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[/] [openrisc/] [trunk/] [rtos/] [freertos-6.1.1/] [Demo/] [uIP_Demo_Rowley_ARM7/] [uip/] [cs8900a.c] - Rev 831
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// cs8900a.c: device driver for the CS8900a chip in 8-bit mode. #include <LPC210x.h> #include "cs8900a.h" #include "uip.h" #include "uip_arp.h" #define IOR (1<<12) // CS8900's ISA-bus interface pins #define IOW (1<<13) // definitions for Crystal CS8900 ethernet-controller // based on linux-header by Russel Nelson #define PP_ChipID 0x0000 // offset 0h -> Corp-ID // offset 2h -> Model/Product Number #define LED_RED (1<<8) #define LED_GREEN (1<<10) #define LED_YELLOW (1<<11) #define PP_ISAIOB 0x0020 // IO base address #define PP_CS8900_ISAINT 0x0022 // ISA interrupt select #define PP_CS8900_ISADMA 0x0024 // ISA Rec DMA channel #define PP_ISASOF 0x0026 // ISA DMA offset #define PP_DmaFrameCnt 0x0028 // ISA DMA Frame count #define PP_DmaByteCnt 0x002A // ISA DMA Byte count #define PP_CS8900_ISAMemB 0x002C // Memory base #define PP_ISABootBase 0x0030 // Boot Prom base #define PP_ISABootMask 0x0034 // Boot Prom Mask // EEPROM data and command registers #define PP_EECMD 0x0040 // NVR Interface Command register #define PP_EEData 0x0042 // NVR Interface Data Register // Configuration and control registers #define PP_RxCFG 0x0102 // Rx Bus config #define PP_RxCTL 0x0104 // Receive Control Register #define PP_TxCFG 0x0106 // Transmit Config Register #define PP_TxCMD 0x0108 // Transmit Command Register #define PP_BufCFG 0x010A // Bus configuration Register #define PP_LineCTL 0x0112 // Line Config Register #define PP_SelfCTL 0x0114 // Self Command Register #define PP_BusCTL 0x0116 // ISA bus control Register #define PP_TestCTL 0x0118 // Test Register // Status and Event Registers #define PP_ISQ 0x0120 // Interrupt Status #define PP_RxEvent 0x0124 // Rx Event Register #define PP_TxEvent 0x0128 // Tx Event Register #define PP_BufEvent 0x012C // Bus Event Register #define PP_RxMiss 0x0130 // Receive Miss Count #define PP_TxCol 0x0132 // Transmit Collision Count #define PP_LineST 0x0134 // Line State Register #define PP_SelfST 0x0136 // Self State register #define PP_BusST 0x0138 // Bus Status #define PP_TDR 0x013C // Time Domain Reflectometry // Initiate Transmit Registers #define PP_TxCommand 0x0144 // Tx Command #define PP_TxLength 0x0146 // Tx Length // Adress Filter Registers #define PP_LAF 0x0150 // Hash Table #define PP_IA 0x0158 // Physical Address Register // Frame Location #define PP_RxStatus 0x0400 // Receive start of frame #define PP_RxLength 0x0402 // Receive Length of frame #define PP_RxFrame 0x0404 // Receive frame pointer #define PP_TxFrame 0x0A00 // Transmit frame pointer // Primary I/O Base Address. If no I/O base is supplied by the user, then this // can be used as the default I/O base to access the PacketPage Area. #define DEFAULTIOBASE 0x0300 // PP_RxCFG - Receive Configuration and Interrupt Mask bit definition - Read/write #define SKIP_1 0x0040 #define RX_STREAM_ENBL 0x0080 #define RX_OK_ENBL 0x0100 #define RX_DMA_ONLY 0x0200 #define AUTO_RX_DMA 0x0400 #define BUFFER_CRC 0x0800 #define RX_CRC_ERROR_ENBL 0x1000 #define RX_RUNT_ENBL 0x2000 #define RX_EXTRA_DATA_ENBL 0x4000 // PP_RxCTL - Receive Control bit definition - Read/write #define RX_IA_HASH_ACCEPT 0x0040 #define RX_PROM_ACCEPT 0x0080 #define RX_OK_ACCEPT 0x0100 #define RX_MULTCAST_ACCEPT 0x0200 #define RX_IA_ACCEPT 0x0400 #define RX_BROADCAST_ACCEPT 0x0800 #define RX_BAD_CRC_ACCEPT 0x1000 #define RX_RUNT_ACCEPT 0x2000 #define RX_EXTRA_DATA_ACCEPT 0x4000 // PP_TxCFG - Transmit Configuration Interrupt Mask bit definition - Read/write #define TX_LOST_CRS_ENBL 0x0040 #define TX_SQE_ERROR_ENBL 0x0080 #define TX_OK_ENBL 0x0100 #define TX_LATE_COL_ENBL 0x0200 #define TX_JBR_ENBL 0x0400 #define TX_ANY_COL_ENBL 0x0800 #define TX_16_COL_ENBL 0x8000 // PP_TxCMD - Transmit Command bit definition - Read-only and // PP_TxCommand - Write-only #define TX_START_5_BYTES 0x0000 #define TX_START_381_BYTES 0x0040 #define TX_START_1021_BYTES 0x0080 #define TX_START_ALL_BYTES 0x00C0 #define TX_FORCE 0x0100 #define TX_ONE_COL 0x0200 #define TX_NO_CRC 0x1000 #define TX_RUNT 0x2000 // PP_BufCFG - Buffer Configuration Interrupt Mask bit definition - Read/write #define GENERATE_SW_INTERRUPT 0x0040 #define RX_DMA_ENBL 0x0080 #define READY_FOR_TX_ENBL 0x0100 #define TX_UNDERRUN_ENBL 0x0200 #define RX_MISS_ENBL 0x0400 #define RX_128_BYTE_ENBL 0x0800 #define TX_COL_COUNT_OVRFLOW_ENBL 0x1000 #define RX_MISS_COUNT_OVRFLOW_ENBL 0x2000 #define RX_DEST_MATCH_ENBL 0x8000 // PP_LineCTL - Line Control bit definition - Read/write #define SERIAL_RX_ON 0x0040 #define SERIAL_TX_ON 0x0080 #define AUI_ONLY 0x0100 #define AUTO_AUI_10BASET 0x0200 #define MODIFIED_BACKOFF 0x0800 #define NO_AUTO_POLARITY 0x1000 #define TWO_PART_DEFDIS 0x2000 #define LOW_RX_SQUELCH 0x4000 // PP_SelfCTL - Software Self Control bit definition - Read/write #define POWER_ON_RESET 0x0040 #define SW_STOP 0x0100 #define SLEEP_ON 0x0200 #define AUTO_WAKEUP 0x0400 #define HCB0_ENBL 0x1000 #define HCB1_ENBL 0x2000 #define HCB0 0x4000 #define HCB1 0x8000 // PP_BusCTL - ISA Bus Control bit definition - Read/write #define RESET_RX_DMA 0x0040 #define MEMORY_ON 0x0400 #define DMA_BURST_MODE 0x0800 #define IO_CHANNEL_READY_ON 0x1000 #define RX_DMA_SIZE_64K 0x2000 #define ENABLE_IRQ 0x8000 // PP_TestCTL - Test Control bit definition - Read/write #define LINK_OFF 0x0080 #define ENDEC_LOOPBACK 0x0200 #define AUI_LOOPBACK 0x0400 #define BACKOFF_OFF 0x0800 #define FDX_8900 0x4000 // PP_RxEvent - Receive Event Bit definition - Read-only #define RX_IA_HASHED 0x0040 #define RX_DRIBBLE 0x0080 #define RX_OK 0x0100 #define RX_HASHED 0x0200 #define RX_IA 0x0400 #define RX_BROADCAST 0x0800 #define RX_CRC_ERROR 0x1000 #define RX_RUNT 0x2000 #define RX_EXTRA_DATA 0x4000 #define HASH_INDEX_MASK 0xFC00 // Hash-Table Index Mask (6 Bit) // PP_TxEvent - Transmit Event Bit definition - Read-only #define TX_LOST_CRS 0x0040 #define TX_SQE_ERROR 0x0080 #define TX_OK 0x0100 #define TX_LATE_COL 0x0200 #define TX_JBR 0x0400 #define TX_16_COL 0x8000 #define TX_COL_COUNT_MASK 0x7800 // PP_BufEvent - Buffer Event Bit definition - Read-only #define SW_INTERRUPT 0x0040 #define RX_DMA 0x0080 #define READY_FOR_TX 0x0100 #define TX_UNDERRUN 0x0200 #define RX_MISS 0x0400 #define RX_128_BYTE 0x0800 #define TX_COL_OVRFLW 0x1000 #define RX_MISS_OVRFLW 0x2000 #define RX_DEST_MATCH 0x8000 // PP_LineST - Ethernet Line Status bit definition - Read-only #define LINK_OK 0x0080 #define AUI_ON 0x0100 #define TENBASET_ON 0x0200 #define POLARITY_OK 0x1000 #define CRS_OK 0x4000 // PP_SelfST - Chip Software Status bit definition #define ACTIVE_33V 0x0040 #define INIT_DONE 0x0080 #define SI_BUSY 0x0100 #define EEPROM_PRESENT 0x0200 #define EEPROM_OK 0x0400 #define EL_PRESENT 0x0800 #define EE_SIZE_64 0x1000 // PP_BusST - ISA Bus Status bit definition #define TX_BID_ERROR 0x0080 #define READY_FOR_TX_NOW 0x0100 // The following block defines the ISQ event types #define ISQ_RX_EVENT 0x0004 #define ISQ_TX_EVENT 0x0008 #define ISQ_BUFFER_EVENT 0x000C #define ISQ_RX_MISS_EVENT 0x0010 #define ISQ_TX_COL_EVENT 0x0012 #define ISQ_EVENT_MASK 0x003F // ISQ mask to find out type of event // Ports for I/O-Mode #define RX_FRAME_PORT 0x0000 #define TX_FRAME_PORT 0x0000 #define TX_CMD_PORT 0x0004 #define TX_LEN_PORT 0x0006 #define ISQ_PORT 0x0008 #define ADD_PORT 0x000A #define DATA_PORT 0x000C #define AUTOINCREMENT 0x8000 // Bit mask to set Bit-15 for autoincrement // EEProm Commands #define EEPROM_WRITE_EN 0x00F0 #define EEPROM_WRITE_DIS 0x0000 #define EEPROM_WRITE_CMD 0x0100 #define EEPROM_READ_CMD 0x0200 // Receive Header of each packet in receive area of memory for DMA-Mode #define RBUF_EVENT_LOW 0x0000 // Low byte of RxEvent #define RBUF_EVENT_HIGH 0x0001 // High byte of RxEvent #define RBUF_LEN_LOW 0x0002 // Length of received data - low byte #define RBUF_LEN_HI 0x0003 // Length of received data - high byte #define RBUF_HEAD_LEN 0x0004 // Length of this header // typedefs typedef struct { // struct to store CS8900's unsigned int Addr; // init-sequence unsigned int Data; } TInitSeq; unsigned short ticks; static void skip_frame(void); const TInitSeq InitSeq[] = { PP_IA, UIP_ETHADDR0 + (UIP_ETHADDR1 << 8), // set our MAC as Individual Address PP_IA + 2, UIP_ETHADDR2 + (UIP_ETHADDR3 << 8), PP_IA + 4, UIP_ETHADDR4 + (UIP_ETHADDR5 << 8), PP_LineCTL, SERIAL_RX_ON | SERIAL_TX_ON, // configure the Physical Interface PP_RxCTL, RX_OK_ACCEPT | RX_IA_ACCEPT | RX_BROADCAST_ACCEPT }; // Writes a word in little-endian byte order to a specified port-address void cs8900a_write(unsigned addr, unsigned int data) { GPIO_IODIR |= 0xff << 16; // Data port to output GPIO_IOCLR = 0xf << 4; // Put address on bus GPIO_IOSET = addr << 4; GPIO_IOCLR = 0xff << 16; // Write low order byte to data bus GPIO_IOSET = data << 16; asm volatile ( "NOP" ); GPIO_IOCLR = IOW; // Toggle IOW-signal asm volatile ( "NOP" ); GPIO_IOSET = IOW; asm volatile ( "NOP" ); GPIO_IOCLR = 0xf << 4; GPIO_IOSET = ((addr | 1) << 4); // And put next address on bus GPIO_IOCLR = 0xff << 16; // Write high order byte to data bus GPIO_IOSET = data >> 8 << 16; asm volatile ( "NOP" ); GPIO_IOCLR = IOW; // Toggle IOW-signal asm volatile ( "NOP" ); GPIO_IOSET = IOW; asm volatile ( "NOP" ); } // Reads a word in little-endian byte order from a specified port-address unsigned cs8900a_read(unsigned addr) { unsigned int value; GPIO_IODIR &= ~(0xff << 16); // Data port to input GPIO_IOCLR = 0xf << 4; // Put address on bus GPIO_IOSET = addr << 4; asm volatile ( "NOP" ); GPIO_IOCLR = IOR; // IOR-signal low asm volatile ( "NOP" ); value = (GPIO_IOPIN >> 16) & 0xff; // get low order byte from data bus GPIO_IOSET = IOR; GPIO_IOSET = 1 << 4; // IOR high and put next address on bus asm volatile ( "NOP" ); GPIO_IOCLR = IOR; // IOR-signal low asm volatile ( "NOP" ); value |= ((GPIO_IOPIN >> 8) & 0xff00); // get high order byte from data bus GPIO_IOSET = IOR; // IOR-signal low return value; } // Reads a word in little-endian byte order from a specified port-address unsigned cs8900a_read_addr_high_first(unsigned addr) { unsigned int value; GPIO_IODIR &= ~(0xff << 16); // Data port to input GPIO_IOCLR = 0xf << 4; // Put address on bus GPIO_IOSET = (addr+1) << 4; asm volatile ( "NOP" ); GPIO_IOCLR = IOR; // IOR-signal low asm volatile ( "NOP" ); value = ((GPIO_IOPIN >> 8) & 0xff00); // get high order byte from data bus GPIO_IOSET = IOR; // IOR-signal high GPIO_IOCLR = 1 << 4; // Put low address on bus asm volatile ( "NOP" ); GPIO_IOCLR = IOR; // IOR-signal low asm volatile ( "NOP" ); value |= (GPIO_IOPIN >> 16) & 0xff; // get low order byte from data bus GPIO_IOSET = IOR; return value; } void cs8900a_init(void) { int i; // Reset outputs, control lines high GPIO_IOSET = IOR | IOW; // No LEDs on. GPIO_IOSET = LED_RED | LED_YELLOW | LED_GREEN; // Port 3 as output (all pins but RS232) GPIO_IODIR = ~0U; // everything to output. // Reset outputs GPIO_IOCLR = 0xff << 16; // clear data outputs // Reset the CS8900A cs8900a_write(ADD_PORT, PP_SelfCTL); cs8900a_write(DATA_PORT, POWER_ON_RESET); // Wait until chip-reset is done cs8900a_write(ADD_PORT, PP_SelfST); while ((cs8900a_read(DATA_PORT) & INIT_DONE) == 0) ; // Configure the CS8900A for (i = 0; i < sizeof InitSeq / sizeof (TInitSeq); ++i) { cs8900a_write(ADD_PORT, InitSeq[i].Addr); cs8900a_write(DATA_PORT, InitSeq[i].Data); } } void cs8900a_send(void) { unsigned u; GPIO_IOCLR = LED_RED; // Light RED LED when frame starting // Transmit command cs8900a_write(TX_CMD_PORT, TX_START_ALL_BYTES); cs8900a_write(TX_LEN_PORT, uip_len); // Maximum number of retries u = 8; for (;;) { // Check for avaliable buffer space cs8900a_write(ADD_PORT, PP_BusST); if (cs8900a_read(DATA_PORT) & READY_FOR_TX_NOW) break; if (u -- == 0) { GPIO_IOSET = LED_RED; // Extinguish RED LED on end of frame return; } // No space avaliable, skip a received frame and try again skip_frame(); } GPIO_IODIR |= 0xff << 16; // Data port to output // Send 40+14=54 bytes of header for (u = 0; u < 54; u += 2) { GPIO_IOCLR = 0xf << 4; // Put address on bus GPIO_IOSET = TX_FRAME_PORT << 4; GPIO_IOCLR = 0xff << 16; // Write low order byte to data bus GPIO_IOSET = uip_buf[u] << 16; // write low order byte to data bus asm volatile ( "NOP" ); GPIO_IOCLR = IOW; // Toggle IOW-signal asm volatile ( "NOP" ); GPIO_IOSET = IOW; GPIO_IOCLR = 0xf << 4; // Put address on bus GPIO_IOSET = (TX_FRAME_PORT | 1) << 4; // and put next address on bus GPIO_IOCLR = 0xff << 16; // Write low order byte to data bus GPIO_IOSET = uip_buf[u+1] << 16; // write low order byte to data bus asm volatile ( "NOP" ); GPIO_IOCLR = IOW; // Toggle IOW-signal asm volatile ( "NOP" ); GPIO_IOSET = IOW; } if (uip_len <= 54) { GPIO_IOSET = LED_RED; // Extinguish RED LED on end of frame return; } // Send remainder of packet, the application data uip_len -= 54; for (u = 0; u < uip_len; u += 2) { GPIO_IOCLR = 0xf << 4; // Put address on bus GPIO_IOSET = TX_FRAME_PORT << 4; GPIO_IOCLR = 0xff << 16; // Write low order byte to data bus GPIO_IOSET = uip_appdata[u] << 16; // write low order byte to data bus asm volatile ( "NOP" ); GPIO_IOCLR = IOW; // Toggle IOW-signal asm volatile ( "NOP" ); GPIO_IOSET = IOW; GPIO_IOCLR = 0xf << 4; // Put address on bus GPIO_IOSET = (TX_FRAME_PORT | 1) << 4; // and put next address on bus GPIO_IOCLR = 0xff << 16; // Write low order byte to data bus GPIO_IOSET = uip_appdata[u+1] << 16; // write low order byte to data bus asm volatile ( "NOP" ); GPIO_IOCLR = IOW; // Toggle IOW-signal asm volatile ( "NOP" ); GPIO_IOSET = IOW; } GPIO_IOSET = LED_RED; // Extinguish RED LED on end of frame } static void skip_frame(void) { // No space avaliable, skip a received frame and try again cs8900a_write(ADD_PORT, PP_RxCFG); cs8900a_write(DATA_PORT, cs8900a_read(DATA_PORT) | SKIP_1); } u8_t cs8900a_poll(void) { u16_t len, u; // Check receiver event register to see if there are any valid frames avaliable cs8900a_write(ADD_PORT, PP_RxEvent); if ((cs8900a_read(DATA_PORT) & 0xd00) == 0) return 0; GPIO_IOCLR = LED_GREEN; // Light GREED LED when frame coming in. // Read receiver status and discard it. cs8900a_read_addr_high_first(RX_FRAME_PORT); // Read frame length len = cs8900a_read_addr_high_first(RX_FRAME_PORT); // If the frame is too big to handle, throw it away if (len > UIP_BUFSIZE) { skip_frame(); return 0; } // Data port to input GPIO_IODIR &= ~(0xff << 16); GPIO_IOCLR = 0xf << 4; // put address on bus GPIO_IOSET = RX_FRAME_PORT << 4; // Read bytes into uip_buf u = 0; while (u < len) { GPIO_IOCLR = 1 << 4; // put address on bus GPIO_IOCLR = IOR; // IOR-signal low uip_buf[u] = GPIO_IOPIN >> 16; // get high order byte from data bus asm volatile ( "NOP" ); GPIO_IOSET = IOR; // IOR-signal high GPIO_IOSET = 1 << 4; // put address on bus GPIO_IOCLR = IOR; // IOR-signal low asm volatile ( "NOP" ); uip_buf[u+1] = GPIO_IOPIN >> 16; // get high order byte from data bus GPIO_IOSET = IOR; // IOR-signal high u += 2; } GPIO_IOSET = LED_GREEN; // Extinguish GREED LED when frame finished. return len; }
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