active
bogdanm	15:4892fe388435	643	return -1;
bogdanm	15:4892fe388435	644	}
bogdanm	15:4892fe388435	645
bogdanm	15:4892fe388435	646	// ensure there is a link
bogdanm	15:4892fe388435	647	if(!ethernet_link()) {
bogdanm	15:4892fe388435	648	return -2;
bogdanm	15:4892fe388435	649	}
bogdanm	15:4892fe388435	650
bogdanm	15:4892fe388435	651	// we have been writing in to a buffer, so finalise it
bogdanm	15:4892fe388435	652	int size = tx_produce_offset;
bogdanm	15:4892fe388435	653	int index = LPC_EMAC->TxProduceIndex;
bogdanm	15:4892fe388435	654	txdesc[index].Ctrl = (tx_produce_offset-1) \| (TCTRL_INT \| TCTRL_LAST);
bogdanm	15:4892fe388435	655
bogdanm	15:4892fe388435	656	// Increment ProduceIndex to allow it to be sent
bogdanm	15:4892fe388435	657	// We can only do this if the next slot is free
bogdanm	15:4892fe388435	658	int next = rinc(index, NUM_TX_FRAG);
bogdanm	15:4892fe388435	659	while(next == LPC_EMAC->TxConsumeIndex) {
bogdanm	15:4892fe388435	660	for(int i=0; i<1000; i++) { __NOP(); }
bogdanm	15:4892fe388435	661	}
bogdanm	15:4892fe388435	662
bogdanm	15:4892fe388435	663	LPC_EMAC->TxProduceIndex = next;
bogdanm	15:4892fe388435	664	tx_produce_offset = -1;
bogdanm	15:4892fe388435	665	return size;
bogdanm	15:4892fe388435	666
bogdanm	15:4892fe388435	667	#else
bogdanm	15:4892fe388435	668	int s = send_size;
bogdanm	15:4892fe388435	669	txdesc[send_idx].Ctrl = (send_doff-1) \| (TCTRL_INT \| TCTRL_LAST);
bogdanm	15:4892fe388435	670	send_idx = rinc(send_idx, NUM_TX_FRAG);
bogdanm	15:4892fe388435	671	LPC_EMAC->TxProduceIndex = send_idx;
bogdanm	15:4892fe388435	672	send_doff = 0;
bogdanm	15:4892fe388435	673	send_idx = -1;
bogdanm	15:4892fe388435	674	send_size = 0;
bogdanm	15:4892fe388435	675	return s;
bogdanm	15:4892fe388435	676	#endif
bogdanm	15:4892fe388435	677	}
bogdanm	15:4892fe388435	678
bogdanm	15:4892fe388435	679	// RxConsmeIndex - The index of buffer the driver will/is reading from. Driver should inc once read
bogdanm	15:4892fe388435	680	// RxProduceIndex - The index of buffer that will/is being filled by MAC. H/w will inc once rxd
bogdanm	15:4892fe388435	681	//
bogdanm	15:4892fe388435	682	// if(RxConsumeIndex == RxProduceIndex) buffer array is empty
bogdanm	15:4892fe388435	683	// if(RxConsumeIndex == RxProduceIndex + 1) buffer array is full
bogdanm	15:4892fe388435	684
bogdanm	15:4892fe388435	685	// Recevies an arrived ethernet packet.
bogdanm	15:4892fe388435	686	// Receiving an ethernet packet will drop the last received ethernet packet
bogdanm	15:4892fe388435	687	// and make a new ethernet packet ready to read.
bogdanm	15:4892fe388435	688	// Returns size of packet, else 0 if nothing to receive
bogdanm	15:4892fe388435	689
bogdanm	15:4892fe388435	690	// We read from RxConsumeIndex from position rx_consume_offset
bogdanm	15:4892fe388435	691	// if rx_consume_offset < 0, then we have not recieved the RxConsumeIndex packet for reading
bogdanm	15:4892fe388435	692	// rx_consume_offset = -1 // no frame
bogdanm	15:4892fe388435	693	// rx_consume_offset = 0 // start of frame
bogdanm	15:4892fe388435	694	// Assumption: A fragment should alway be a whole frame
bogdanm	15:4892fe388435	695
bogdanm	15:4892fe388435	696	int ethernet_receive() {
bogdanm	15:4892fe388435	697	#if NEW_LOGIC
bogdanm	15:4892fe388435	698
bogdanm	15:4892fe388435	699	// if we are currently reading a valid RxConsume buffer, increment to the next one
bogdanm	15:4892fe388435	700	if(rx_consume_offset >= 0) {
bogdanm	15:4892fe388435	701	LPC_EMAC->RxConsumeIndex = rinc(LPC_EMAC->RxConsumeIndex, NUM_RX_FRAG);
bogdanm	15:4892fe388435	702	}
bogdanm	15:4892fe388435	703
bogdanm	15:4892fe388435	704	// if the buffer is empty, mark it as no valid buffer
bogdanm	15:4892fe388435	705	if(LPC_EMAC->RxConsumeIndex == LPC_EMAC->RxProduceIndex) {
bogdanm	15:4892fe388435	706	rx_consume_offset = -1;
bogdanm	15:4892fe388435	707	return 0;
bogdanm	15:4892fe388435	708	}
bogdanm	15:4892fe388435	709
bogdanm	15:4892fe388435	710	uint32_t info = rxstat[LPC_EMAC->RxConsumeIndex].Info;
bogdanm	15:4892fe388435	711	rx_consume_offset = 0;
bogdanm	15:4892fe388435	712
bogdanm	15:4892fe388435	713	// check if it is not marked as last or for errors
bogdanm	15:4892fe388435	714	if(!(info & RINFO_LAST_FLAG) \|\| (info & RINFO_ERR_MASK)) {
bogdanm	15:4892fe388435	715	return -1;
bogdanm	15:4892fe388435	716	}
bogdanm	15:4892fe388435	717
bogdanm	15:4892fe388435	718	int size = (info & RINFO_SIZE) + 1;
bogdanm	15:4892fe388435	719	return size - 4; // don't include checksum bytes
bogdanm	15:4892fe388435	720
bogdanm	15:4892fe388435	721	#else
bogdanm	15:4892fe388435	722	if(receive_idx == -1) {
bogdanm	15:4892fe388435	723	receive_idx = LPC_EMAC->RxConsumeIndex;
bogdanm	15:4892fe388435	724	} else {
mbed_official	29:6ac4027eff2b	725	while(!(rxstat[receive_idx].Info & RINFO_LAST_FLAG) && ((uint32_t)receive_idx != LPC_EMAC->RxProduceIndex)) {
bogdanm	15:4892fe388435	726	receive_idx = rinc(receive_idx, NUM_RX_FRAG);
bogdanm	15:4892fe388435	727	}
bogdanm	15:4892fe388435	728	unsigned int info = rxstat[receive_idx].Info;
bogdanm	15:4892fe388435	729	int slen = (info & RINFO_SIZE) + 1;
bogdanm	15:4892fe388435	730
bogdanm	15:4892fe388435	731	if(slen > ethernet_MTU_SIZE \|\| (info & RINFO_ERR_MASK)) {
bogdanm	15:4892fe388435	732	/* Invalid frame, ignore it and free buffer. */
bogdanm	15:4892fe388435	733	receive_idx = rinc(receive_idx, NUM_RX_FRAG);
bogdanm	15:4892fe388435	734	}
bogdanm	15:4892fe388435	735	receive_idx = rinc(receive_idx, NUM_RX_FRAG);
bogdanm	15:4892fe388435	736	receive_soff = 0;
bogdanm	15:4892fe388435	737
bogdanm	15:4892fe388435	738	LPC_EMAC->RxConsumeIndex = receive_idx;
bogdanm	15:4892fe388435	739	}
bogdanm	15:4892fe388435	740
mbed_official	29:6ac4027eff2b	741	if((uint32_t)receive_idx == LPC_EMAC->RxProduceIndex) {
bogdanm	15:4892fe388435	742	receive_idx = -1;
bogdanm	15:4892fe388435	743	return 0;
bogdanm	15:4892fe388435	744	}
bogdanm	15:4892fe388435	745
bogdanm	15:4892fe388435	746	return (rxstat[receive_idx].Info & RINFO_SIZE) - 3;
bogdanm	15:4892fe388435	747	#endif
bogdanm	15:4892fe388435	748	}
bogdanm	15:4892fe388435	749
bogdanm	15:4892fe388435	750	// Read from an recevied ethernet packet.
bogdanm	15:4892fe388435	751	// After receive returnd a number bigger than 0 it is
bogdanm	15:4892fe388435	752	// possible to read bytes from this packet.
bogdanm	15:4892fe388435	753	// Read will write up to size bytes into data.
bogdanm	15:4892fe388435	754	// It is possible to use read multible times.
bogdanm	15:4892fe388435	755	// Each time read will start reading after the last read byte before.
bogdanm	15:4892fe388435	756
bogdanm	15:4892fe388435	757	int ethernet_read(char *data, int dlen) {
bogdanm	15:4892fe388435	758	#if NEW_LOGIC
bogdanm	15:4892fe388435	759	// Check we have a valid buffer to read
bogdanm	15:4892fe388435	760	if(rx_consume_offset < 0) {
bogdanm	15:4892fe388435	761	return 0;
bogdanm	15:4892fe388435	762	}
bogdanm	15:4892fe388435	763
bogdanm	15:4892fe388435	764	// Assume 1 fragment block
bogdanm	15:4892fe388435	765	uint32_t info = rxstat[LPC_EMAC->RxConsumeIndex].Info;
bogdanm	15:4892fe388435	766	int size = (info & RINFO_SIZE) + 1 - 4; // exclude checksum
bogdanm	15:4892fe388435	767
bogdanm	15:4892fe388435	768	int remaining = size - rx_consume_offset;
bogdanm	15:4892fe388435	769	int requested = dlen;
bogdanm	15:4892fe388435	770	int ncopy = min(remaining, requested);
bogdanm	15:4892fe388435	771
bogdanm	15:4892fe388435	772	void psrc = (void )(rxdesc[LPC_EMAC->RxConsumeIndex].Packet + rx_consume_offset);
bogdanm	15:4892fe388435	773	void pdst = (void )(data);
bogdanm	15:4892fe388435	774
bogdanm	15:4892fe388435	775	if(data != NULL && ncopy > 0) {
bogdanm	15:4892fe388435	776	memcpy(pdst, psrc, ncopy);
bogdanm	15:4892fe388435	777	}
bogdanm	15:4892fe388435	778
bogdanm	15:4892fe388435	779	rx_consume_offset += ncopy;
bogdanm	15:4892fe388435	780
bogdanm	15:4892fe388435	781	return ncopy;
bogdanm	15:4892fe388435	782	#else
bogdanm	15:4892fe388435	783	int slen;
bogdanm	15:4892fe388435	784	int copy = 0;
bogdanm	15:4892fe388435	785	unsigned int more;
bogdanm	15:4892fe388435	786	unsigned int info;
bogdanm	15:4892fe388435	787	void pdst, psrc;
bogdanm	15:4892fe388435	788	int doff = 0;
bogdanm	15:4892fe388435	789
mbed_official	29:6ac4027eff2b	790	if((uint32_t)receive_idx == LPC_EMAC->RxProduceIndex \|\| receive_idx == -1) {
bogdanm	15:4892fe388435	791	return 0;
bogdanm	15:4892fe388435	792	}
bogdanm	15:4892fe388435	793
bogdanm	15:4892fe388435	794	do {
bogdanm	15:4892fe388435	795	info = rxstat[receive_idx].Info;
bogdanm	15:4892fe388435	796	more = !(info & RINFO_LAST_FLAG);
bogdanm	15:4892fe388435	797	slen = (info & RINFO_SIZE) + 1;
bogdanm	15:4892fe388435	798
bogdanm	15:4892fe388435	799	if(slen > ethernet_MTU_SIZE \|\| (info & RINFO_ERR_MASK)) {
bogdanm	15:4892fe388435	800	/* Invalid frame, ignore it and free buffer. */
bogdanm	15:4892fe388435	801	receive_idx = rinc(receive_idx, NUM_RX_FRAG);
bogdanm	15:4892fe388435	802	} else {
bogdanm	15:4892fe388435	803
bogdanm	15:4892fe388435	804	copy = min(slen - receive_soff, dlen - doff);
bogdanm	15:4892fe388435	805	psrc = (void *)(rxdesc[receive_idx].Packet + receive_soff);
bogdanm	15:4892fe388435	806	pdst = (void *)(data + doff);
bogdanm	15:4892fe388435	807
bogdanm	15:4892fe388435	808	if(data != NULL) {
bogdanm	15:4892fe388435	809	/* check if Buffer available */
bogdanm	15:4892fe388435	810	memcpy(pdst, psrc, copy);
bogdanm	15:4892fe388435	811	}
bogdanm	15:4892fe388435	812
bogdanm	15:4892fe388435	813	receive_soff += copy;
bogdanm	15:4892fe388435	814	doff += copy;
bogdanm	15:4892fe388435	815
bogdanm	15:4892fe388435	816	if((more && (receive_soff == slen))) {
bogdanm	15:4892fe388435	817	receive_idx = rinc(receive_idx, NUM_RX_FRAG);
bogdanm	15:4892fe388435	818	receive_soff = 0;
bogdanm	15:4892fe388435	819	}
bogdanm	15:4892fe388435	820	}
bogdanm	15:4892fe388435	821	} while(more && !(doff == dlen) && !receive_soff);
bogdanm	15:4892fe388435	822
bogdanm	15:4892fe388435	823	return doff;
bogdanm	15:4892fe388435	824	#endif
bogdanm	15:4892fe388435	825	}
bogdanm	15:4892fe388435	826
bogdanm	15:4892fe388435	827	int ethernet_link(void) {
bogdanm	15:4892fe388435	828
bogdanm	15:4892fe388435	829	if (phy_id == DP83848C_ID) {
bogdanm	15:4892fe388435	830	return (phy_read(PHY_REG_STS) & PHY_STS_LINK);
bogdanm	15:4892fe388435	831	}
bogdanm	15:4892fe388435	832	else { // LAN8720_ID
bogdanm	15:4892fe388435	833	return (phy_read(PHY_REG_BMSR) & PHY_BMSR_LINK);
bogdanm	15:4892fe388435	834	}
bogdanm	15:4892fe388435	835	}
bogdanm	15:4892fe388435	836
bogdanm	15:4892fe388435	837	static int phy_write(unsigned int PhyReg, unsigned short Data) {
bogdanm	15:4892fe388435	838	unsigned int timeOut;
bogdanm	15:4892fe388435	839
bogdanm	15:4892fe388435	840	LPC_EMAC->MADR = DP83848C_DEF_ADR \| PhyReg;
bogdanm	15:4892fe388435	841	LPC_EMAC->MWTD = Data;
bogdanm	15:4892fe388435	842
bogdanm	15:4892fe388435	843	for(timeOut = 0; timeOut < MII_WR_TOUT; timeOut++) { /* Wait until operation completed */
bogdanm	15:4892fe388435	844	if((LPC_EMAC->MIND & MIND_BUSY) == 0) {
bogdanm	15:4892fe388435	845	return 0;
bogdanm	15:4892fe388435	846	}
bogdanm	15:4892fe388435	847	}
bogdanm	15:4892fe388435	848
bogdanm	15:4892fe388435	849	return -1;
bogdanm	15:4892fe388435	850	}
bogdanm	15:4892fe388435	851
bogdanm	15:4892fe388435	852
bogdanm	15:4892fe388435	853	static int phy_read(unsigned int PhyReg) {
bogdanm	15:4892fe388435	854	unsigned int timeOut;
bogdanm	15:4892fe388435	855
bogdanm	15:4892fe388435	856	LPC_EMAC->MADR = DP83848C_DEF_ADR \| PhyReg;
bogdanm	15:4892fe388435	857	LPC_EMAC->MCMD = MCMD_READ;
bogdanm	15:4892fe388435	858
bogdanm	15:4892fe388435	859	for(timeOut = 0; timeOut < MII_RD_TOUT; timeOut++) { /* Wait until operation completed */
bogdanm	15:4892fe388435	860	if((LPC_EMAC->MIND & MIND_BUSY) == 0) {
bogdanm	15:4892fe388435	861	LPC_EMAC->MCMD = 0;
bogdanm	15:4892fe388435	862	return LPC_EMAC->MRDD; /* Return a 16-bit value. */
bogdanm	15:4892fe388435	863	}
bogdanm	15:4892fe388435	864	}
bogdanm	15:4892fe388435	865
bogdanm	15:4892fe388435	866	return -1;
bogdanm	15:4892fe388435	867	}
bogdanm	15:4892fe388435	868
bogdanm	15:4892fe388435	869
bogdanm	15:4892fe388435	870	static void txdscr_init() {
bogdanm	15:4892fe388435	871	int i;
bogdanm	15:4892fe388435	872
bogdanm	15:4892fe388435	873	for(i = 0; i < NUM_TX_FRAG; i++) {
bogdanm	15:4892fe388435	874	txdesc[i].Packet = (uint32_t)&txbuf[i];
bogdanm	15:4892fe388435	875	txdesc[i].Ctrl = 0;
bogdanm	15:4892fe388435	876	txstat[i].Info = 0;
bogdanm	15:4892fe388435	877	}
bogdanm	15:4892fe388435	878
bogdanm	15:4892fe388435	879	LPC_EMAC->TxDescriptor = (uint32_t)txdesc; /* Set EMAC Transmit Descriptor Registers. */
bogdanm	15:4892fe388435	880	LPC_EMAC->TxStatus = (uint32_t)txstat;
bogdanm	15:4892fe388435	881	LPC_EMAC->TxDescriptorNumber = NUM_TX_FRAG-1;
bogdanm	15:4892fe388435	882
bogdanm	15:4892fe388435	883	LPC_EMAC->TxProduceIndex = 0; /* Tx Descriptors Point to 0 */
bogdanm	15:4892fe388435	884	}
bogdanm	15:4892fe388435	885
bogdanm	15:4892fe388435	886
bogdanm	15:4892fe388435	887	static void rxdscr_init() {
bogdanm	15:4892fe388435	888	int i;
bogdanm	15:4892fe388435	889
bogdanm	15:4892fe388435	890	for(i = 0; i < NUM_RX_FRAG; i++) {
bogdanm	15:4892fe388435	891	rxdesc[i].Packet = (uint32_t)&rxbuf[i];
bogdanm	15:4892fe388435	892	rxdesc[i].Ctrl = RCTRL_INT \| (ETH_FRAG_SIZE-1);
bogdanm	15:4892fe388435	893	rxstat[i].Info = 0;
bogdanm	15:4892fe388435	894	rxstat[i].HashCRC = 0;
bogdanm	15:4892fe388435	895	}
bogdanm	15:4892fe388435	896
bogdanm	15:4892fe388435	897	LPC_EMAC->RxDescriptor = (uint32_t)rxdesc; /* Set EMAC Receive Descriptor Registers. */
bogdanm	15:4892fe388435	898	LPC_EMAC->RxStatus = (uint32_t)rxstat;
bogdanm	15:4892fe388435	899	LPC_EMAC->RxDescriptorNumber = NUM_RX_FRAG-1;
bogdanm	15:4892fe388435	900
bogdanm	15:4892fe388435	901	LPC_EMAC->RxConsumeIndex = 0; /* Rx Descriptors Point to 0 */
bogdanm	15:4892fe388435	902	}
bogdanm	15:4892fe388435	903
bogdanm	15:4892fe388435	904	void ethernet_address(char *mac) {
bogdanm	15:4892fe388435	905	mbed_mac_address(mac);
bogdanm	15:4892fe388435	906	}
bogdanm	15:4892fe388435	907
bogdanm	15:4892fe388435	908	void ethernet_set_link(int speed, int duplex) {
bogdanm	15:4892fe388435	909	unsigned short phy_data;
bogdanm	15:4892fe388435	910	int tout;
bogdanm	15:4892fe388435	911
bogdanm	15:4892fe388435	912	if((speed < 0) \|\| (speed > 1)) {
bogdanm	15:4892fe388435	913	phy_data = PHY_AUTO_NEG;
bogdanm	15:4892fe388435	914	} else {
bogdanm	15:4892fe388435	915	phy_data = (((unsigned short) speed << 13) \|
bogdanm	15:4892fe388435	916	((unsigned short) duplex << 8));
bogdanm	15:4892fe388435	917	}
bogdanm	15:4892fe388435	918
bogdanm	15:4892fe388435	919	phy_write(PHY_REG_BMCR, phy_data);
bogdanm	15:4892fe388435	920
bogdanm	15:4892fe388435	921	for (tout = 100; tout; tout--) { __NOP(); } /* A short delay */
bogdanm	15:4892fe388435	922
bogdanm	15:4892fe388435	923	switch(phy_id) {
bogdanm	15:4892fe388435	924	case DP83848C_ID:
bogdanm	15:4892fe388435	925	phy_data = phy_read(PHY_REG_STS);
bogdanm	15:4892fe388435	926
bogdanm	15:4892fe388435	927	if(phy_data & PHY_STS_DUPLEX) {
bogdanm	15:4892fe388435	928	LPC_EMAC->MAC2 \|= MAC2_FULL_DUP;
bogdanm	15:4892fe388435	929	LPC_EMAC->Command \|= CR_FULL_DUP;
bogdanm	15:4892fe388435	930	LPC_EMAC->IPGT = IPGT_FULL_DUP;
bogdanm	15:4892fe388435	931	} else {
bogdanm	15:4892fe388435	932	LPC_EMAC->MAC2 &= ~MAC2_FULL_DUP;
bogdanm	15:4892fe388435	933	LPC_EMAC->Command &= ~CR_FULL_DUP;
bogdanm	15:4892fe388435	934	LPC_EMAC->IPGT = IPGT_HALF_DUP;
bogdanm	15:4892fe388435	935	}
bogdanm	15:4892fe388435	936
bogdanm	15:4892fe388435	937	if(phy_data & PHY_STS_SPEED) {
bogdanm	15:4892fe388435	938	LPC_EMAC->SUPP &= ~SUPP_SPEED;
bogdanm	15:4892fe388435	939	} else {
bogdanm	15:4892fe388435	940	LPC_EMAC->SUPP \|= SUPP_SPEED;
bogdanm	15:4892fe388435	941	}
bogdanm	15:4892fe388435	942	break;
bogdanm	15:4892fe388435	943
bogdanm	15:4892fe388435	944	case LAN8720_ID:
bogdanm	15:4892fe388435	945	phy_data = phy_read(PHY_REG_SCSR);
bogdanm	15:4892fe388435	946
bogdanm	15:4892fe388435	947	if (phy_data & PHY_SCSR_DUPLEX) {
bogdanm	15:4892fe388435	948	LPC_EMAC->MAC2 \|= MAC2_FULL_DUP;
bogdanm	15:4892fe388435	949	LPC_EMAC->Command \|= CR_FULL_DUP;
bogdanm	15:4892fe388435	950	LPC_EMAC->IPGT = IPGT_FULL_DUP;
bogdanm	15:4892fe388435	951	} else {
bogdanm	15:4892fe388435	952	LPC_EMAC->Command &= ~CR_FULL_DUP;
bogdanm	15:4892fe388435	953	LPC_EMAC->IPGT = IPGT_HALF_DUP;
bogdanm	15:4892fe388435	954	}
bogdanm	15:4892fe388435	955
bogdanm	15:4892fe388435	956	if(phy_data & PHY_SCSR_100MBIT) {
bogdanm	15:4892fe388435	957	LPC_EMAC->SUPP \|= SUPP_SPEED;
bogdanm	15:4892fe388435	958	} else {
bogdanm	15:4892fe388435	959	LPC_EMAC->SUPP &= ~SUPP_SPEED;
bogdanm	15:4892fe388435	960	}
bogdanm	15:4892fe388435	961
bogdanm	15:4892fe388435	962	break;
bogdanm	15:4892fe388435	963	}
bogdanm	15:4892fe388435	964	}
mbed_official	22:dbd009839d5e	965
mbed_official	22:dbd009839d5e	966	/*
mbed_official	22:dbd009839d5e	967	* The Embedded Artists LPC4088 QuickStart Board has an eeprom with a unique
mbed_official	22:dbd009839d5e	968	* 48 bit ID. This ID is used as MAC address.
mbed_official	22:dbd009839d5e	969	*/
mbed_official	22:dbd009839d5e	970
mbed_official	22:dbd009839d5e	971	#include "i2c_api.h"
mbed_official	22:dbd009839d5e	972
mbed_official	22:dbd009839d5e	973	static int _macRetrieved = 0;
mbed_official	22:dbd009839d5e	974	static char _macAddr[6] = {0x00,0x02,0xF7,0xF0,0x00,0x00};
mbed_official	22:dbd009839d5e	975	#define EEPROM_24AA02E48_ADDR (0xA0)
mbed_official	22:dbd009839d5e	976
mbed_official	22:dbd009839d5e	977	void mbed_mac_address(char *mac) {
mbed_official	22:dbd009839d5e	978
mbed_official	22:dbd009839d5e	979	if (_macRetrieved == 0) {
mbed_official	22:dbd009839d5e	980	char tmp[6];
mbed_official	22:dbd009839d5e	981	i2c_t i2cObj;
mbed_official	22:dbd009839d5e	982
mbed_official	22:dbd009839d5e	983	i2c_init(&i2cObj, P0_27, P0_28);
mbed_official	22:dbd009839d5e	984
mbed_official	22:dbd009839d5e	985	do {
mbed_official	22:dbd009839d5e	986	// the unique ID is at offset 0xFA
mbed_official	22:dbd009839d5e	987	tmp[0] = 0xFA;
mbed_official	22:dbd009839d5e	988	if (i2c_write(&i2cObj, EEPROM_24AA02E48_ADDR, tmp, 1, 1) != 1) {
mbed_official	22:dbd009839d5e	989	break; // failed to write
mbed_official	22:dbd009839d5e	990	}
mbed_official	22:dbd009839d5e	991
mbed_official	22:dbd009839d5e	992
mbed_official	22:dbd009839d5e	993	if (i2c_read(&i2cObj, EEPROM_24AA02E48_ADDR, tmp, 6, 1) != 6) {
mbed_official	22:dbd009839d5e	994	break; // failed to read
mbed_official	22:dbd009839d5e	995	}
mbed_official	22:dbd009839d5e	996
mbed_official	22:dbd009839d5e	997	memcpy(_macAddr, tmp, 6);
mbed_official	22:dbd009839d5e	998
mbed_official	22:dbd009839d5e	999	} while(0);
mbed_official	22:dbd009839d5e	1000
mbed_official	22:dbd009839d5e	1001	// We always consider the MAC address to be retrieved even though
mbed_official	22:dbd009839d5e	1002	// reading from the eeprom failed. If it wasn't possible to read
mbed_official	22:dbd009839d5e	1003	// from eeprom the default address will be used.
mbed_official	22:dbd009839d5e	1004	_macRetrieved = 1;
mbed_official	22:dbd009839d5e	1005	}
mbed_official	22:dbd009839d5e	1006
mbed_official	22:dbd009839d5e	1007	memcpy(mac, _macAddr, 6);
mbed_official	22:dbd009839d5e	1008	}

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Type:	Library
Created:	05 Sep 2014
Imports:	4
Forks:	0
Commits:	309
Dependents:	0
Dependencies:	0
Followers:	1

targets/hal/TARGET_NXP/TARGET_LPC408X/ethernet_api.c@250:a49055e7a707, 2014-07-08 (annotated)

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