diags/test_sata.c - barebox/mindspeed - Git at Google

 #include "tests.h"
 #include <diags.h>
 #include <common.h>
 #include <asm/io.h>
 #include <mach/comcerto-2000.h>
 #include <mach/gpio.h>
 #include <mach/clkcore.h>
 #include "common_func.h"
 #include "serdes_common.h"
 #include "sata_common.h"

 #define GPIO_BASE 0x90470000

 int Comcerto_sata0_test (void)
 {
 	U32 rd_data, ret = -1, offset;
 	int i;

  //bootstrap overwriting
    reg_wr(GPIO_BASE + 0x44,0x30000);

 //PLL programming to get different clks
   reg_wr(0x904B0004,0x0);
   reg_wr(0x904B0008,0x0);
   reg_wr(0x904B0160,0x3);
   reg_wr(0x904B0164,0x3);
   reg_wr(0x904B0174,0x6);

  // SATA, Port#0 Initialization
  // sbphy_init_wait_lane_rdy(bool forPCIE, bool forSATA, bool forSGMII, int PCIE_num, int SATA_num, bool sata_p0_gen1, bool sata_p1_gen1, bool debug)
  sbphy_init_wait_lane_rdy(false, true, false, 0, 0, false, false, false);

  // sata_oob_detect(bool both_ports, int port_num, bool port0_gen1, bool port1_gen1, bool debug)
  //sata_oob_detect(false, 0, false, false, false);

 // printf("\nStart SATA BIST Far End Retransmit Test...\n\n");
  // Set the Command-List Base Address in the Port#0 Command-List Base Address Register(P0CLB) for SATA Controller
  // printf("Set P0.CLB:Command-List Base Address on Port0\n");
  // reg_wr(P0CLB, P0_CMD_BASE);          //P0_CMD_BASE, 0x83010000

  // Set the FIS Base Address in the Port#0 FIS Base Address Register(P0FB) for SATA Controller
  // printf("Set P0.FIS:FIS Base Address in the Port0\n");
  // reg_wr(P0FIS, P0_FIS_BASE);          //P0_FIS_BASE, 0x8301A000

  // Clear all the bits for the detected Interface errors on Port0
  //printf("Clear P0.SERR\n");
  //offset = 0x130;
  //reg_wr((SATA_CFG_BASE + offset), 0xFFFFFFFF);
  reg_wr(P0SERR, 0xFFFFFFFF);

  // Configure the Port0 Command Register to Spin-Up Device, Enable FIS Receive & Start processing the command-list
  //printf("Set P0.CMD\n");
  //offset = 0x118;
  //reg_wr((SATA_CFG_BASE + offset), 0x00000013);
  reg_wr(P0CMD, 0x00000013);

  // Clear all the Interrupts in the Interrupt Status(IS) Register
  //printf("Clear IS :Clear all the Interrupts in the Interrupt Status(IS) Register\n");
  //offset = 0x008;
  //reg_wr((SATA_CFG_BASE + offset), 0xFFFFFFFF);
  reg_wr(IS, 0xFFFFFFFF);

  // Read the AHCI Enable bit set in the Global HBA Control Register(GHC)
  //offset = 0x004;
  //rd_data = reg_rd((SATA_CFG_BASE + offset));
  rd_data = reg_rd(GHC);
  //printf("GHC = 0x%x\n", rd_data);
  //printf("Set P0.GHC:Enable the IRQ in the Global HBA Control Register\n");
  //reg_wr((SATA_CFG_BASE + offset), 0x80000002);
  reg_wr(GHC, 0x80000002);

  // Read the Port0 Command Issue Register(P0CI)
  //offset = 0x138;
  //rd_data = reg_rd((SATA_CFG_BASE + offset));
  rd_data = reg_rd(P0CI);
 // printf("P0.CI = 0x%x\n", rd_data);

 //// SATA 0
 //  Start bist loopback initiator
 //  select the port1 for BIST operation TESTR.PSEL
  //offset = 0x0F4;
  //reg_wr((SATA_CFG_BASE + offset), 0x0);
  reg_wr(TESTR, 0x0);

  //  select the bist pattern from BISTCR[3:0], currently selecting Low frequency test pattern (LFTP)
  //offset = 0x0A4;
  //reg_wr((SATA_CFG_BASE + offset), 0x00000008);
  reg_wr(BISTCR, 0x00000007);

  // Builds a BIST FIS
  // Backdoor Load the Command-List for port1 into IRAM (to be replaced with DDR Address Backddor or backdoor in TB)
  // printf("Set up CMD for BIST\n");
  reg_wr((P0_CMD_BASE), 0x00000205);		//[31:16] PRDTL = 0x0001, [4:0] CFL = 5'b01001
  reg_wr((P0_CMD_BASE + 0x4), 0x00000000);	//PRD Byte Count
  reg_wr((P0_CMD_BASE + 0x8), P0_CMD_TABLE);	//Command table base
  reg_wr((P0_CMD_BASE + 0xC), 0x00000000);	//Command table base upper

  // Backdoor Load the Command Register FIS words for port1 to Device into IRAM (to be replaced with DDR Address Backddor or backdoor in TB)
  //printf("Set up CMD Table for BIST FIS\n");
  reg_wr((P0_CMD_TABLE), 0x00100058);		// BIST Activate FIS with Far-end retimed
  reg_wr((P0_CMD_TABLE + 0x4),  0x33221100);	//Dev/Head,CycHigh,CycLow,SectorNum
  reg_wr((P0_CMD_TABLE + 0x8),  0x77665544);	//Dev/Head,CycHigh,CycLow,SectorNum
  reg_wr((P0_CMD_TABLE + 0xC),  0x00000000);	//Control,REVD,SectorCnt,SectorCnt
  reg_wr((P0_CMD_TABLE + 0x10), 0x00000000);	//REVD
  reg_wr((P0_CMD_TABLE + 0x14), 0x00000000);	//REVD ??

  // Backdoor Load the PRDT/PRDT pointer at offset P0_CMD_TABLE + 0x80
  reg_wr((P0_CMD_TABLE + 0x80), P0_DAT_BUFF);	//Data base address for TX
  reg_wr((P0_CMD_TABLE + 0x84), 0x00000000);	//Data base address upper
  reg_wr((P0_CMD_TABLE + 0x88), 0x00000000);	//REVD
  reg_wr((P0_CMD_TABLE + 0x8C), 0x800001FF);	//ByteCnt

  //printf("BIST CMD Kickoff\n");
  //offset = 0x138;
  //reg_wr((SATA_CFG_BASE + offset), 0x00000001);
  reg_wr(P0CI, 0x00000001);

  // Waiting until PxSSTS.DET return 4h, when read.  it mean is in BIST mode
  //offset = 0x128;
  //rd_data = (SATA_CFG_BASE + offset);
  rd_data = reg_rd(P0SSTS);
 // printf("P0.SSTS = 0x%x\n", rd_data);
  while((rd_data & 0x00000004) != 0x4)
  {
  	rd_data = reg_rd(P0SSTS);
  	//printf("P0.SSTS = 0x%x\n", rd_data);
  }

  // Read BIST FIS Count Register  (BISTFCTR)
  //offset = 0x0A8;
  //rd_data = (SATA_CFG_BASE + offset);
  rd_data = reg_rd(BISTFCTR);
  //printf("BISTFCTR = 0x%x\n", rd_data);

  // Read BIST Status Register (BISTSR)
  //offset = 0x0AC;
  //rd_data = (SATA_CFG_BASE + offset);
  rd_data = reg_rd(BISTSR);
 // printf("BISTSR = 0x%x\n", rd_data);

  // Read BIST DWORD Error Count Register (BISTDECR)
  //offset = 0x0B0;
  //rd_data = (SATA_CFG_BASE + offset);
  rd_data = reg_rd(BISTDECR);
 // printf("BISTDECR = 0x%x\n", rd_data);
  	if(rd_data == 0x00000000)
 	{
 		printf("SATA0 BIST Far End Retransmit Test Passed!\n");
 		ret = 0;
 	}
 	else
 		printf("SATA0 BIST Far End Retransmit Test Failed!\n");

  //pass_ctl();
  reg_wr(P0CMD, 0x00000012);
  rd_data = reg_rd(P0CI);
  printf("P0.CI = 0x%x\n", rd_data);

  // Apply COMRESET
  reg_wr(P0SCTL,0x1);
  printf("Port Reset P0.SCTL = 0x%x\n",0x1);

  rd_data = reg_rd(P0SSTS);
  printf("P0.SSTS = 0x%x\n", rd_data);

 	return ret;
 }


 //// SATA 1
 int Comcerto_sata1_test (void)
 {
 	U32 rd_data, ret = -1, offset;
 	int i;

  //bootstrap overwriting
    reg_wr(GPIO_BASE + 0x44,0x30000);

 //PLL programming to get different clks
   reg_wr(0x904B0004,0x0);
   reg_wr(0x904B0008,0x0);
   reg_wr(0x904B0160,0x3);
   reg_wr(0x904B0164,0x3);
   reg_wr(0x904B0174,0x6);

  // SATA, Port#1 Initialization
  // sbphy_init_wait_lane_rdy(bool forPCIE, bool forSATA, bool forSGMII, int PCIE_num, int SATA_num, bool sata_p0_gen1, bool sata_p1_gen1, bool debug)
  sbphy_init_wait_lane_rdy(false, true, false, 0, 1, false, false, false);

  // sata_oob_detect(bool both_ports, int port_num, bool port0_gen1, bool port1_gen1, bool debug)
  //sata_oob_detect(false, 1, false, false, false);

  // Clear all the bits for the detected Interface errors on Port1
  //printf("Clear P1.SERR\n");
  reg_wr(P1SERR, 0xFFFFFFFF);

  // Configure the Port1 Command Register to Spin-Up Device, Enable FIS Receive & Start processing the command-list
  //printf("Set P1.CMD\n");
  reg_wr(P1CMD, 0x00000013);

  // Clear all the Interrupts in the Interrupt Status(IS) Register
  //printf("Clear IS :Clear all the Interrupts in the Interrupt Status(IS) Register\n");
  reg_wr(IS, 0xFFFFFFFF);

  // Read the AHCI Enable bit set in the Global HBA Control Register(GHC)
  rd_data = reg_rd(GHC);
  //printf("GHC = 0x%x\n", rd_data);
  // Enable the Interrupts in the Global HBA Control Register
 // printf("Set GHC\n");
  reg_wr(GHC, 0x80000002);

  // Read the Port1 Command Issue Register(P1CI)
  rd_data = reg_rd(P1CI);

 //  Start bist loopback initiator
 // printf("Select the port1 for BIST operation TESTR.PSEL\n");
  //offset = 0x0F4;
  //reg_wr((SATA_CFG_BASE + offset), 0x0);
  reg_wr(TESTR, 0x10000);

  //  select the bist pattern from BISTCR[3:0], currently selecting Low frequency test pattern (LFTP)
  //offset = 0x0A4;
  //reg_wr((SATA_CFG_BASE + offset), 0x00000008);
  reg_wr(BISTCR, 0x00000007);

  // Builds a BIST FIS
  // Backdoor Load the Command-List for port1 into IRAM (to be replaced with DDR Address Backddor or backdoor in TB)
  // printf("Set up CMD for BIST\n");
  reg_wr((P1_CMD_BASE), 0x00000205);		//[31:16] PRDTL = 0x0001, [4:0] CFL = 5'b01001
  reg_wr((P1_CMD_BASE + 0x4), 0x00000000);	//PRD Byte Count
  reg_wr((P1_CMD_BASE + 0x8), P1_CMD_TABLE);	//Command table base
  reg_wr((P1_CMD_BASE + 0xC), 0x00000000);	//Command table base upper

  // Backdoor Load the Command Register FIS words for port1 to Device into IRAM (to be replaced with DDR Address Backddor or backdoor in TB)
  //printf("Set up CMD Table for BIST FIS\n");
  reg_wr((P1_CMD_TABLE), 0x00100058);		// BIST Activate FIS with Far-end retimed
  reg_wr((P1_CMD_TABLE + 0x4),  0x33221100);	//Dev/Head,CycHigh,CycLow,SectorNum
  reg_wr((P1_CMD_TABLE + 0x8),  0x77665544);	//Dev/Head,CycHigh,CycLow,SectorNum
  reg_wr((P1_CMD_TABLE + 0xC),  0x00000000);	//Control,REVD,SectorCnt,SectorCnt
  reg_wr((P1_CMD_TABLE + 0x10), 0x00000000);	//REVD
  reg_wr((P1_CMD_TABLE + 0x14), 0x00000000);	//REVD ??

  // Backdoor Load the PRDT/PRDT pointer at offset P1_CMD_TABLE + 0x80
  reg_wr((P1_CMD_TABLE + 0x80), P1_DAT_BUFF);	//Data base address for TX
  reg_wr((P1_CMD_TABLE + 0x84), 0x00000000);	//Data base address upper
  reg_wr((P1_CMD_TABLE + 0x88), 0x00000000);	//REVD
  reg_wr((P1_CMD_TABLE + 0x8C), 0x800001FF);	//ByteCnt

  //printf("BIST CMD Kickoff\n");
  //offset = 0x138;
  //reg_wr((SATA_CFG_BASE + offset), 0x00000001);
  reg_wr(P1CI, 0x00000001);

  // Waiting until PxSSTS.DET return 4h, when read.  it mean is in BIST mode
  //offset = 0x128;
  //rd_data = (SATA_CFG_BASE + offset);
  rd_data = reg_rd(P1SSTS);
 // printf("P1.SSTS = 0x%x\n", rd_data);
  while((rd_data & 0x00000004) != 0x4)
  {
  	rd_data = reg_rd(P1SSTS);
  	//printf("P1.SSTS = 0x%x\n", rd_data);
  }

  // Read BIST FIS Count Register  (BISTFCTR)
  //offset = 0x0A8;
  //rd_data = (SATA_CFG_BASE + offset);
  rd_data = reg_rd(BISTFCTR);
  //printf("BISTFCTR = 0x%x\n", rd_data);

  // Read BIST Status Register (BISTSR)
  //offset = 0x0AC;
  //rd_data = (SATA_CFG_BASE + offset);
  rd_data = reg_rd(BISTSR);
 // printf("BISTSR = 0x%x\n", rd_data);

  // Read BIST DWORD Error Count Register (BISTDECR)
  //offset = 0x0B0;
  //rd_data = (SATA_CFG_BASE + offset);
  rd_data = reg_rd(BISTDECR);
 // printf("BISTDECR = 0x%x\n", rd_data);
  	if(rd_data == 0x00000000)
 	{
 		printf("SATA1 BIST Far End Retransmit Test Passed!\n");
 		ret = 0;
 	}
 	else
 		printf("SATA1 BIST Far End Retransmit Test Failed!\n");

  //pass_ctl();
  reg_wr(P1CMD, 0x00000012);
  rd_data = reg_rd(P1CI);
  printf("P1.CI = 0x%x\n", rd_data);

  // Apply COMRESET
  reg_wr(P1SCTL,0x1);
  printf("Port Reset P1.SCTL = 0x%x\n",0x1);

  rd_data = reg_rd(P1SSTS);
  printf("P1.SSTS = 0x%x\n", rd_data);

 	return ret;
 }

 int Comcerto_sata_test (struct diags_test_param *p)
 {
 	int ret = 0;

 	ret = Comcerto_sata0_test ();
 	ret = Comcerto_sata1_test ();

 	return ret;
 }
	#include "tests.h"
	#include <diags.h>
	#include <common.h>
	#include <asm/io.h>
	#include <mach/comcerto-2000.h>
	#include <mach/gpio.h>
	#include <mach/clkcore.h>
	#include "common_func.h"
	#include "serdes_common.h"
	#include "sata_common.h"

	#define GPIO_BASE 0x90470000

	int Comcerto_sata0_test (void)
	{
	U32 rd_data, ret = -1, offset;
	int i;

	//bootstrap overwriting
	reg_wr(GPIO_BASE + 0x44,0x30000);

	//PLL programming to get different clks
	reg_wr(0x904B0004,0x0);
	reg_wr(0x904B0008,0x0);
	reg_wr(0x904B0160,0x3);
	reg_wr(0x904B0164,0x3);
	reg_wr(0x904B0174,0x6);

	// SATA, Port#0 Initialization
	// sbphy_init_wait_lane_rdy(bool forPCIE, bool forSATA, bool forSGMII, int PCIE_num, int SATA_num, bool sata_p0_gen1, bool sata_p1_gen1, bool debug)
	sbphy_init_wait_lane_rdy(false, true, false, 0, 0, false, false, false);

	// sata_oob_detect(bool both_ports, int port_num, bool port0_gen1, bool port1_gen1, bool debug)
	//sata_oob_detect(false, 0, false, false, false);

	// printf("\nStart SATA BIST Far End Retransmit Test...\n\n");
	// Set the Command-List Base Address in the Port#0 Command-List Base Address Register(P0CLB) for SATA Controller
	// printf("Set P0.CLB:Command-List Base Address on Port0\n");
	// reg_wr(P0CLB, P0_CMD_BASE); //P0_CMD_BASE, 0x83010000

	// Set the FIS Base Address in the Port#0 FIS Base Address Register(P0FB) for SATA Controller
	// printf("Set P0.FIS:FIS Base Address in the Port0\n");
	// reg_wr(P0FIS, P0_FIS_BASE); //P0_FIS_BASE, 0x8301A000

	// Clear all the bits for the detected Interface errors on Port0
	//printf("Clear P0.SERR\n");
	//offset = 0x130;
	//reg_wr((SATA_CFG_BASE + offset), 0xFFFFFFFF);
	reg_wr(P0SERR, 0xFFFFFFFF);

	// Configure the Port0 Command Register to Spin-Up Device, Enable FIS Receive & Start processing the command-list
	//printf("Set P0.CMD\n");
	//offset = 0x118;
	//reg_wr((SATA_CFG_BASE + offset), 0x00000013);
	reg_wr(P0CMD, 0x00000013);

	// Clear all the Interrupts in the Interrupt Status(IS) Register
	//printf("Clear IS :Clear all the Interrupts in the Interrupt Status(IS) Register\n");
	//offset = 0x008;
	//reg_wr((SATA_CFG_BASE + offset), 0xFFFFFFFF);
	reg_wr(IS, 0xFFFFFFFF);

	// Read the AHCI Enable bit set in the Global HBA Control Register(GHC)
	//offset = 0x004;
	//rd_data = reg_rd((SATA_CFG_BASE + offset));
	rd_data = reg_rd(GHC);
	//printf("GHC = 0x%x\n", rd_data);
	//printf("Set P0.GHC:Enable the IRQ in the Global HBA Control Register\n");
	//reg_wr((SATA_CFG_BASE + offset), 0x80000002);
	reg_wr(GHC, 0x80000002);

	// Read the Port0 Command Issue Register(P0CI)
	//offset = 0x138;
	//rd_data = reg_rd((SATA_CFG_BASE + offset));
	rd_data = reg_rd(P0CI);
	// printf("P0.CI = 0x%x\n", rd_data);

	//// SATA 0
	// Start bist loopback initiator
	// select the port1 for BIST operation TESTR.PSEL
	//offset = 0x0F4;
	//reg_wr((SATA_CFG_BASE + offset), 0x0);
	reg_wr(TESTR, 0x0);

	// select the bist pattern from BISTCR[3:0], currently selecting Low frequency test pattern (LFTP)
	//offset = 0x0A4;
	//reg_wr((SATA_CFG_BASE + offset), 0x00000008);
	reg_wr(BISTCR, 0x00000007);

	// Builds a BIST FIS
	// Backdoor Load the Command-List for port1 into IRAM (to be replaced with DDR Address Backddor or backdoor in TB)
	// printf("Set up CMD for BIST\n");
	reg_wr((P0_CMD_BASE), 0x00000205); //[31:16] PRDTL = 0x0001, [4:0] CFL = 5'b01001
	reg_wr((P0_CMD_BASE + 0x4), 0x00000000); //PRD Byte Count
	reg_wr((P0_CMD_BASE + 0x8), P0_CMD_TABLE); //Command table base
	reg_wr((P0_CMD_BASE + 0xC), 0x00000000); //Command table base upper

	// Backdoor Load the Command Register FIS words for port1 to Device into IRAM (to be replaced with DDR Address Backddor or backdoor in TB)
	//printf("Set up CMD Table for BIST FIS\n");
	reg_wr((P0_CMD_TABLE), 0x00100058); // BIST Activate FIS with Far-end retimed
	reg_wr((P0_CMD_TABLE + 0x4), 0x33221100); //Dev/Head,CycHigh,CycLow,SectorNum
	reg_wr((P0_CMD_TABLE + 0x8), 0x77665544); //Dev/Head,CycHigh,CycLow,SectorNum
	reg_wr((P0_CMD_TABLE + 0xC), 0x00000000); //Control,REVD,SectorCnt,SectorCnt
	reg_wr((P0_CMD_TABLE + 0x10), 0x00000000); //REVD
	reg_wr((P0_CMD_TABLE + 0x14), 0x00000000); //REVD ??

	// Backdoor Load the PRDT/PRDT pointer at offset P0_CMD_TABLE + 0x80
	reg_wr((P0_CMD_TABLE + 0x80), P0_DAT_BUFF); //Data base address for TX
	reg_wr((P0_CMD_TABLE + 0x84), 0x00000000); //Data base address upper
	reg_wr((P0_CMD_TABLE + 0x88), 0x00000000); //REVD
	reg_wr((P0_CMD_TABLE + 0x8C), 0x800001FF); //ByteCnt

	//printf("BIST CMD Kickoff\n");
	//offset = 0x138;
	//reg_wr((SATA_CFG_BASE + offset), 0x00000001);
	reg_wr(P0CI, 0x00000001);

	// Waiting until PxSSTS.DET return 4h, when read. it mean is in BIST mode
	//offset = 0x128;
	//rd_data = (SATA_CFG_BASE + offset);
	rd_data = reg_rd(P0SSTS);
	// printf("P0.SSTS = 0x%x\n", rd_data);
	while((rd_data & 0x00000004) != 0x4)
	{
	rd_data = reg_rd(P0SSTS);
	//printf("P0.SSTS = 0x%x\n", rd_data);
	}

	// Read BIST FIS Count Register (BISTFCTR)
	//offset = 0x0A8;
	//rd_data = (SATA_CFG_BASE + offset);
	rd_data = reg_rd(BISTFCTR);
	//printf("BISTFCTR = 0x%x\n", rd_data);

	// Read BIST Status Register (BISTSR)
	//offset = 0x0AC;
	//rd_data = (SATA_CFG_BASE + offset);
	rd_data = reg_rd(BISTSR);
	// printf("BISTSR = 0x%x\n", rd_data);

	// Read BIST DWORD Error Count Register (BISTDECR)
	//offset = 0x0B0;
	//rd_data = (SATA_CFG_BASE + offset);
	rd_data = reg_rd(BISTDECR);
	// printf("BISTDECR = 0x%x\n", rd_data);
	if(rd_data == 0x00000000)
	{
	printf("SATA0 BIST Far End Retransmit Test Passed!\n");
	ret = 0;
	}
	else
	printf("SATA0 BIST Far End Retransmit Test Failed!\n");

	//pass_ctl();
	reg_wr(P0CMD, 0x00000012);
	rd_data = reg_rd(P0CI);
	printf("P0.CI = 0x%x\n", rd_data);

	// Apply COMRESET
	reg_wr(P0SCTL,0x1);
	printf("Port Reset P0.SCTL = 0x%x\n",0x1);

	rd_data = reg_rd(P0SSTS);
	printf("P0.SSTS = 0x%x\n", rd_data);

	return ret;
	}


	//// SATA 1
	int Comcerto_sata1_test (void)
	{
	U32 rd_data, ret = -1, offset;
	int i;

	//bootstrap overwriting
	reg_wr(GPIO_BASE + 0x44,0x30000);

	//PLL programming to get different clks
	reg_wr(0x904B0004,0x0);
	reg_wr(0x904B0008,0x0);
	reg_wr(0x904B0160,0x3);
	reg_wr(0x904B0164,0x3);
	reg_wr(0x904B0174,0x6);

	// SATA, Port#1 Initialization
	// sbphy_init_wait_lane_rdy(bool forPCIE, bool forSATA, bool forSGMII, int PCIE_num, int SATA_num, bool sata_p0_gen1, bool sata_p1_gen1, bool debug)
	sbphy_init_wait_lane_rdy(false, true, false, 0, 1, false, false, false);

	// sata_oob_detect(bool both_ports, int port_num, bool port0_gen1, bool port1_gen1, bool debug)
	//sata_oob_detect(false, 1, false, false, false);

	// Clear all the bits for the detected Interface errors on Port1
	//printf("Clear P1.SERR\n");
	reg_wr(P1SERR, 0xFFFFFFFF);

	// Configure the Port1 Command Register to Spin-Up Device, Enable FIS Receive & Start processing the command-list
	//printf("Set P1.CMD\n");
	reg_wr(P1CMD, 0x00000013);

	// Clear all the Interrupts in the Interrupt Status(IS) Register
	//printf("Clear IS :Clear all the Interrupts in the Interrupt Status(IS) Register\n");
	reg_wr(IS, 0xFFFFFFFF);

	// Read the AHCI Enable bit set in the Global HBA Control Register(GHC)
	rd_data = reg_rd(GHC);
	//printf("GHC = 0x%x\n", rd_data);
	// Enable the Interrupts in the Global HBA Control Register
	// printf("Set GHC\n");
	reg_wr(GHC, 0x80000002);

	// Read the Port1 Command Issue Register(P1CI)
	rd_data = reg_rd(P1CI);

	// Start bist loopback initiator
	// printf("Select the port1 for BIST operation TESTR.PSEL\n");
	//offset = 0x0F4;
	//reg_wr((SATA_CFG_BASE + offset), 0x0);
	reg_wr(TESTR, 0x10000);

	// select the bist pattern from BISTCR[3:0], currently selecting Low frequency test pattern (LFTP)
	//offset = 0x0A4;
	//reg_wr((SATA_CFG_BASE + offset), 0x00000008);
	reg_wr(BISTCR, 0x00000007);

	// Builds a BIST FIS
	// Backdoor Load the Command-List for port1 into IRAM (to be replaced with DDR Address Backddor or backdoor in TB)
	// printf("Set up CMD for BIST\n");
	reg_wr((P1_CMD_BASE), 0x00000205); //[31:16] PRDTL = 0x0001, [4:0] CFL = 5'b01001
	reg_wr((P1_CMD_BASE + 0x4), 0x00000000); //PRD Byte Count
	reg_wr((P1_CMD_BASE + 0x8), P1_CMD_TABLE); //Command table base
	reg_wr((P1_CMD_BASE + 0xC), 0x00000000); //Command table base upper

	// Backdoor Load the Command Register FIS words for port1 to Device into IRAM (to be replaced with DDR Address Backddor or backdoor in TB)
	//printf("Set up CMD Table for BIST FIS\n");
	reg_wr((P1_CMD_TABLE), 0x00100058); // BIST Activate FIS with Far-end retimed
	reg_wr((P1_CMD_TABLE + 0x4), 0x33221100); //Dev/Head,CycHigh,CycLow,SectorNum
	reg_wr((P1_CMD_TABLE + 0x8), 0x77665544); //Dev/Head,CycHigh,CycLow,SectorNum
	reg_wr((P1_CMD_TABLE + 0xC), 0x00000000); //Control,REVD,SectorCnt,SectorCnt
	reg_wr((P1_CMD_TABLE + 0x10), 0x00000000); //REVD
	reg_wr((P1_CMD_TABLE + 0x14), 0x00000000); //REVD ??

	// Backdoor Load the PRDT/PRDT pointer at offset P1_CMD_TABLE + 0x80
	reg_wr((P1_CMD_TABLE + 0x80), P1_DAT_BUFF); //Data base address for TX
	reg_wr((P1_CMD_TABLE + 0x84), 0x00000000); //Data base address upper
	reg_wr((P1_CMD_TABLE + 0x88), 0x00000000); //REVD
	reg_wr((P1_CMD_TABLE + 0x8C), 0x800001FF); //ByteCnt

	//printf("BIST CMD Kickoff\n");
	//offset = 0x138;
	//reg_wr((SATA_CFG_BASE + offset), 0x00000001);
	reg_wr(P1CI, 0x00000001);

	// Waiting until PxSSTS.DET return 4h, when read. it mean is in BIST mode
	//offset = 0x128;
	//rd_data = (SATA_CFG_BASE + offset);
	rd_data = reg_rd(P1SSTS);
	// printf("P1.SSTS = 0x%x\n", rd_data);
	while((rd_data & 0x00000004) != 0x4)
	{
	rd_data = reg_rd(P1SSTS);
	//printf("P1.SSTS = 0x%x\n", rd_data);
	}

	// Read BIST FIS Count Register (BISTFCTR)
	//offset = 0x0A8;
	//rd_data = (SATA_CFG_BASE + offset);
	rd_data = reg_rd(BISTFCTR);
	//printf("BISTFCTR = 0x%x\n", rd_data);

	// Read BIST Status Register (BISTSR)
	//offset = 0x0AC;
	//rd_data = (SATA_CFG_BASE + offset);
	rd_data = reg_rd(BISTSR);
	// printf("BISTSR = 0x%x\n", rd_data);

	// Read BIST DWORD Error Count Register (BISTDECR)
	//offset = 0x0B0;
	//rd_data = (SATA_CFG_BASE + offset);
	rd_data = reg_rd(BISTDECR);
	// printf("BISTDECR = 0x%x\n", rd_data);
	if(rd_data == 0x00000000)
	{
	printf("SATA1 BIST Far End Retransmit Test Passed!\n");
	ret = 0;
	}
	else
	printf("SATA1 BIST Far End Retransmit Test Failed!\n");

	//pass_ctl();
	reg_wr(P1CMD, 0x00000012);
	rd_data = reg_rd(P1CI);
	printf("P1.CI = 0x%x\n", rd_data);

	// Apply COMRESET
	reg_wr(P1SCTL,0x1);
	printf("Port Reset P1.SCTL = 0x%x\n",0x1);

	rd_data = reg_rd(P1SSTS);
	printf("P1.SSTS = 0x%x\n", rd_data);

	return ret;
	}

	int Comcerto_sata_test (struct diags_test_param *p)
	{
	int ret = 0;

	ret = Comcerto_sata0_test ();
	ret = Comcerto_sata1_test ();

	return ret;
	}