FreeRTOS/Demo/CORTEX_A2F200_IAR_and_Keil/MicroSemi_Code/drivers/mss_ethernet_mac/phy.c - third_party/github/FreeRTOS/FreeRTOS-Kernel - Git at Google

 /***************************************************************************//**
  * PHY access methods for DP83848C.
  * The implementation in this file is specific to the DP83848C,
  * If a different PHY support is required the PHY specific registers must
  * be updated.
  * (c) Copyright 2007 Actel Corporation
  *
  * SVN $Revision: 2324 $
  * SVN $Date: 2010-02-26 10:47:36 +0000 (Fri, 26 Feb 2010) $
  *
  ******************************************************************************/

 #ifdef __cplusplus
 extern "C" {
 #endif


 #include "mss_ethernet_mac.h"
 #include "mss_ethernet_mac_regs.h"

 #include "phy.h"

 #include "FreeRTOS.h"
 #include "task.h"

 extern MAC_instance_t g_mss_mac;

 /***************************** MDIO FUNCTIONS *********************************/

 /* Defines ********************************************************************/
 #define MDIO_START				0x00004000UL
 #define MDIO_READ				0x00002000UL
 #define MDIO_WRITE				0x00001002UL
 #define MDIO_ADDR_OFFSET		7UL
 #define MDIO_ADDR_MASK			0x00000f80UL
 #define MDIO_REG_ADDR_OFFSET	2UL
 #define MDIO_REG_ADDR_MASK		0x0000007cUL
 #define PREAMBLECOUNT           32UL
 #define ONEMICROSECOND          20UL

 typedef enum {
 	MDIO_CMD_READ,
 	MDIO_CMD_WRITE
 }mdio_cmd_t;


 /***************************************************************************//**
  * Set clock high or low.
  */
 static void
 MDIO_management_clock
 (
     int32_t clock
 )
 {
 	int32_t volatile a;

     MAC_BITBAND->CSR9_MDC = (uint32_t)clock;

 	/* delay for 1us */
 	for( a = 0; a < ONEMICROSECOND; a++ ){}
 }


 /***************************************************************************//**
  * Send read or write command to PHY.
  */
 static void
 MDIO_send_cmd
 (
     uint8_t regad,
     mdio_cmd_t mdio_cmd
 )
 {
     int32_t i;
     uint16_t mask, data;

     /* enable MII output */
     MAC_BITBAND->CSR9_MDEN = 1;

     /* send 32 1's preamble */
     MAC_BITBAND->CSR9_MDO = 1;
     for (i = 0; i < PREAMBLECOUNT; i++) {
     	MDIO_management_clock( 0 );
     	MDIO_management_clock( 1 );
     }

     /* calculate data bits */
     data = MDIO_START |
     	(( mdio_cmd == MDIO_CMD_READ ) ? MDIO_READ : MDIO_WRITE ) |
     	((g_mss_mac.phy_address << MDIO_ADDR_OFFSET) & MDIO_ADDR_MASK) |
     	((regad << MDIO_REG_ADDR_OFFSET) & MDIO_REG_ADDR_MASK);

     /* sent out */
     for( mask = 0x00008000L; mask>0; mask >>= 1 )
     {
         if ((mask == 0x2) && (mdio_cmd == MDIO_CMD_READ)) {
     		/* enable MII input */
             MAC_BITBAND->CSR9_MDEN = 0;
         }

     	MDIO_management_clock( 0 );

         /* prepare MDO */
         MAC_BITBAND->CSR9_MDO = (uint32_t)((mask & data) != 0 ? 1UL : 0UL);

     	MDIO_management_clock( 1 );
     }
 }


 /***************************************************************************//**
  * Reads a PHY register.
  */
 static uint16_t
 MDIO_read
 (
     uint8_t regad
 )
 {
     uint16_t mask;
     uint16_t data;

     MDIO_send_cmd( regad, MDIO_CMD_READ);

     /* read data */
     data = 0;
     for( mask = 0x00008000L; mask>0; mask >>= 1 )
     {
     	MDIO_management_clock( 0 );

         /* read MDI */
         if(MAC_BITBAND-> CSR9_MDI != 0){
             data |= mask;
         }

     	MDIO_management_clock( 1 );
     }

     MDIO_management_clock( 0 );

     return data;
 }


 /***************************************************************************//**
  * Writes to a PHY register.
  */
 static void
 MDIO_write
 (
     uint8_t regad,
     uint16_t data
 )
 {
     uint16_t mask;

     MDIO_send_cmd(regad, MDIO_CMD_WRITE);

     /* write data */
     for( mask = 0x00008000L; mask>0; mask >>= 1 )
     {
     	MDIO_management_clock( 0 );

         /* prepare MDO */
     	MAC_BITBAND->CSR9_MDO = (uint32_t)((mask & data) != 0 ? 1UL : 0UL);

     	MDIO_management_clock( 1 );
     }

     MDIO_management_clock( 0 );
 }


 /****************************** PHY FUNCTIONS *********************************/

 /* Defines ********************************************************************/

 /* Base registers */
 #define PHYREG_MIIMCR		0x00    /**< MII Management Control Register */
 #define MIIMCR_RESET					(1<<15)
 #define MIIMCR_LOOPBACK                 (1<<14)
 #define MIIMCR_SPEED_SELECT				(1<<13)
 #define MIIMCR_ENABLE_AUTONEGOTIATION	(1<<12)
 #define MIIMCR_RESTART_AUTONEGOTIATION	(1<<9)
 #define MIIMCR_DUPLEX_MODE				(1<<8)
 #define MIIMCR_COLLISION_TEST			(1<<7)

 #define PHYREG_MIIMSR		0x01    /**< MII Management Status Register */
 #define MIIMSR_ANC			(1<<5)	/**< Auto-Negotiation Completed. */
 #define MIIMSR_LINK			(1<<2)	/**< Link is established. */

 #define PHYREG_PHYID1R		0x02    /**< PHY Identifier 1 Register */
 #define PHYREG_PHYID2R		0x03    /**< PHY Identifier 2 Register */

 #define PHYREG_ANAR			0x04    /**< Auto-Negotiation Advertisement Register */
 #define ANAR_100FD			(1<<8)
 #define ANAR_100HD			(1<<7)
 #define ANAR_10FD			(1<<6)
 #define ANAR_10HD			(1<<5)

 #define PHYREG_ANLPAR		0x05    /**< Auto-Negotiation Link Partner Ability Register */
 #define PHYREG_ANER			0x06    /**< Auto-Negotiation Expansion Register */
 #define PHYREG_NPAR			0x07    /**< Next Page Advertisement Register */
 /*			0x08-			0x0F  Reserved */
 #define PHYREG_MFR			0x10    /**< Miscellaneous Features Register */
 #define PHYREG_ICSR			0x11    /**< Interrupt Control/Status Register */

 #define PHYREG_DR			0x12    /**< Diagnostic Register */
 #define DR_DPLX				(1<<11)
 #define DR_DATA_RATE		(1<<10)

 #define PHYREG_PMLR			0x13    /**< Power Management & Loopback Register */
 /*			0x14 Reserved */
 #define PHYREG_MCR			0x15    /**< Mode Control Register */
 #define MCR_LED_SEL			(1<<9)
 /*			0x16 Reserved */
 #define PHYREG_DCR			0x17    /**< Disconnect Counter */
 #define PHYREG_RECR			0x18    /**< Receive Error Counter */
 /*                         0x19-0x1F  Reserved */

 /***************************************************************************//**
  * Probe used PHY.
  *
  * return	PHY address. If PHY don't fount, returns 255.
  */
 uint8_t PHY_probe( void )
 {
 	uint8_t phy;
 	uint8_t phy_found;
 	uint16_t reg;

 	phy_found = 0;
 	for (phy = MSS_PHY_ADDRESS_MIN; phy <= MSS_PHY_ADDRESS_MAX; phy++) {
 		g_mss_mac.phy_address = phy;

         reg = MDIO_read( PHYREG_PHYID1R );

         if ((reg != 0x0000ffffUL) && (reg != 0x00000000UL)) {
         	phy_found = 1;
         	phy = MSS_PHY_ADDRESS_MAX + 1;
         }
     }

     if( phy_found == 0 ) {
     	g_mss_mac.phy_address = MSS_PHY_ADDRESS_AUTO_DETECT;
     }
     return g_mss_mac.phy_address;
 }


 /***************************************************************************//**
  * Resets the PHY.
  */
 void PHY_reset( void )
 {
 	MDIO_write( PHYREG_MIIMCR, MIIMCR_RESET );
 	MDIO_write( PHYREG_MIIMCR,
 		MIIMCR_ENABLE_AUTONEGOTIATION |
 		MIIMCR_RESTART_AUTONEGOTIATION |
 		MIIMCR_COLLISION_TEST );
 }


 /***************************************************************************//**
  * Restarts PHY auto-negotiation and wait until it's over.
  */
 void PHY_auto_negotiate( void )
 {
 	uint16_t reg;

 	reg = MDIO_read( PHYREG_MIIMCR );
 	MDIO_write( PHYREG_MIIMCR,
 		(uint16_t)( MIIMCR_ENABLE_AUTONEGOTIATION |
 		MIIMCR_RESTART_AUTONEGOTIATION |
 		reg) );

 	for( ;; ) {
 		reg = MDIO_read( PHYREG_MIIMSR );
 		if( (reg & MIIMSR_ANC) != 0 ) {
 			break;
 		} else {
 			vTaskDelay( 200 );
 		}
 	}
 }


 /***************************************************************************//**
  * Returns link status.
  *
  * @return          #MAC_LINK_STATUS_LINK if link is up.
  */
 uint8_t PHY_link_status( void )
 {
 	uint8_t retval = 0;
 	if(( MDIO_read( PHYREG_MIIMSR ) & MIIMSR_LINK ) != 0 ){
 		retval = MSS_MAC_LINK_STATUS_LINK;
 	}
 	return retval;
 }


 /***************************************************************************//**
  * Returns link type.
  *
  * @return          the logical OR of the following values:
  *      #MAC_LINK_STATUS_100MB   - Connection is 100Mb
  *      #MAC_LINK_STATUS_FDX     - Connection is full duplex
  */
 uint8_t PHY_link_type( void )
 {
 	uint16_t diagnostic;
 	uint8_t type = 0;

 	diagnostic = MDIO_read( PHYREG_DR );

     if( (diagnostic & DR_DPLX) != 0 ) {
     	type = MSS_MAC_LINK_STATUS_FDX;
     }

     if( (diagnostic & DR_DATA_RATE) != 0 ) {
     	type |= MSS_MAC_LINK_STATUS_100MB;
     }

     return type;
 }


 /***************************************************************************//**
  * Sets link type.
  */
 void
 PHY_set_link_type
 (
     uint8_t type
 )
 {
 	uint16_t reg;

 	reg = MDIO_read( PHYREG_ANAR );
 	reg |= ANAR_100FD | ANAR_100HD | ANAR_10FD | ANAR_10HD;

 	if( (type & MSS_MAC_LINK_STATUS_100MB) == 0 ) {
 		reg &= ~(ANAR_100FD | ANAR_100HD);
 	}

 	if( (type & MSS_MAC_LINK_STATUS_FDX) == 0 ) {
 		reg &= ~(ANAR_100FD | ANAR_10FD);
 	}

 	MDIO_write( PHYREG_ANAR, reg );
 }


 /***************************************************************************//**
  * Puts the Phy in Loopback mode
  */
 uint16_t
 PHY_set_loopback
 (
    uint8_t enable
 )
 {

 	uint16_t reg = 0;


 	reg = MDIO_read( PHYREG_MIIMCR );
 	// If set to one we need to set the LOCAL Phy loopback
 	if(enable == 1)
 		reg |= MIIMCR_LOOPBACK;
 	else // else we want to clear the bit..
 		reg ^= MIIMCR_LOOPBACK;


 	MDIO_write( PHYREG_MIIMCR,reg );
 	reg = MDIO_read( PHYREG_MIIMCR );

 	return reg;

 }

 #ifdef __cplusplus
 }
 #endif

 /******************************** END OF FILE *********************************/
	/*************************************************************************//
	* PHY access methods for DP83848C.
	* The implementation in this file is specific to the DP83848C,
	* If a different PHY support is required the PHY specific registers must
	* be updated.
	* (c) Copyright 2007 Actel Corporation
	*
	* SVN $Revision: 2324 $
	* SVN $Date: 2010-02-26 10:47:36 +0000 (Fri, 26 Feb 2010) $
	*
	******************************************************************************/

	#ifdef __cplusplus
	extern "C" {
	#endif


	#include "mss_ethernet_mac.h"
	#include "mss_ethernet_mac_regs.h"

	#include "phy.h"

	#include "FreeRTOS.h"
	#include "task.h"

	extern MAC_instance_t g_mss_mac;

	/*************************** MDIO FUNCTIONS *******************************/

	/* Defines ********************************************************************/
	#define MDIO_START 0x00004000UL
	#define MDIO_READ 0x00002000UL
	#define MDIO_WRITE 0x00001002UL
	#define MDIO_ADDR_OFFSET 7UL
	#define MDIO_ADDR_MASK 0x00000f80UL
	#define MDIO_REG_ADDR_OFFSET 2UL
	#define MDIO_REG_ADDR_MASK 0x0000007cUL
	#define PREAMBLECOUNT 32UL
	#define ONEMICROSECOND 20UL

	typedef enum {
	MDIO_CMD_READ,
	MDIO_CMD_WRITE
	}mdio_cmd_t;



	/*************************************************************************//
	* Set clock high or low.
	*/
	static void
	MDIO_management_clock
	(
	int32_t clock
	)
	{
	int32_t volatile a;

	MAC_BITBAND->CSR9_MDC = (uint32_t)clock;

	/* delay for 1us */
	for( a = 0; a < ONEMICROSECOND; a++ ){}
	}


	/*************************************************************************//
	* Send read or write command to PHY.
	*/
	static void
	MDIO_send_cmd
	(
	uint8_t regad,
	mdio_cmd_t mdio_cmd
	)
	{
	int32_t i;
	uint16_t mask, data;

	/* enable MII output */
	MAC_BITBAND->CSR9_MDEN = 1;

	/* send 32 1's preamble */
	MAC_BITBAND->CSR9_MDO = 1;
	for (i = 0; i < PREAMBLECOUNT; i++) {
	MDIO_management_clock( 0 );
	MDIO_management_clock( 1 );
	}

	/* calculate data bits */
	data = MDIO_START \|
	(( mdio_cmd == MDIO_CMD_READ ) ? MDIO_READ : MDIO_WRITE ) \|
	((g_mss_mac.phy_address << MDIO_ADDR_OFFSET) & MDIO_ADDR_MASK) \|
	((regad << MDIO_REG_ADDR_OFFSET) & MDIO_REG_ADDR_MASK);

	/* sent out */
	for( mask = 0x00008000L; mask>0; mask >>= 1 )
	{
	if ((mask == 0x2) && (mdio_cmd == MDIO_CMD_READ)) {
	/* enable MII input */
	MAC_BITBAND->CSR9_MDEN = 0;
	}

	MDIO_management_clock( 0 );

	/* prepare MDO */
	MAC_BITBAND->CSR9_MDO = (uint32_t)((mask & data) != 0 ? 1UL : 0UL);

	MDIO_management_clock( 1 );
	}
	}


	/*************************************************************************//
	* Reads a PHY register.
	*/
	static uint16_t
	MDIO_read
	(
	uint8_t regad
	)
	{
	uint16_t mask;
	uint16_t data;

	MDIO_send_cmd( regad, MDIO_CMD_READ);

	/* read data */
	data = 0;
	for( mask = 0x00008000L; mask>0; mask >>= 1 )
	{
	MDIO_management_clock( 0 );

	/* read MDI */
	if(MAC_BITBAND-> CSR9_MDI != 0){
	data \|= mask;
	}

	MDIO_management_clock( 1 );
	}

	MDIO_management_clock( 0 );

	return data;
	}


	/*************************************************************************//
	* Writes to a PHY register.
	*/
	static void
	MDIO_write
	(
	uint8_t regad,
	uint16_t data
	)
	{
	uint16_t mask;

	MDIO_send_cmd(regad, MDIO_CMD_WRITE);

	/* write data */
	for( mask = 0x00008000L; mask>0; mask >>= 1 )
	{
	MDIO_management_clock( 0 );

	/* prepare MDO */
	MAC_BITBAND->CSR9_MDO = (uint32_t)((mask & data) != 0 ? 1UL : 0UL);

	MDIO_management_clock( 1 );
	}

	MDIO_management_clock( 0 );
	}


	/**************************** PHY FUNCTIONS *******************************/

	/* Defines ********************************************************************/

	/* Base registers */
	#define PHYREG_MIIMCR 0x00 /*< MII Management Control Register /
	#define MIIMCR_RESET (1<<15)
	#define MIIMCR_LOOPBACK (1<<14)
	#define MIIMCR_SPEED_SELECT (1<<13)
	#define MIIMCR_ENABLE_AUTONEGOTIATION (1<<12)
	#define MIIMCR_RESTART_AUTONEGOTIATION (1<<9)
	#define MIIMCR_DUPLEX_MODE (1<<8)
	#define MIIMCR_COLLISION_TEST (1<<7)

	#define PHYREG_MIIMSR 0x01 /*< MII Management Status Register /
	#define MIIMSR_ANC (1<<5) /*< Auto-Negotiation Completed. /
	#define MIIMSR_LINK (1<<2) /*< Link is established. /

	#define PHYREG_PHYID1R 0x02 /*< PHY Identifier 1 Register /
	#define PHYREG_PHYID2R 0x03 /*< PHY Identifier 2 Register /

	#define PHYREG_ANAR 0x04 /*< Auto-Negotiation Advertisement Register /
	#define ANAR_100FD (1<<8)
	#define ANAR_100HD (1<<7)
	#define ANAR_10FD (1<<6)
	#define ANAR_10HD (1<<5)

	#define PHYREG_ANLPAR 0x05 /*< Auto-Negotiation Link Partner Ability Register /
	#define PHYREG_ANER 0x06 /*< Auto-Negotiation Expansion Register /
	#define PHYREG_NPAR 0x07 /*< Next Page Advertisement Register /
	/* 0x08- 0x0F Reserved */
	#define PHYREG_MFR 0x10 /*< Miscellaneous Features Register /
	#define PHYREG_ICSR 0x11 /*< Interrupt Control/Status Register /

	#define PHYREG_DR 0x12 /*< Diagnostic Register /
	#define DR_DPLX (1<<11)
	#define DR_DATA_RATE (1<<10)

	#define PHYREG_PMLR 0x13 /*< Power Management & Loopback Register /
	/* 0x14 Reserved */
	#define PHYREG_MCR 0x15 /*< Mode Control Register /
	#define MCR_LED_SEL (1<<9)
	/* 0x16 Reserved */
	#define PHYREG_DCR 0x17 /*< Disconnect Counter /
	#define PHYREG_RECR 0x18 /*< Receive Error Counter /
	/* 0x19-0x1F Reserved */

	/*************************************************************************//
	* Probe used PHY.
	*
	* return PHY address. If PHY don't fount, returns 255.
	*/
	uint8_t PHY_probe( void )
	{
	uint8_t phy;
	uint8_t phy_found;
	uint16_t reg;

	phy_found = 0;
	for (phy = MSS_PHY_ADDRESS_MIN; phy <= MSS_PHY_ADDRESS_MAX; phy++) {
	g_mss_mac.phy_address = phy;

	reg = MDIO_read( PHYREG_PHYID1R );

	if ((reg != 0x0000ffffUL) && (reg != 0x00000000UL)) {
	phy_found = 1;
	phy = MSS_PHY_ADDRESS_MAX + 1;
	}
	}

	if( phy_found == 0 ) {
	g_mss_mac.phy_address = MSS_PHY_ADDRESS_AUTO_DETECT;
	}
	return g_mss_mac.phy_address;
	}


	/*************************************************************************//
	* Resets the PHY.
	*/
	void PHY_reset( void )
	{
	MDIO_write( PHYREG_MIIMCR, MIIMCR_RESET );
	MDIO_write( PHYREG_MIIMCR,
	MIIMCR_ENABLE_AUTONEGOTIATION \|
	MIIMCR_RESTART_AUTONEGOTIATION \|
	MIIMCR_COLLISION_TEST );
	}


	/*************************************************************************//
	* Restarts PHY auto-negotiation and wait until it's over.
	*/
	void PHY_auto_negotiate( void )
	{
	uint16_t reg;

	reg = MDIO_read( PHYREG_MIIMCR );
	MDIO_write( PHYREG_MIIMCR,
	(uint16_t)( MIIMCR_ENABLE_AUTONEGOTIATION \|
	MIIMCR_RESTART_AUTONEGOTIATION \|
	reg) );

	for( ;; ) {
	reg = MDIO_read( PHYREG_MIIMSR );
	if( (reg & MIIMSR_ANC) != 0 ) {
	break;
	} else {
	vTaskDelay( 200 );
	}
	}
	}


	/*************************************************************************//
	* Returns link status.
	*
	* @return #MAC_LINK_STATUS_LINK if link is up.
	*/
	uint8_t PHY_link_status( void )
	{
	uint8_t retval = 0;
	if(( MDIO_read( PHYREG_MIIMSR ) & MIIMSR_LINK ) != 0 ){
	retval = MSS_MAC_LINK_STATUS_LINK;
	}
	return retval;
	}


	/*************************************************************************//
	* Returns link type.
	*
	* @return the logical OR of the following values:
	* #MAC_LINK_STATUS_100MB - Connection is 100Mb
	* #MAC_LINK_STATUS_FDX - Connection is full duplex
	*/
	uint8_t PHY_link_type( void )
	{
	uint16_t diagnostic;
	uint8_t type = 0;

	diagnostic = MDIO_read( PHYREG_DR );

	if( (diagnostic & DR_DPLX) != 0 ) {
	type = MSS_MAC_LINK_STATUS_FDX;
	}

	if( (diagnostic & DR_DATA_RATE) != 0 ) {
	type \|= MSS_MAC_LINK_STATUS_100MB;
	}

	return type;
	}


	/*************************************************************************//
	* Sets link type.
	*/
	void
	PHY_set_link_type
	(
	uint8_t type
	)
	{
	uint16_t reg;

	reg = MDIO_read( PHYREG_ANAR );
	reg \|= ANAR_100FD \| ANAR_100HD \| ANAR_10FD \| ANAR_10HD;

	if( (type & MSS_MAC_LINK_STATUS_100MB) == 0 ) {
	reg &= ~(ANAR_100FD \| ANAR_100HD);
	}

	if( (type & MSS_MAC_LINK_STATUS_FDX) == 0 ) {
	reg &= ~(ANAR_100FD \| ANAR_10FD);
	}

	MDIO_write( PHYREG_ANAR, reg );
	}


	/*************************************************************************//
	* Puts the Phy in Loopback mode
	*/
	uint16_t
	PHY_set_loopback
	(
	uint8_t enable
	)
	{

	uint16_t reg = 0;


	reg = MDIO_read( PHYREG_MIIMCR );
	// If set to one we need to set the LOCAL Phy loopback
	if(enable == 1)
	reg \|= MIIMCR_LOOPBACK;
	else // else we want to clear the bit..
	reg ^= MIIMCR_LOOPBACK;


	MDIO_write( PHYREG_MIIMCR,reg );
	reg = MDIO_read( PHYREG_MIIMCR );

	return reg;

	}

	#ifdef __cplusplus
	}
	#endif

	/****************************** END OF FILE *******************************/