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URL https://opencores.org/ocsvn/ha1588/ha1588/trunk

Subversion Repositories ha1588

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  • This comparison shows the changes necessary to convert path 
    /ha1588/trunk/sim/top
    from Rev 37 to Rev 38
    Reverse comparison
  •

Rev 37 → Rev 38

/ptp_drv_bfm/ptp_drv_bfm.c
1,5 → 1,5
/*
* $ptp_drv_bfm.c
* ptp_drv_bfm.c
*
* Copyright (c) 2012, BABY&HW. All rights reserved.
*
25,42 → 25,44
#include "../dpiheader.h"
 
// define RTC address values
#define RTC_CTRL 0x00000000
#define RTC_NULL_0x4 0x00000004
#define RTC_NULL_0x8 0x00000008
#define RTC_NULL_0xC 0x0000000C
#define RTC_TIME_SEC_H_LOAD 0x00000010
#define RTC_TIME_SEC_L_LOAD 0x00000014
#define RTC_TIME_NSC_H_LOAD 0x00000018
#define RTC_TIME_NSC_L_LOAD 0x0000001C
#define RTC_PERIOD_H_LOAD 0x00000020
#define RTC_PERIOD_L_LOAD 0x00000024
#define RTC_ACCMOD_H_LOAD 0x00000028
#define RTC_ACCMOD_L_LOAD 0x0000002C
#define RTC_ADJNUM_LOAD 0x00000030
#define RTC_NULL_0x34 0x00000034
#define RTC_ADJPER_H_LOAD 0x00000038
#define RTC_ADJPER_L_LOAD 0x0000003C
#define RTC_TIME_SEC_H_READ 0x00000040
#define RTC_TIME_SEC_L_READ 0x00000044
#define RTC_TIME_NSC_H_READ 0x00000048
#define RTC_TIME_NSC_L_READ 0x0000004C
#define RTC_CTRL 0x00000000
#define RTC_NULL_0x4 0x00000004
#define RTC_NULL_0x8 0x00000008
#define RTC_NULL_0xC 0x0000000C
#define RTC_TIME_SEC_H 0x00000010
#define RTC_TIME_SEC_L 0x00000014
#define RTC_TIME_NSC_H 0x00000018
#define RTC_TIME_NSC_L 0x0000001C
#define RTC_PERIOD_H 0x00000020
#define RTC_PERIOD_L 0x00000024
#define RTC_ADJPER_H 0x00000028
#define RTC_ADJPER_L 0x0000002C
#define RTC_ADJNUM 0x00000030
#define RTC_NULL_0x34 0x00000034
#define RTC_NULL_0x38 0x00000038
#define RTC_NULL_0x3C 0x0000003C
// define RTC control values
#define RTC_SET_CTRL_0 0x00
#define RTC_GET_TIME 0x01
#define RTC_SET_ADJ 0x02
#define RTC_SET_PERIOD 0x04
#define RTC_SET_TIME 0x08
#define RTC_SET_RESET 0x10
// define RTC data values
#define RTC_SET_CTRL_0 0x0
#define RTC_GET_TIME 0x1
#define RTC_SET_ADJ 0x2
#define RTC_SET_PERIOD 0x4
#define RTC_SET_TIME 0x8
#define RTC_SET_RESET 0x10
#define RTC_ACCMOD_H 0x3B9ACA00 // 1,000,000,000 for 30bit
#define RTC_ACCMOD_L 0x0 // 256 for 8bit
#define RTC_PERIOD_H 0x8 // 8ns for 125MHz rtc_clk
#define RTC_PERIOD_L 0x0
#define RTC_SET_PERIOD_H 0x8 // 8ns for 125MHz rtc_clk
#define RTC_SET_PERIOD_L 0x0
// define RTC constant
#define RTC_ACCMOD_H 0x3B9ACA00 // 1,000,000,000 for 30bit
#define RTC_ACCMOD_L 0x0 // 256 for 8bit
 
// define TSU address values
#define TSU_CTRL 0x00000050
#define TSU_RXQUE_STATUS 0x00000054
#define TSU_TXQUE_STATUS 0x00000058
#define TSU_CTRL 0x00000040
#define TSU_RXQUE_STATUS 0x00000044
#define TSU_TXQUE_STATUS 0x00000048
#define TSU_NULL_0x4C 0x0000004C
#define TSU_NULL_0x50 0x00000050
#define TSU_NULL_0x54 0x00000054
#define TSU_NULL_0x58 0x00000058
#define TSU_NULL_0x5C 0x0000005C
#define TSU_RXQUE_DATA_HH 0x00000060
#define TSU_RXQUE_DATA_HL 0x00000064
70,12 → 72,12
#define TSU_TXQUE_DATA_HL 0x00000074
#define TSU_TXQUE_DATA_LH 0x00000078
#define TSU_TXQUE_DATA_LL 0x0000007C
// define TSU data values
#define TSU_SET_CTRL_0 0x0
#define TSU_GET_TXQUE 0x1
#define TSU_GET_RXQUE 0x4
#define TSU_SET_RXRST 0x8
#define TSU_SET_TXRST 0x2
// define TSU control values
#define TSU_SET_CTRL_0 0x00
#define TSU_GET_TXQUE 0x01
#define TSU_SET_TXRST 0x02
#define TSU_GET_RXQUE 0x04
#define TSU_SET_RXRST 0x08
 
int ptp_drv_bfm_c(double fw_delay)
{
83,23 → 85,15
unsigned int cpu_data_i;
unsigned int cpu_data_o;
 
// LOAD RTC PERIOD AND ACC_MODULO
cpu_addr_i = RTC_PERIOD_H_LOAD;
cpu_data_i = RTC_PERIOD_H;
// LOAD RTC PERIOD
cpu_addr_i = RTC_PERIOD_H;
cpu_data_i = RTC_SET_PERIOD_H;
cpu_wr(cpu_addr_i, cpu_data_i);
 
cpu_addr_i = RTC_PERIOD_L_LOAD;
cpu_data_i = RTC_PERIOD_L;
cpu_addr_i = RTC_PERIOD_L;
cpu_data_i = RTC_SET_PERIOD_L;
cpu_wr(cpu_addr_i, cpu_data_i);
 
cpu_addr_i = RTC_ACCMOD_H_LOAD;
cpu_data_i = RTC_ACCMOD_H;
cpu_wr(cpu_addr_i, cpu_data_i);
 
cpu_addr_i = RTC_ACCMOD_L_LOAD;
cpu_data_i = RTC_ACCMOD_L;
cpu_wr(cpu_addr_i, cpu_data_i);
 
cpu_addr_i = RTC_CTRL;
cpu_data_i = RTC_SET_CTRL_0;
cpu_wr(cpu_addr_i, cpu_data_i);
129,39 → 123,39
do {
cpu_addr_i = RTC_CTRL;
cpu_rd(cpu_addr_i, &cpu_data_o);
//printf("%08x\n", (cpu_data_o & 0x1));
//printf("%08x\n", cpu_data_o);
} while ((cpu_data_o & RTC_GET_TIME) == 0x0);
 
cpu_addr_i = RTC_TIME_SEC_H_READ;
cpu_addr_i = RTC_TIME_SEC_H;
cpu_rd(cpu_addr_i, &cpu_data_o);
printf("\ntime: \n%08x\n", cpu_data_o);
 
cpu_addr_i = RTC_TIME_SEC_L_READ;
cpu_addr_i = RTC_TIME_SEC_L;
cpu_rd(cpu_addr_i, &cpu_data_o);
printf("%08x\n", cpu_data_o);
 
cpu_addr_i = RTC_TIME_NSC_H_READ;
cpu_addr_i = RTC_TIME_NSC_H;
cpu_rd(cpu_addr_i, &cpu_data_o);
printf("%08x\n", cpu_data_o);
 
cpu_addr_i = RTC_TIME_NSC_L_READ;
cpu_addr_i = RTC_TIME_NSC_L;
cpu_rd(cpu_addr_i, &cpu_data_o);
printf("%08x\n", cpu_data_o);
 
// LOAD RTC SEC AND NS
cpu_addr_i = RTC_TIME_SEC_H_LOAD;
cpu_addr_i = RTC_TIME_SEC_H;
cpu_data_i = 0x0;
cpu_wr(cpu_addr_i, cpu_data_i);
 
cpu_addr_i = RTC_TIME_SEC_L_LOAD;
cpu_addr_i = RTC_TIME_SEC_L;
cpu_data_i = 0x1;
cpu_wr(cpu_addr_i, cpu_data_i);
 
cpu_addr_i = RTC_TIME_NSC_H_LOAD;
cpu_addr_i = RTC_TIME_NSC_H;
cpu_data_i = RTC_ACCMOD_H - 0xA;
cpu_wr(cpu_addr_i, cpu_data_i);
 
cpu_addr_i = RTC_TIME_NSC_L_LOAD;
cpu_addr_i = RTC_TIME_NSC_L;
cpu_data_i = 0x0;
cpu_wr(cpu_addr_i, cpu_data_i);
 
174,15 → 168,15
cpu_wr(cpu_addr_i, cpu_data_i);
 
// LOAD RTC ADJ
cpu_addr_i = RTC_ADJNUM_LOAD;
cpu_addr_i = RTC_ADJNUM;
cpu_data_i = 0x100;
cpu_wr(cpu_addr_i, cpu_data_i);
 
cpu_addr_i = RTC_ADJPER_H_LOAD;
cpu_addr_i = RTC_ADJPER_H;
cpu_data_i = 0x1;
cpu_wr(cpu_addr_i, cpu_data_i);
 
cpu_addr_i = RTC_ADJPER_L_LOAD;
cpu_addr_i = RTC_ADJPER_L;
cpu_data_i = 0x20;
cpu_wr(cpu_addr_i, cpu_data_i);
 
194,6 → 188,12
cpu_data_i = RTC_SET_ADJ;
cpu_wr(cpu_addr_i, cpu_data_i);
 
do {
cpu_addr_i = RTC_CTRL;
cpu_rd(cpu_addr_i, &cpu_data_o);
//printf("%08x\n", cpu_data_o);
} while ((cpu_data_o & RTC_SET_ADJ) == 0x0);
 
// READ RTC SEC AND NS
cpu_addr_i = RTC_CTRL;
cpu_data_i = RTC_SET_CTRL_0;
206,22 → 206,22
do {
cpu_addr_i = RTC_CTRL;
cpu_rd(cpu_addr_i, &cpu_data_o);
//printf("%08x\n", (cpu_data_o & 0x1));
//printf("%08x\n", cpu_data_o);
} while ((cpu_data_o & RTC_GET_TIME) == 0x0);
 
cpu_addr_i = RTC_TIME_SEC_H_READ;
cpu_addr_i = RTC_TIME_SEC_H;
cpu_rd(cpu_addr_i, &cpu_data_o);
printf("\ntime: \n%08x\n", cpu_data_o);
 
cpu_addr_i = RTC_TIME_SEC_L_READ;
cpu_addr_i = RTC_TIME_SEC_L;
cpu_rd(cpu_addr_i, &cpu_data_o);
printf("%08x\n", cpu_data_o);
 
cpu_addr_i = RTC_TIME_NSC_H_READ;
cpu_addr_i = RTC_TIME_NSC_H;
cpu_rd(cpu_addr_i, &cpu_data_o);
printf("%08x\n", cpu_data_o);
 
cpu_addr_i = RTC_TIME_NSC_L_READ;
cpu_addr_i = RTC_TIME_NSC_L;
cpu_rd(cpu_addr_i, &cpu_data_o);
printf("%08x\n", cpu_data_o);
 
262,7 → 262,7
do {
cpu_addr_i = TSU_CTRL;
cpu_rd(cpu_addr_i, &cpu_data_o);
//printf("%08x\n", (cpu_data_o & 0x1));
//printf("%08x\n", cpu_data_o);
} while ((cpu_data_o & TSU_GET_RXQUE) == 0x0);
 
cpu_addr_i = TSU_RXQUE_DATA_HH;
293,22 → 293,22
do {
cpu_addr_i = RTC_CTRL;
cpu_rd(cpu_addr_i, &cpu_data_o);
//printf("%08x\n", (cpu_data_o & 0x1));
//printf("%08x\n", cpu_data_o);
} while ((cpu_data_o & RTC_GET_TIME) == 0x0);
 
cpu_addr_i = RTC_TIME_SEC_H_READ;
cpu_addr_i = RTC_TIME_SEC_H;
cpu_rd(cpu_addr_i, &cpu_data_o);
printf("\ntime: \n%08x\n", cpu_data_o);
 
cpu_addr_i = RTC_TIME_SEC_L_READ;
cpu_addr_i = RTC_TIME_SEC_L;
cpu_rd(cpu_addr_i, &cpu_data_o);
printf("%08x\n", cpu_data_o);
 
cpu_addr_i = RTC_TIME_NSC_H_READ;
cpu_addr_i = RTC_TIME_NSC_H;
cpu_rd(cpu_addr_i, &cpu_data_o);
printf("%08x\n", cpu_data_o);
 
cpu_addr_i = RTC_TIME_NSC_L_READ;
cpu_addr_i = RTC_TIME_NSC_L;
cpu_rd(cpu_addr_i, &cpu_data_o);
printf("%08x\n", cpu_data_o);
}
335,7 → 335,7
do {
cpu_addr_i = TSU_CTRL;
cpu_rd(cpu_addr_i, &cpu_data_o);
//printf("%08x\n", (cpu_data_o & 0x1));
//printf("%08x\n", cpu_data_o);
} while ((cpu_data_o & TSU_GET_TXQUE) == 0x0);
 
cpu_addr_i = TSU_TXQUE_DATA_HH;
366,22 → 366,22
do {
cpu_addr_i = RTC_CTRL;
cpu_rd(cpu_addr_i, &cpu_data_o);
//printf("%08x\n", (cpu_data_o & 0x1));
//printf("%08x\n", cpu_data_o);
} while ((cpu_data_o & RTC_GET_TIME) == 0x0);
 
cpu_addr_i = RTC_TIME_SEC_H_READ;
cpu_addr_i = RTC_TIME_SEC_H;
cpu_rd(cpu_addr_i, &cpu_data_o);
printf("\ntime: \n%08x\n", cpu_data_o);
 
cpu_addr_i = RTC_TIME_SEC_L_READ;
cpu_addr_i = RTC_TIME_SEC_L;
cpu_rd(cpu_addr_i, &cpu_data_o);
printf("%08x\n", cpu_data_o);
 
cpu_addr_i = RTC_TIME_NSC_H_READ;
cpu_addr_i = RTC_TIME_NSC_H;
cpu_rd(cpu_addr_i, &cpu_data_o);
printf("%08x\n", cpu_data_o);
 
cpu_addr_i = RTC_TIME_NSC_L_READ;
cpu_addr_i = RTC_TIME_NSC_L;
cpu_rd(cpu_addr_i, &cpu_data_o);
printf("%08x\n", cpu_data_o);
}
/ptp_drv_bfm/ptp_drv_bfm.v
1,5 → 1,5
/*
* $ptp_drv_bfm.v
* ptp_drv_bfm.v
*
* Copyright (c) 2012, BABY&HW. All rights reserved.
*
/ha1588_tb.v
1,5 → 1,5
/*
* $ha1588_tb.v
* ha1588_tb.v
*
* Copyright (c) 2012, BABY&HW. All rights reserved.
*
/nic_drv_bfm/gmii_rx_bfm.v
1,5 → 1,5
/*
* $gmii_rx_bfm.v
* gmii_rx_bfm.v
*
* Copyright (c) 2012, BABY&HW. All rights reserved.
*
/nic_drv_bfm/gmii_tx_bfm.v
1,5 → 1,5
/*
* $gmii_tx_bfm.v
* gmii_tx_bfm.v
*
* Copyright (c) 2012, BABY&HW. All rights reserved.
*

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