#include "../../backend/board.h"
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#include <board.h>
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#include "../support/support.h"
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#include <support.h>
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#include "eth.h"
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#include "eth.h"
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int eth_tx_done;
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int eth_tx_done;
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int eth_rx_done;
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int eth_rx_done;
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int eth_rx_len;
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int eth_rx_len;
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unsigned char eth_tx_packet[1536]; //max length
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unsigned char eth_tx_packet[1536]; //max length
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unsigned char eth_rx_packet[1536];
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unsigned char eth_rx_packet[1536];
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unsigned char * eth_tx_data;
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unsigned char * eth_tx_data;
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unsigned char * eth_rx_data;
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unsigned char * eth_rx_data;
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void eth_recv_ack(void)
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void eth_recv_ack(void)
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{
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{
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eth_rx_done = 0;
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eth_rx_done = 0;
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eth_rx_len = 0;
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eth_rx_len = 0;
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//accept further data (reset RXBD to empty)
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//accept further data (reset RXBD to empty)
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REG32(ETH_BASE + ETH_RXBD0L) = RX_READY; //len = 0 | IRQ & WR = 1 | EMPTY = 1
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REG32(ETH_BASE + ETH_RXBD0L) = RX_READY; //len = 0 | IRQ & WR = 1 | EMPTY = 1
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}
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}
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void eth_init()
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void eth_init()
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{
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{
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//TXEN & RXEN = 1; PAD & CRC = 1; FULLD = 1
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//TXEN & RXEN = 1; PAD & CRC = 1; FULLD = 1
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REG32(ETH_BASE + ETH_MODER) = ETH_TXEN | ETH_RXEN | ETH_PAD | ETH_CRCEN | ETH_FULLD;
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REG32(ETH_BASE + ETH_MODER) = ETH_TXEN | ETH_RXEN | ETH_PAD | ETH_CRCEN | ETH_FULLD;
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//PHY Address = 0x001
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//PHY Address = 0x001
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REG32(ETH_BASE + ETH_MIIADDRESS) = 0x00000001;
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REG32(ETH_BASE + ETH_MIIADDRESS) = 0x00000001;
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//enable all interrupts
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//enable all interrupts
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REG32(ETH_BASE + ETH_INT_MASK) = ETH_RXB | ETH_TXB;
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REG32(ETH_BASE + ETH_INT_MASK) = ETH_RXB | ETH_TXB;
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//set MAC ADDRESS
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//set MAC ADDRESS
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REG32(ETH_BASE + ETH_MAC_ADDR1) = (OWN_MAC_ADDRESS_5 << 8) | OWN_MAC_ADDRESS_4; //low word = mac address high word
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REG32(ETH_BASE + ETH_MAC_ADDR1) = (OWN_MAC_ADDRESS_5 << 8) | OWN_MAC_ADDRESS_4; //low word = mac address high word
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REG32(ETH_BASE + ETH_MAC_ADDR0) = (OWN_MAC_ADDRESS_3 << 24) | (OWN_MAC_ADDRESS_2 << 16)
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REG32(ETH_BASE + ETH_MAC_ADDR0) = (OWN_MAC_ADDRESS_3 << 24) | (OWN_MAC_ADDRESS_2 << 16)
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| (OWN_MAC_ADDRESS_1 << 8) | OWN_MAC_ADDRESS_0; //mac address rest
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| (OWN_MAC_ADDRESS_1 << 8) | OWN_MAC_ADDRESS_0; //mac address rest
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//configure TXBD0
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//configure TXBD0
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REG32(ETH_BASE + ETH_TXBD0H) = (unsigned long)eth_tx_packet; //address used for tx_data
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REG32(ETH_BASE + ETH_TXBD0H) = (unsigned long)eth_tx_packet; //address used for tx_data
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REG32(ETH_BASE + ETH_TXBD0L) = TX_READY; //length = 0 | PAD & CRC = 1 | IRQ & WR = 1
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REG32(ETH_BASE + ETH_TXBD0L) = TX_READY; //length = 0 | PAD & CRC = 1 | IRQ & WR = 1
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//configure RXBD0
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//configure RXBD0
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REG32(ETH_BASE + ETH_RXBD0H) = (unsigned long)eth_rx_packet; //address used for tx_data
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REG32(ETH_BASE + ETH_RXBD0H) = (unsigned long)eth_rx_packet; //address used for tx_data
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REG32(ETH_BASE + ETH_RXBD0L) = RX_READY; //len = 0 | IRQ & WR = 1 | EMPTY = 1
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REG32(ETH_BASE + ETH_RXBD0L) = RX_READY; //len = 0 | IRQ & WR = 1 | EMPTY = 1
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//set txdata
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//set txdata
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eth_tx_packet[0] = BROADCAST_ADDRESS_5;
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eth_tx_packet[0] = BROADCAST_ADDRESS_5;
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eth_tx_packet[1] = BROADCAST_ADDRESS_4;
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eth_tx_packet[1] = BROADCAST_ADDRESS_4;
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eth_tx_packet[2] = BROADCAST_ADDRESS_3;
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eth_tx_packet[2] = BROADCAST_ADDRESS_3;
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eth_tx_packet[3] = BROADCAST_ADDRESS_2;
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eth_tx_packet[3] = BROADCAST_ADDRESS_2;
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eth_tx_packet[4] = BROADCAST_ADDRESS_1;
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eth_tx_packet[4] = BROADCAST_ADDRESS_1;
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eth_tx_packet[5] = BROADCAST_ADDRESS_0;
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eth_tx_packet[5] = BROADCAST_ADDRESS_0;
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eth_tx_packet[6] = OWN_MAC_ADDRESS_5;
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eth_tx_packet[6] = OWN_MAC_ADDRESS_5;
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eth_tx_packet[7] = OWN_MAC_ADDRESS_4;
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eth_tx_packet[7] = OWN_MAC_ADDRESS_4;
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eth_tx_packet[8] = OWN_MAC_ADDRESS_3;
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eth_tx_packet[8] = OWN_MAC_ADDRESS_3;
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eth_tx_packet[9] = OWN_MAC_ADDRESS_2;
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eth_tx_packet[9] = OWN_MAC_ADDRESS_2;
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eth_tx_packet[10] = OWN_MAC_ADDRESS_1;
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eth_tx_packet[10] = OWN_MAC_ADDRESS_1;
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eth_tx_packet[11] = OWN_MAC_ADDRESS_0;
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eth_tx_packet[11] = OWN_MAC_ADDRESS_0;
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//erase interrupts
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//erase interrupts
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REG32(ETH_BASE + ETH_INT_SOURCE) = ETH_RXC | ETH_TXC | ETH_BUSY | ETH_RXE | ETH_RXB | ETH_TXE | ETH_TXB;
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REG32(ETH_BASE + ETH_INT_SOURCE) = ETH_RXC | ETH_TXC | ETH_BUSY | ETH_RXE | ETH_RXB | ETH_TXE | ETH_TXB;
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eth_tx_done = 1;
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eth_tx_done = 1;
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eth_rx_done = 0;
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eth_rx_done = 0;
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eth_rx_len = 0;
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eth_rx_len = 0;
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eth_tx_data = ð_tx_packet[HDR_LEN];
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eth_tx_data = ð_tx_packet[HDR_LEN];
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eth_rx_data = ð_rx_packet[HDR_LEN];
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eth_rx_data = ð_rx_packet[HDR_LEN];
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}
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}
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int eth_send(int length)
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int eth_send(int length)
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{
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{
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if (!eth_tx_done) //if previous command not fully processed, bail out
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if (!eth_tx_done) //if previous command not fully processed, bail out
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return -1;
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return -1;
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int i;
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eth_tx_done = 0;
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eth_tx_done = 0;
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eth_tx_packet[12] = length >> 8;
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eth_tx_packet[12] = length >> 8;
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eth_tx_packet[13] = length;
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eth_tx_packet[13] = length;
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REG32(ETH_BASE + ETH_TXBD0L) = (( 0x0000FFFF & ( length + HDR_LEN ) ) << 16) | BD_SND;
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REG32(ETH_BASE + ETH_TXBD0L) = (( 0x0000FFFF & ( length + HDR_LEN ) ) << 16) | BD_SND;
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return length;
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return length;
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}
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}
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void eth_interrupt()
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void eth_interrupt()
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{
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{
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unsigned long source = REG32(ETH_BASE + ETH_INT_SOURCE);
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unsigned long source = REG32(ETH_BASE + ETH_INT_SOURCE);
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if ( source & ETH_TXB )
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if ( source & ETH_TXB )
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{
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{
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eth_tx_done = 1;
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eth_tx_done = 1;
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//erase interrupt
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//erase interrupt
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REG32(ETH_BASE + ETH_INT_SOURCE) |= ETH_TXB;
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REG32(ETH_BASE + ETH_INT_SOURCE) |= ETH_TXB;
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}
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}
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if ( source & ETH_RXB )
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if ( source & ETH_RXB )
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{
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{
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eth_rx_done = 1;
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eth_rx_done = 1;
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eth_rx_len = (REG32(ETH_BASE + ETH_RXBD0L) >> 16) - HDR_LEN - CRC_LEN;
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eth_rx_len = (REG32(ETH_BASE + ETH_RXBD0L) >> 16) - HDR_LEN - CRC_LEN;
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//erase interrupt
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//erase interrupt
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REG32(ETH_BASE + ETH_INT_SOURCE) |= ETH_RXB;
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REG32(ETH_BASE + ETH_INT_SOURCE) |= ETH_RXB;
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}
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}
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}
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}
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