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|
/*
################################################################################
#
# RTL8198 MDIO char driver
#
# Copyright(c) 2010 Realtek Semiconductor Corp. All rights reserved.
#
# This program is free software; you can redistribute it and/or modify it
# under the terms of the GNU General Public License as published by the Free
# Software Foundation; either version 2 of the License, or (at your option)
# any later version.
#
# This program is distributed in the hope that it will be useful, but WITHOUT
# ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
# FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
# more details.
#
# You should have received a copy of the GNU General Public License along with
# this program; if not, see <http://www.gnu.org/licenses/>.
#
# Author:
# Realtek WiFi AP software team <cn_sd8@realtek.com>
# No. 2, Innovation Road II, Hsinchu Science Park, Hsinchu 300, Taiwan
#
################################################################################
*/
/*================================================================*/
/* System Include Files */
#include <linux/config.h>
#include <linux/module.h>
#include <linux/version.h>
#include <linux/types.h>
#include <linux/errno.h>
#include <linux/kernel.h>
#include <linux/sched.h>
#include <linux/fs.h>
#include <linux/kernel.h>
#include <linux/major.h>
#include <linux/slab.h>
#include <linux/proc_fs.h>
#include <linux/ioport.h>
#include <linux/version.h>
#include <linux/init.h>
#include <linux/circ_buf.h>
#include <asm/uaccess.h>
#include <linux/timer.h>
#include <linux/proc_fs.h>
#include <linux/interrupt.h>
#include "bspchip.h"
/*================================================================*/
/* Local Include Files */
#include "rtl_mdio.h"
//#define CONFIG_RTL8197B_B_CUT_PATCH
/*================================================================*/
/* Global Variables */
int cpu_suspend_enabled = 0;
/*================================================================*/
/* Local Variables */
static struct mdio_priv *dev_priv=NULL;
#ifdef SIMULATION
static unsigned char data_in[256];
static int data_in_len = 0, data_in_read_idx = 0;
static unsigned short data_out;
static int data_out_len = 0, msg_is_fetched = 0;
static unsigned long reg_scr =0, reg_isr=0;
#endif
/*================================================================*/
#if 0
int pre_jiffies=1;
void* MAX_FUNCT;
unsigned int MAX_STACK=8*1024;
unsigned int PRINT_STACK=2428;
unsigned int COPY_STACK=2428;
unsigned int MAX_FUNCT_call[40];
#define PRINT_INTV (1*60*100)
/* print max sp ever 3min */
//extern volatile int jiffies;
void __attribute__((__no_instrument_function__))
__cyg_profile_func_enter(void *this_func, void *call_site)
{
unsigned int sp_addr;
unsigned int sp_size;
#if 0
if (this_func == rtk_voip_dsp_init)
{
printk("rtk_voip_dsp_init enter\n");
}
#endif
__asm__ __volatile__("ori %0, $29, 0": "=r"(sp_addr) );
sp_size = sp_addr & 8191;
if(MAX_STACK > sp_size)
{
MAX_STACK = sp_size;
MAX_FUNCT = this_func;
if (COPY_STACK > sp_size) {
COPY_STACK = sp_size;
copy_trace(sp_addr);
}
}
if ( ((int)jiffies - pre_jiffies) > PRINT_INTV ) {
pre_jiffies = jiffies;
printk("MAXSP,%x,%d.", MAX_FUNCT, MAX_STACK);
if (PRINT_STACK > MAX_STACK) {
int i;
unsigned long flags;
save_flags(flags); cli();
PRINT_STACK = MAX_STACK;
printk("\nCall Trace:");
for (i=0 ; i<40 ; i++) {
if (0==MAX_FUNCT_call[i])
break;
printk(" [<%08lx>]", MAX_FUNCT_call[i]);
if ( 4==(i%5))
printk("\n");
}
restore_flags(flags);
}
MAX_STACK = 8*1024;
}
}
void __attribute__((__no_instrument_function__))
__cyg_profile_func_exit(void *this_func, void *call_site)
{
#if 0
if (this_func == rtk_voip_dsp_init)
{
printk("rtk_voip_dsp_init exit\n");
}
#endif
}
#include <asm-mips/uaccess.h>
void __attribute__((__no_instrument_function__)) copy_trace(unsigned int *sp)
{
int i;
//int column = 0;
unsigned int *stack;
unsigned long kernel_start, kernel_end;
extern char _stext, _etext;
stack = sp ;
i = 0;
kernel_start = (unsigned long) &_stext;
kernel_end = (unsigned long) &_etext;
//printk("\nCall Trace:");
while ((unsigned long) stack & (PAGE_SIZE -1)) {
unsigned long addr;
if (__get_user(addr, stack++)) {
printk(" (Bad stack address)\n");
break;
}
/*
* If the address is either in the text segment of the
* kernel, or in the region which contains vmalloc'ed
* memory, it *may* be the address of a calling
* routine; if so, print it so that someone tracing
* down the cause of the crash will be able to figure
* out the call path that was taken.
*/
if (addr >= kernel_start && addr < kernel_end) {
MAX_FUNCT_call[i]=addr;
//printk(" [<%08lx>]", addr);
//if (column++ == 5) {
// printk("\n");
// column = 0;
//}
if (++i > 40) {
//printk(" ...");
break;
}
}
}
//if (column != 0)
// printk("\n");
for ( ; i<40; i++)
MAX_FUNCT_call[i] = 0;
}
#endif
/*================================================================*/
/*================================================================*/
/* Routine Implementations */
#ifdef SIMULATION
static unsigned long register_read_dw(int offset)
{
unsigned long status = 0;
unsigned short wdata = 0;
if (offset == REG_ISR) {
status = reg_isr;
if (data_in_len > data_in_read_idx)
status |= IP_NEWMSG;
if (msg_is_fetched) {
status |= IP_MSGFETCH;
msg_is_fetched = 0;
}
return status;
}
else if (offset == REG_RCR) {
ASSERT(data_in_len > data_in_read_idx);
memcpy(&wdata, &data_in[data_in_read_idx], 2);
data_in_read_idx += 2;
status |= wdata;
return status;
}
else if (offset == REG_SYSCR) {
return reg_scr;
}
else {
ASSERT(0);
return status;
}
}
static void register_write_dw(int offset, unsigned long data)
{
if (offset == REG_SSR) {
unsigned short wData = (unsigned short)data;
memcpy(&data_out, &wData, 2);
data_out_len = 2;
}
else if (offset == REG_ISR) {
reg_isr &= ~data ;
}
}
#endif // SIMULATION
#ifdef KDB_MSG
static void inline debugk_out(unsigned char *label, unsigned char *data, int data_length)
{
int i,j;
int num_blocks;
int block_remainder;
num_blocks = data_length >> 4;
block_remainder = data_length & 15;
if (label)
DEBUGK_OUT("%s\n", label);
if (data==NULL || data_length==0)
return;
for (i=0; i<num_blocks; i++) {
printk("\t");
for (j=0; j<16; j++)
printk("%02x ", data[j + (i<<4)]);
printk("\n");
}
if (block_remainder > 0) {
printk("\t");
for (j=0; j<block_remainder; j++)
printk("%02x ", data[j+(num_blocks<<4)]);
printk("\n");
}
}
#endif // KDB_MSG
unsigned long static get_ether_phy_reg(unsigned long phyId, unsigned long regId)
{
unsigned long status;
WRITE_MEM32((void *)MDCIOCR, COMMAND_READ | ( phyId << PHYADD_OFFSET ) | ( regId << REGADD_OFFSET ));
do { status = READ_MEM32( MDCIOSR ); } while ( ( status & MDCIO_STATUS ) != 0 );
status &= 0xffff;
return status;
}
static void set_ether_phy_reg(unsigned long phyId, unsigned long regId, unsigned long wData)
{
WRITE_MEM32(MDCIOCR, COMMAND_WRITE | ( phyId << PHYADD_OFFSET ) | ( regId << REGADD_OFFSET ) | wData);
while( ( READ_MEM32( MDCIOSR ) & MDCIO_STATUS ) != 0 ); /* wait until command complete */
}
static int is_checksum_ok(unsigned char *data, int len)
{
int i;
unsigned char sum=0;
for (i=0; i<len; i++)
sum += data[i];
if (sum == 0)
return 1;
else
return 0;
}
static unsigned char append_checksum(unsigned char *data, int len)
{
int i;
unsigned char sum=0;
for (i=0; i<len; i++)
sum += data[i];
sum = ~sum + 1;
return sum;
}
static int indicate_evt(struct mdio_priv *priv, int id, unsigned char *data, int data_len)
{
int size;
size = CIRC_SPACE(priv->evt_que_head, priv->evt_que_tail, EV_QUE_MAX);
if (size == 0) {
DEBUGK_ERR("Indication queue full, drop event!\n");
#if LINUX_VERSION_CODE < KERNEL_VERSION(2,6,27)
if (priv->host_pid != -1)
kill_proc(priv->host_pid, SIGUSR1, 1);
#else
if (priv->host_pid != NULL)
kill_pid(priv->host_pid, SIGUSR1, 1);
#endif
return 0;
}
ASSERT(data_len < MDIO_BUFSIZE);
priv->ind_evt_que[priv->evt_que_head].id = id;
priv->ind_evt_que[priv->evt_que_head].len = data_len;
memcpy(&priv->ind_evt_que[priv->evt_que_head].buf, data, data_len);
priv->evt_que_head = (priv->evt_que_head + 1) & (EV_QUE_MAX - 1);
#if 0 //mark_nfbi , now we use polling instead of singal in HCD
#if LINUX_VERSION_CODE < KERNEL_VERSION(2,6,27)
if (priv->host_pid != -1)
kill_proc(priv->host_pid, SIGUSR1, 1);
#else
if (priv->host_pid != NULL)
kill_pid(priv->host_pid, SIGUSR1, 1);
#endif
#endif
return 1;
}
static int retrieve_evt(struct mdio_priv *priv, unsigned char *out)
{
int len = 0;
if (CIRC_CNT(priv->evt_que_head, priv->evt_que_tail, EV_QUE_MAX) > 0) { // more than one evt pending
len = EVT_BUF_OFFSET + priv->ind_evt_que[priv->evt_que_tail].len;
memcpy(out, &priv->ind_evt_que[priv->evt_que_tail], len);
priv->evt_que_tail = (priv->evt_que_tail + 1) & (EV_QUE_MAX - 1);
}
return len;
}
static void process_rx_cmd(struct mdio_priv *priv, unsigned short data)
{
if (priv->rx_cmd_time &&
(priv->rx_cmd_state == STATE_RX_WAIT_LEN ||
priv->rx_cmd_state == STATE_RX_WAIT_DATA) &&
(priv->cmd_timeout && TIME_DIFF(jiffies, priv->rx_cmd_time) > priv->cmd_timeout)) {
DEBUGK_ERR("Rx cmd timeout [%ld][0x%x], discard pending cmd!\n", TIME_DIFF(jiffies, priv->rx_cmd_time), data);
RESET_RX_STATE;
return;
}
if ((data & FIRST_CMD_MASK) && (priv->rx_cmd_state != STATE_RX_INIT)) {
DEBUGK_ERR("Rx Sync bit but not in INIT_STATE [%d][0x%x], discard pending cmd!\n", priv->rx_cmd_state, data);
RESET_RX_STATE;
}
if (priv->rx_cmd_state == STATE_RX_INIT) {
ASSERT(priv->data_in.len == 0);
if (!(data & FIRST_CMD_MASK)) {
DEBUGK_ERR("Got invalid rx cmd id [0x%x], discard it!\n", data);
goto invalid_cmd;
}
PUT_IN_DATA(data); // cmd id
priv->rx_cmd_state = STATE_RX_WAIT_LEN;
priv->rx_cmd_time = jiffies;
}
else { // STATE_RX_WAIT_LEN or STATE_RX_WAIT_DATA
// check if first cmd byte is '0'
if (data & 0xff00) {
DEBUGK_ERR("1st byte of rx cmd not zero [%x]!\n", data >> 8);
goto invalid_cmd;
}
if (priv->rx_cmd_state == STATE_RX_WAIT_LEN) {
PUT_IN_DATA(data);
priv->rx_cmd_state = STATE_RX_WAIT_DATA;
priv->rx_cmd_remain_len = (data + 1)*2; // including checksum
priv->rx_cmd_time = jiffies;
}
else { // in STATE_RX_WAIT_DATA
ASSERT (priv->rx_cmd_remain_len > 0);
PUT_IN_DATA(data);
priv->rx_cmd_remain_len -= 2;
if (priv->rx_cmd_remain_len <= 0) { // rx last bye, calcuate checksum
if (!is_checksum_ok(priv->data_in.buf, priv->data_in.len)) {
DEBUGK_ERR("Rx cmd cheksum error!\n");
goto invalid_cmd;
}
priv->data_in.len -= 2; // substract checksum length
indicate_evt(priv, IND_CMD_EV, priv->data_in.buf, priv->data_in.len);
RESET_RX_STATE;
}
else
priv->rx_cmd_time = jiffies;
}
}
return;
invalid_cmd:
RESET_RX_STATE;
}
static void transmit_msg(struct mdio_priv *priv)
{
unsigned short data;
if (priv->data_out.len <= 0 || priv->tx_status_transmitting_len >= priv->data_out.len)
return;
memcpy(&data, priv->data_out.buf+priv->tx_status_transmitting_len, 2);
register_write_dw(REG_SSR, (unsigned long)data);
priv->tx_status_transmitting_len += 2;
if (priv->tx_status_transmitting_len >= priv->data_out.len)
priv->tx_status_state = STATE_TX_INIT;
else
priv->tx_status_state = STATE_TX_IN_PROGRESS;
}
#ifdef CONFIG_RTK_VOIP_ETHERNET_DSP_IS_DSP
static irqreturn_t mdio_interrupt(int irq, void *dev_id)
{
struct mdio_priv *priv = (struct mdio_priv *)dev_id;
unsigned long status, data;
while (1) {
status = register_read_dw(REG_ISR);
if (!status)
break;
register_write_dw(REG_ISR, status); // clear interrupt
unsigned long st_dsp_id;
extern int Set_Ethernet_DSP_ID(unsigned char dsp_id);
extern unsigned int Get_Ethernet_DSP_ID(void);
printk("in mdio_interrupt, status = 0x%x\n", status);
if (status & 0x8)//bit3
{
data = register_read_dw(REG_SYSCR) & 0xF;// use SYSCR bit 0~3 to decide DSP ID for each DSP. up to 16 DSP.
if((data>=0) && (data<=3))
{
Set_Ethernet_DSP_ID((unsigned char)data);
//printk("Set DSP ID to %d\n", data);
// Singal AP process to chage DSP MAC addr
printk("signal to hcd to change MAC Addr\n");
#if LINUX_VERSION_CODE < KERNEL_VERSION(2,6,27)
if (priv->host_pid != -1)
kill_proc(priv->host_pid, SIGUSR2, 1);
#else
if (priv->host_pid != -1)
kill_pid(priv->host_pid, SIGUSR2, 1);
#endif
}
else
printk("%s: NOT support dsp_id=%d\n", __FUNCTION__, data);
}
else
{
printk("Get unknown mdio interrupt status = 0x%x\n", status);
}
if (status & IP_NEWMSG) {
data = register_read_dw(REG_RCR);
process_rx_cmd(priv, (unsigned short)data);
}
if (status & IP_MSGFETCH) {
transmit_msg(priv);
}
if (status & (IP_ISOLATION|IP_ETHMAC|IP_WLANMAC|IP_ETHPHY |IP_WLANPHY|IP_SELMIICLK)) {
data = register_read_dw(REG_SYSCR);
data &= (CR_ISOLATION |CR_ETHMAC|CR_WLANMAC|CR_ETHPHY|CR_WLANPHY|CR_SELMIICLK);
indicate_evt(priv, IND_SYSCTL_EV, (unsigned char *)&data, sizeof(data));
}
#ifdef CONFIG_RTK_VOIP_ETHERNET_DSP_IS_DSP
if (status & ~(IP_MSGFETCH|IP_NEWMSG|IP_ISOLATION|IP_ETHMAC|
IP_WLANMAC|IP_ETHPHY |IP_WLANPHY |IP_SELMIICLK |IP_CUSTOM3)) {
#else
if (status & ~(IP_MSGFETCH|IP_NEWMSG|IP_ISOLATION|IP_ETHMAC|
IP_WLANMAC|IP_ETHPHY |IP_WLANPHY|IP_SELMIICLK)) {
#endif
DEBUGK_ERR("Got satus=0x%x, not supported yet!\n", (unsigned int)status);
}
}
return IRQ_HANDLED;
}
#else
//static void mdio_interrupt(int irq, void *dev_id, struct pt_regs *regs)
static irqreturn_t mdio_interrupt(int irq, void *dev_id)
{
struct mdio_priv *priv = (struct mdio_priv *)dev_id;
unsigned long status, data;
while (1) {
status = register_read_dw(REG_ISR);
if (!status)
break;
register_write_dw(REG_ISR, status); // clear interrupt
if (status & IP_NEWMSG) {
data = register_read_dw(REG_RCR);
process_rx_cmd(priv, (unsigned short)data);
}
if (status & IP_MSGFETCH) {
transmit_msg(priv);
}
if (status & (IP_ISOLATION|IP_ETHMAC|IP_WLANMAC|IP_ETHPHY |IP_WLANPHY|IP_SELMIICLK)) {
data = register_read_dw(REG_SYSCR);
data &= (CR_ISOLATION |CR_ETHMAC|CR_WLANMAC|CR_ETHPHY|CR_WLANPHY|CR_SELMIICLK);
indicate_evt(priv, IND_SYSCTL_EV, (unsigned char *)&data, sizeof(data));
}
if (status & ~(IP_MSGFETCH|IP_NEWMSG|IP_ISOLATION|IP_ETHMAC|
IP_WLANMAC|IP_ETHPHY |IP_WLANPHY|IP_SELMIICLK)) {
DEBUGK_ERR("Got satus=0x%x, not supported yet!\n", (unsigned int)status);
}
}
return IRQ_HANDLED;
}
#endif
void toggle_usb_device_insert_bit(void)
{
unsigned long flags;
if (dev_priv == NULL)
return;
spin_lock_irqsave(&dev_priv->reglock, flags);
if (REG32(REG_SYSSR) & SR_USBInsertStatus)
REG32(REG_SYSSR) = REG32(REG_SYSSR) & (~SR_USBInsertStatus);
else
REG32(REG_SYSSR) = REG32(REG_SYSSR) | SR_USBInsertStatus;
spin_unlock_irqrestore(&dev_priv->reglock, flags);
//printk("usb device inserted\n");
}
void toggle_usb_device_remove_bit(void)
{
unsigned long flags;
if (dev_priv == NULL)
return;
spin_lock_irqsave(&dev_priv->reglock, flags);
if (REG32(REG_SYSSR) & SR_USBRemoveStatus)
REG32(REG_SYSSR) = REG32(REG_SYSSR) & (~SR_USBRemoveStatus);
else
REG32(REG_SYSSR) = REG32(REG_SYSSR) | SR_USBRemoveStatus;
spin_unlock_irqrestore(&dev_priv->reglock, flags);
//printk("usb device removed\n");
}
void set_wlanlink_bit(int val)
{
unsigned long flags;
if (dev_priv == NULL)
return;
spin_lock_irqsave(&dev_priv->reglock, flags);
if (val)
REG32(REG_SYSSR) = REG32(REG_SYSSR) | SR_WLANLink;
else
REG32(REG_SYSSR) = REG32(REG_SYSSR) & (~SR_WLANLink);
spin_unlock_irqrestore(&dev_priv->reglock, flags);
}
static void mdio_reg_poll_timer(unsigned long task_priv)
{
unsigned long flags;
unsigned long reg1, reg2;
struct mdio_priv *priv = (struct mdio_priv *)task_priv;
if (!priv->poll_timer_up)
return;
if (priv->reg_BMCR_write != REG32(REG_BMCR)) {
//printk("1. priv->reg_BMCR_write=%x\n", priv->reg_BMCR_write);
reg1 = reg2 = REG32(REG_BMCR);
if ((reg1&0x8000) && (priv->reg_BMCR_write&0x8000)) //check "reset" bit
reg1 &= 0x7fff;
if ((reg1&0x0200) && (priv->reg_BMCR_write&0x0200)) //check "restart auto negotiation" bit
reg1 &= 0xfdff;
if (priv->force_power_down)
reg1 |= 0x0800; //power down
priv->reg_BMCR_write = reg2;
set_ether_phy_reg(ETH_PORT_NUM, 0, reg1);
if (reg1 & 0x1000) {
if ((priv->reg_ANAR_write & 0x0180) == 0x0000)
set_ether_phy_reg(6, 0, 0x120c);
else
set_ether_phy_reg(6, 0, 0x1208);
}
#ifdef CONFIG_RTL8197B_B_CUT_PATCH
else {
if (reg1 & 0x2000) //100M
set_ether_phy_reg(6, 0, 0x120c);
else //10M
set_ether_phy_reg(6, 0, 0x1208);
}
#endif
//printk("2. priv->reg_BMCR_write=%x\n", priv->reg_BMCR_write);
}
if (priv->reg_BMCR_read != get_ether_phy_reg(ETH_PORT_NUM, 0)) {
//printk("1. priv->reg_BMCR_read=%x\n", priv->reg_BMCR_read);
priv->reg_BMCR_read = get_ether_phy_reg(ETH_PORT_NUM, 0);
if (priv->reg_BMCR_write & 0x0800) //power down
REG32(REG_BMCR) = priv->reg_BMCR_read;
else
REG32(REG_BMCR) = priv->reg_BMCR_read & 0xf7ff;
//printk("2. priv->reg_BMCR_read=%x\n", priv->reg_BMCR_read);
}
if (priv->reg_BMSR_read != get_ether_phy_reg(ETH_PORT_NUM, 1)) {
reg1 = get_ether_phy_reg(ETH_PORT_NUM, 1);
if ((priv->reg_BMSR_read ^ reg1) & (~BIT(2))) {
//toggle EthPHYStatusChange bit to generate interrupt
spin_lock_irqsave(&priv->reglock, flags);
if (REG32(REG_SYSSR) & SR_EthPHYStatusChange)
REG32(REG_SYSSR) = REG32(REG_SYSSR) & (~SR_EthPHYStatusChange);
else
REG32(REG_SYSSR) = REG32(REG_SYSSR) | SR_EthPHYStatusChange;
spin_unlock_irqrestore(&priv->reglock, flags);
//printk("EthPhy status changed!\n");
}
priv->reg_BMSR_read = reg1;
REG32(REG_BMSR) = priv->reg_BMSR_read;
if (priv->eth_phy_link_status != ((priv->reg_BMSR_read & BIT(2)) ? 1 : 0)) {
priv->eth_phy_link_status = ((priv->reg_BMSR_read & BIT(2)) ? 1 : 0);
spin_lock_irqsave(&priv->reglock, flags);
if (priv->eth_phy_link_status)
REG32(REG_SYSSR) = REG32(REG_SYSSR) | SR_EthLink;
else
REG32(REG_SYSSR) = REG32(REG_SYSSR) & (~SR_EthLink);
spin_unlock_irqrestore(&priv->reglock, flags);
//DEBUGK_OUT("Ether Link changed [%d]!\n", priv->eth_phy_link_status);
//printk("Ether Link changed [%d]!\n", priv->eth_phy_link_status);
}
}
if (!(priv->reg_BMCR_write&0x8000)) {
if (priv->reg_ANAR_write != REG32(REG_ANAR)) {
//printk("1. priv->reg_ANAR_write=%x\n", priv->reg_ANAR_write);
priv->reg_ANAR_write = REG32(REG_ANAR);
//printk("2. priv->reg_ANAR_write=%x\n", priv->reg_ANAR_write);
set_ether_phy_reg(ETH_PORT_NUM, 4, priv->reg_ANAR_write);
//printk("3. priv->reg_ANAR_write=%x\n", priv->reg_ANAR_write);
if (priv->reg_BMCR_write&0x1000) {
if ((priv->reg_ANAR_write & 0x0180) == 0x0000)
set_ether_phy_reg(6, 0, 0x120c);
else
set_ether_phy_reg(6, 0, 0x1208);
}
}
}
if (priv->reg_ANAR_read != get_ether_phy_reg(ETH_PORT_NUM, 4)) {
//printk("1. priv->reg_ANAR_read=%x\n", priv->reg_ANAR_read);
priv->reg_ANAR_read = get_ether_phy_reg(ETH_PORT_NUM, 4);
//printk("2. priv->reg_ANAR_read=%x\n", priv->reg_ANAR_read);
REG32(REG_ANAR) = priv->reg_ANAR_read;
}
if (priv->reg_ANLPAR_read != get_ether_phy_reg(ETH_PORT_NUM, 5)) {
priv->reg_ANLPAR_read = get_ether_phy_reg(ETH_PORT_NUM, 5);
REG32(REG_ANLPAR) = priv->reg_ANLPAR_read;
}
mod_timer(&priv->reg_poll_timer, jiffies + priv->phy_reg_poll_time);
}
static int mdio_open(struct inode *inode, struct file *filp)
{
filp->private_data = dev_priv;
//MOD_INC_USE_COUNT;
return 0;
}
static int mdio_close(struct inode *inode, struct file *filp)
{
//MOD_DEC_USE_COUNT;
return 0;
}
static ssize_t mdio_read (struct file *filp, char *buf, size_t count, loff_t *offset)
{
struct mdio_priv *priv = (struct mdio_priv *)filp->private_data;
if (!buf)
return 0;
count = retrieve_evt(priv, buf);
return count;
}
static ssize_t mdio_write (struct file *filp, const char *buf, size_t count, loff_t *offset)
{
struct mdio_priv *priv = (struct mdio_priv *)filp->private_data;
unsigned short last_word = 0;
if (!buf) {
DEBUGK_ERR("buf = NULL!\n");
goto ret;
}
if (count > MDIO_BUFSIZE) {
DEBUGK_ERR("write length too big!\n");
count = -EFAULT;
goto ret;
}
if (priv->tx_status_state != STATE_TX_INIT) {
DEBUGK_ERR("Transmit status, but not in valid state [%d]. Reset state!\n", priv->tx_status_state);
priv->tx_status_state = STATE_TX_INIT;
}
if (count %2) {
DEBUGK_ERR("Invalid Tx size [%d]!\n", count);
count = -EFAULT;
goto ret;
}
if (copy_from_user((void *)priv->data_out.buf, buf, count)) {
DEBUGK_ERR("copy_from_user() error!\n");
count = -EFAULT;
goto ret;
}
#ifdef KDB_MSG
debugk_out("write data", priv->data_out.buf, count);
#endif
last_word = (unsigned short) append_checksum(priv->data_out.buf, count);
memcpy(&priv->data_out.buf[count], &last_word, 2);
priv->data_out.len = count + sizeof(last_word);
priv->tx_status_transmitting_len = 0;
priv->tx_status_state = STATE_TX_INIT;
transmit_msg(priv);
ret:
return count;
}
static void dump_private_data(void)
{
//int i;
printk("cmd_timeout=%d\n", dev_priv->cmd_timeout);
printk("poll_timer_up=%d\n", dev_priv->poll_timer_up);
printk("phy_reg_poll_time=%d\n", dev_priv->phy_reg_poll_time);
#if LINUX_VERSION_CODE < KERNEL_VERSION(2,6,27)
printk("host_pid=%d\n", dev_priv->host_pid);
#else
printk("host_pid=0x%p\n", dev_priv->host_pid);
#endif
printk("force_power_down=%d\n", dev_priv->force_power_down);
printk("eth_phy_link_status=%d\n", dev_priv->eth_phy_link_status);
printk("\nreg_BMCR_write=0x%04lx\n", dev_priv->reg_BMCR_write);
printk("reg_BMCR_read=0x%04lx\n", dev_priv->reg_BMCR_read);
printk("reg_BMSR_read=0x%04lx\n", dev_priv->reg_BMSR_read);
printk("reg_ANAR_write=0x%04lx\n", dev_priv->reg_ANAR_write);
printk("reg_ANAR_read=0x%04lx\n", dev_priv->reg_ANAR_read);
printk("reg_ANLPAR_read=0x%04lx\n", dev_priv->reg_ANLPAR_read);
printk("\nevt_que_head=%d\n", dev_priv->evt_que_head);
printk("evt_que_tail=%d\n", dev_priv->evt_que_tail);
printk("evt_que count=%d\n", CIRC_CNT(dev_priv->evt_que_head, dev_priv->evt_que_tail, EV_QUE_MAX));
printk("evt_que space=%d\n", CIRC_SPACE(dev_priv->evt_que_head, dev_priv->evt_que_tail, EV_QUE_MAX));
printk("\ntx_status_state:");
switch(dev_priv->tx_status_state) {
case STATE_TX_INIT:
printk("STATE_TX_INIT\n");
break;
case STATE_TX_IN_PROGRESS:
printk("STATE_TX_IN_PROGRESS\n");
break;
}
printk("tx_status_transmitting_len=%d\n", dev_priv->tx_status_transmitting_len);
printk("rx_cmd_state:");
switch(dev_priv->rx_cmd_state) {
case STATE_RX_INIT:
printk("STATE_RX_INIT\n");
break;
case STATE_RX_WAIT_LEN:
printk("STATE_RX_WAIT_LEN\n");
break;
case STATE_RX_WAIT_DATA:
printk("STATE_RX_WAIT_DATA\n");
break;
case STATE_RX_WAIT_DAEMON:
printk("STATE_RX_WAIT_DAEMON\n");
break;
}
printk("rx_cmd_remain_len=%d\n", dev_priv->rx_cmd_remain_len);
printk("rx_cmd_time=%lx jiffies=%lx (%d sec)\n", dev_priv->rx_cmd_time, jiffies, (int)(jiffies-dev_priv->rx_cmd_time)/HZ);
}
void mdio_private_command(int type)
{
switch(type) {
case 0: //stop reg poll timer
dev_priv->poll_timer_up = 0;
break;
case 1: //start reg poll timer
dev_priv->poll_timer_up = 1;
mod_timer(&dev_priv->reg_poll_timer, jiffies + dev_priv->phy_reg_poll_time);
break;
case 2: //force power down: on
dev_priv->force_power_down = 1;
dev_priv->reg_BMCR_write = 0xf0000; //force poll timer to do power down
break;
case 3: //force power down: off
dev_priv->force_power_down = 0;
dev_priv->reg_BMCR_write = 0xf0000; //force poll timer to do power down
break;
case 4:
dump_private_data();
break;
case 5: //WLAN link up
set_wlanlink_bit(1);
break;
case 6: //WLAN link down
set_wlanlink_bit(0);
break;
}
}
static int mdio_ioctl(struct inode *inode, struct file *filp,
unsigned int cmd, unsigned long arg)
{
unsigned long flags;
struct mdio_priv *priv = (struct mdio_priv *)filp->private_data;
int val, retval = 0;
unsigned char bval;
struct mdio_mem32_param mem_param;
struct reg_param regparam;
/*
* extract the type and number bitfields, and don't decode
* wrong cmds: return ENOTTY (inappropriate ioctl) before access_ok()
*/
if (_IOC_TYPE(cmd) != MDIO_IOC_MAGIC) return -ENOTTY;
if (_IOC_NR(cmd) > MDIO_IOCTL_MAXNR) return -ENOTTY;
switch (cmd) {
case MDIO_IOCTL_PRIV_CMD:
retval = get_user(val, (int *)arg);
if (retval == 0) {
mdio_private_command(val);
}
break;
case MDIO_IOCTL_GET_REG:
retval = copy_from_user(®param, (struct reg_param *)arg, sizeof(struct reg_param));
if (retval == 0) {
//printk("1regparam.addr=%x regparam.val=%x\n", regparam.addr, regparam.val);
regparam.val = get_ether_phy_reg(((regparam.addr>>16)&0xffff), (regparam.addr&0xffff));
//printk("2regparam.addr=%x regparam.val=%x\n", regparam.addr, regparam.val);
}
retval = copy_to_user((struct reg_param *)arg, ®param, sizeof(struct reg_param));
break;
case MDIO_IOCTL_SET_REG:
retval = copy_from_user(®param, (struct reg_param *)arg, sizeof(struct reg_param));
if (retval == 0) {
//printk("regparam.addr=%x regparam.val=%x\n", regparam.addr, regparam.val);
set_ether_phy_reg(((regparam.addr>>16)&0xffff), (regparam.addr&0xffff), regparam.val);
}
break;
case MDIO_IOCTL_SET_HOST_PID:
retval = copy_from_user((void *)&val, (void *)arg, 4);
if (retval == 0) {
#if LINUX_VERSION_CODE < KERNEL_VERSION(2,6,27)
priv->host_pid = val;
#elif LINUX_VERSION_CODE > KERNEL_VERSION(2,6,30)
priv->host_pid = find_pid_ns(val,0);
#else
// TODO : Check in stable 2.6.27
priv->host_pid = task_pid(find_task_by_vpid(val));
//priv->host_pid = task_pid(current);
#endif
DEBUGK_OUT("set pid=%d\n", val);
printk("set pid=%d priv->host_pid=%p\n", val, priv->host_pid);
}
spin_lock_irqsave(&priv->reglock, flags);
REG32(REG_SYSSR) = REG32(REG_SYSSR) | SR_AllSoftwareReady;
spin_unlock_irqrestore(&priv->reglock, flags);
break;
case MDIO_IOCTL_SET_CMD_TIMEOUT:
retval = copy_from_user((void *)&bval, (void *)arg, 1);
if (retval == 0) {
priv->cmd_timeout = (int)bval;
DEBUGK_OUT("set cmd_timeout=%d\n", priv->cmd_timeout);
}
break;
case MDIO_IOCTL_SET_PHY_POLL_TIME:
retval = copy_from_user( (void *)&bval, (void *)arg, 1);
if (retval == 0) {
priv->phy_reg_poll_time = (int)bval;
mod_timer(&priv->reg_poll_timer, jiffies + priv->phy_reg_poll_time);
DEBUGK_OUT("set poll_time=%d\n", priv->phy_reg_poll_time);
}
break;
case MDIO_IOCTL_READ_MEM:
retval = copy_from_user( (void *)&mem_param.addr, (void *)arg, 4);
if (retval == 0) {
mem_param.val = READ_MEM32(mem_param.addr);
retval = copy_to_user((void *)arg, (void *)&mem_param.val, 4);
DEBUGK_OUT("read_mem: addr=0x%x, data=0x%x\n", (int)mem_param.addr, (int)mem_param.val);
}
break;
case MDIO_IOCTL_WRITE_MEM:
retval = copy_from_user((void *)&mem_param, (void *)arg, sizeof(mem_param));
if (retval == 0) {
WRITE_MEM32(mem_param.addr, mem_param.val);
DEBUGK_OUT("write_mem: addr=0x%x, data=0x%x\n", (int)mem_param.addr, (int)mem_param.val);
}
break;
case MDIO_IOCTL_SET_MII_PAUSE:
retval = copy_from_user( (void *)&bval, (void *)arg, 1);
if (retval == 0) {
if (bval == 0) // disable pause
WRITE_MEM32(PCRP0, (~(0x3<<PauseFlowControl))&READ_MEM32(PCRP0));
else
WRITE_MEM32(PCRP0, (3<<PauseFlowControl)|READ_MEM32(PCRP0));
DEBUGK_OUT("set mii_pause=%d\n", bval);
}
break;
case MDIO_IOCTL_SET_ETH_PAUSE:
retval = copy_from_user( (void *)&bval, (void *)arg, 1);
if (retval == 0) {
if (bval == 0) // disable pause
WRITE_MEM32(PCRP3, (~(0x3<<PauseFlowControl))&READ_MEM32(PCRP3));
else
WRITE_MEM32(PCRP3, (3<<PauseFlowControl)|READ_MEM32(PCRP3));
DEBUGK_OUT("set eth_pause=%d\n", bval);
}
break;
case MDIO_IOCTL_SET_MII_CLK:
retval = copy_from_user( (void *)&val, (void *)arg, 4);
if (retval == 0) {
if (val == 0) { //00: 25MHz at 100M mode
WRITE_MEM32(PCRP0, (~(0x3<<20))&READ_MEM32(PCRP0)); //force 100Mbps for port 0
WRITE_MEM32(P0GMIICR, (~(1<<22))&READ_MEM32(P0GMIICR)); //Turbo MII off
}
else if (val == 1) { //01: 2.5MHz at 10M mode
WRITE_MEM32(PCRP0, (1<<20)|((~(0x3<<20))&READ_MEM32(PCRP0))); //force 10Mbps for port 0
WRITE_MEM32(P0GMIICR, (~(1<<22))&READ_MEM32(P0GMIICR)); //Turbo MII off
}
else if (val == 2) { //10: 50MHz at Turbo-MII mode
WRITE_MEM32(PCRP0, (~(0x3<<20))&READ_MEM32(PCRP0)); //force 100Mbps for port 0
WRITE_MEM32(P0GMIICR, (1<<22)|READ_MEM32(P0GMIICR)); //using Turbo MII
}
//printk("set mii clk=%d\n", val);
}
break;
case MDIO_IOCTL_SET_SUSPEND:
retval = copy_from_user( (void *)&bval, (void *)arg, 1);
if (retval == 0) {
cpu_suspend_enabled = (int) bval;
DEBUGK_OUT("set cpu_suspend=%d\n", bval);
}
break;
case MDIO_IOCTL_READ_SCR:
val = register_read_dw(REG_SYSCR);
retval = copy_to_user((void *)arg, (void *)&val, sizeof(val));
DEBUGK_OUT("read_src src=0x%x\n", val);
break;
#ifdef CONFIG_RTK_VOIP_ETHERNET_DSP_IS_DSP
case MDIO_IOCTL_READ_DSP_ID:
{
unsigned int id;
extern unsigned int Get_Ethernet_DSP_ID(void);
id = Get_Ethernet_DSP_ID();
retval = copy_to_user((void *)arg, (void *)&id, sizeof(id));
printk("Get DSP ID = %d\n", id);
break;
}
#endif
#ifdef JUMP_CMD
case MDIO_IOCTL_JUMP_ADDR:
retval = copy_from_user( (void *)&val, (void *)arg, sizeof(val));
if (retval == 0) {
extern void setup_reboot_addr(unsigned long addr);
extern int is_fault;
DEBUGK_OUT("jump to addr=0x%x\n", val);
setup_reboot_addr((unsigned long)val);
is_fault = 1; // cause watchdog reset
}
break;
#endif
default: /* redundant, as cmd was checked against MAXNR */
DEBUGK_ERR("Invalid ioctl cmd [0x%x]!\n", cmd);
return -ENOTTY;
}
return retval;
}
#ifdef SIMULATION
static int read_proc(char *buf, char **start, off_t off,
int count, int *eof, void *data)
{
int size = 0;
if (data_out_len > 0) {
fetch_again:
while (data_out_len > 0) {
data_out_len = 0;
size += sprintf(&buf[size], "%04x ", data_out);
}
msg_is_fetched = 1;
mdio_interrupt(0, (void *)dev_priv, (struct pt_regs *)NULL);
if (data_out_len > 0)
goto fetch_again;
strcat(&buf[size++], "\n");
}
return size;
}
static unsigned short _atoi(char *s, int base)
{
int k = 0;
k = 0;
if (base == 10) {
while (*s != '\0' && *s >= '0' && *s <= '9') {
k = 10 * k + (*s - '0');
s++;
}
}
else {
while (*s != '\0') {
int v;
if ( *s >= '0' && *s <= '9')
v = *s - '0';
else if ( *s >= 'a' && *s <= 'f')
v = *s - 'a' + 10;
else if ( *s >= 'A' && *s <= 'F')
v = *s - 'A' + 10;
else {
DEBUGK_ERR("error hex format [%x]!\n", *s);
return 0;
}
k = 16 * k + v;
s++;
}
}
return (unsigned short)k;
}
static int write_proc(struct file *file, const char *buffer,
unsigned long count, void *data)
{
char tmp[100];
int len=count;
unsigned short in_data;
if (!memcmp(buffer, "cmd: ", 5)) {
buffer += 5;
len -= 5;
data_in_len = 0;
while (len > 0) {
memcpy(tmp, buffer, 4);
tmp[4] = '\0';
in_data = _atoi(tmp, 16);
memcpy(&data_in[data_in_len], &in_data, 2);
data_in_len += 2;
len -= 5;
buffer += 5;
}
data_in_read_idx = 0;
mdio_interrupt(0, (void *)dev_priv, (struct pt_regs *)NULL);
}
else if (!memcmp(buffer, "scr: ", 5)) {
buffer += 5;
memcpy(tmp, buffer, 4);
tmp[4] = '\0';
reg_scr = _atoi(tmp, 16);
}
else if (!memcmp(buffer, "isr: ", 5)) {
buffer += 5;
memcpy(tmp, buffer, 4);
tmp[4] = '\0';
reg_isr = _atoi(tmp, 16);
mdio_interrupt(0, (void *)dev_priv, (struct pt_regs *)NULL);
}
else {
printk("Invalid cmd!\n");
}
return count;
}
#endif
static void __exit mdio_exit(void)
{
//DEBUGK_OUT("%s: major=%d, minor=%d\n", __FUNCTION__, MAJOR(inode->i_rdev), MINOR(inode->i_rdev));
REG32(REG_IMR) = 0;
free_irq(BSP_NFBI_IRQ, dev_priv);
del_timer_sync(&dev_priv->reg_poll_timer);
kfree(dev_priv);
dev_priv = NULL;
}
static struct file_operations mdio_fops = {
read: mdio_read,
write: mdio_write,
ioctl: mdio_ioctl,
open: mdio_open,
release: mdio_close,
};
static int __init mdio_init(void)
{
struct mdio_priv *priv;
if (register_chrdev(DRIVER_MAJOR, DRIVER_NAME, &mdio_fops)) {
DEBUGK_ERR(KERN_ERR DRIVER_NAME": unable to get major %d\n", DRIVER_MAJOR);
return -EIO;
}
#ifdef SIMULATION
struct proc_dir_entry *res;
res = create_proc_entry("mdio_flag", 0, NULL);
if (res) {
res->read_proc = read_proc;
res->write_proc = write_proc;
}
else {
DEBUGK_ERR(KERN_ERR DRIVER_NAME": unable to create /proc/mdio_flag\n");
return -1;
}
#endif
printk(KERN_INFO DRIVER_NAME" driver "DRIVER_VER" at %x (Interrupt %d)\n", NFBI_BASE, BSP_NFBI_IRQ);
DEBUGK_OUT("%s: major=%d, minor=%d\n", __FUNCTION__, MAJOR(inode->i_rdev), MINOR(inode->i_rdev));
priv = (struct mdio_priv *)kmalloc(sizeof (struct mdio_priv), GFP_KERNEL);
if(!priv)
return -ENOMEM;
memset((void *)priv, 0, sizeof (struct mdio_priv));
priv->reglock = SPIN_LOCK_UNLOCKED;
//if (request_irq(BSP_NFBI_IRQ, mdio_interrupt, SA_INTERRUPT, DRIVER_NAME, (void *)priv)) {
//if (request_irq(BSP_NFBI_IRQ, mdio_interrupt, IRQF_DISABLED, DRIVER_NAME, (void *)priv)) {
if (request_irq(BSP_NFBI_IRQ, mdio_interrupt, 0, DRIVER_NAME, (void *)priv)) {
DEBUGK_ERR(KERN_ERR DRIVER_NAME": IRQ %d is not free.\n", BSP_NFBI_IRQ);
return -1;
}
else
printk("Request BSP_NFBI_IRQ successfully.\n");
REG32(REG_IMR) = NEEDED_IRQ_MASK;
#if 1
//force the poll time to update the register
priv->reg_BMCR_write = 0xf0000;
priv->reg_BMCR_read = 0xf0000;
priv->reg_BMSR_read = 0xf0000;
priv->reg_ANAR_write = 0xf0000;
priv->reg_ANAR_read = 0xf0000;
priv->reg_ANLPAR_read = 0xf0000;
priv->eth_phy_link_status = -1;
#else
priv->reg_BMCR_write = REG32(REG_BMCR);
set_ether_phy_reg(ETH_PORT_NUM, 0, priv->reg_BMCR_write);
priv->reg_BMCR_read = get_ether_phy_reg(ETH_PORT_NUM, 0);
REG32(REG_BMCR) = priv->reg_BMCR_read;
priv->reg_BMSR_read = get_ether_phy_reg(ETH_PORT_NUM, 1);
REG32(REG_BMSR) = priv->reg_BMSR_read;
priv->reg_ANAR_write = REG32(REG_ANAR);
set_ether_phy_reg(ETH_PORT_NUM, 4, priv->reg_ANAR_write);
//printk("priv->reg_ANAR_write=%x\n", priv->reg_ANAR_write);
priv->reg_ANAR_read = get_ether_phy_reg(ETH_PORT_NUM, 4);
REG32(REG_ANAR) = priv->reg_ANAR_read;
//printk("priv->reg_ANAR_read=%x\n", priv->reg_ANAR_read);
priv->reg_ANLPAR_read = get_ether_phy_reg(ETH_PORT_NUM, 5);
REG32(REG_ANLPAR) = priv->reg_ANLPAR_read;
priv->eth_phy_link_status = ((priv->reg_BMSR_read & BIT(2)) ? 1 : 0);
#endif
init_timer(&priv->reg_poll_timer);
priv->reg_poll_timer.data = (unsigned long)priv;
priv->reg_poll_timer.function = mdio_reg_poll_timer;
priv->poll_timer_up = 0;
priv->force_power_down = 0;
#if LINUX_VERSION_CODE < KERNEL_VERSION(2,6,27)
priv->host_pid = -1;
#else
priv->host_pid = NULL;
#endif
dev_priv = priv;
return 0;
}
/*================================================================*/
module_init(mdio_init);
module_exit(mdio_exit);
MODULE_DESCRIPTION("Driver for RTL8197B MDC/MDIO");
MODULE_LICENSE("none-GPL");
//EXPORT_NO_SYMBOLS;
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