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minix/drivers/rtl8169/rtl8169.c
Lionel Sambuc 9fab85c2de Replacing timer_t by netbsd's timer_t 
* Renamed struct timer to struct minix_timer
 * Renamed timer_t to minix_timer_t
 * Ensured all the code uses the minix_timer_t typedef
 * Removed ifdef around _BSD_TIMER_T
 * Removed include/timers.h and merged it into include/minix/timers.h
 * Resolved prototype conflict by renaming kernel's (re)set_timer
   to (re)set_kernel_timer.

Change-Id: I56f0f30dfed96e1a0575d92492294cf9a06468a5
2014-03-01 09:04:54 +01:00

1925 lines
48 KiB
C
Raw Blame History

/*
* rtl8169.c
*
* This file contains a ethernet device driver for Realtek rtl8169 based
* ethernet cards.
*
*/
#include <minix/drivers.h>
#include <minix/netdriver.h>
#include <stdlib.h>
#include <stdio.h>
#include <string.h>
#include <minix/com.h>
#include <minix/ds.h>
#include <minix/syslib.h>
#include <minix/type.h>
#include <minix/sysutil.h>
#include <minix/endpoint.h>
#include <minix/timers.h>
#include <net/hton.h>
#include <net/gen/ether.h>
#include <net/gen/eth_io.h>
#include <machine/pci.h>
#include <sys/types.h>
#include <assert.h>
#include <unistd.h>
#include "kernel/const.h"
#include "kernel/config.h"
#include "kernel/type.h"
#define VERBOSE 0 /* display message during init */
#include "rtl8169.h"
#define IOVEC_NR 16 /* I/O vectors are handled IOVEC_NR entries at a time. */
#define RE_DTCC_VALUE 600 /* DTCC Update after every 10 minutes */
#define RX_CONFIG_MASK 0xff7e1880 /* Clears the bits supported by chip */
#define RE_INTR_MASK (RL_IMR_TDU | RL_IMR_FOVW | RL_IMR_PUN | RL_IMR_RDU | RL_IMR_TER | RL_IMR_TOK | RL_IMR_RER | RL_IMR_ROK)
#define RL_ENVVAR "RTLETH" /* Configuration */
typedef struct re_desc
{
u32_t status; /* command/status */
u32_t vlan; /* VLAN */
u32_t addr_low; /* low 32-bits of physical buffer address */
u32_t addr_high; /* high 32-bits of physical buffer address */
} re_desc;
typedef struct re_dtcc
{
u32_t TxOk_low; /* low 32-bits of Tx Ok packets */
u32_t TxOk_high; /* high 32-bits of Tx Ok packets */
u32_t RxOk_low; /* low 32-bits of Rx Ok packets */
u32_t RxOk_high; /* high 32-bits of Rx Ok packets */
u32_t TxEr_low; /* low 32-bits of Tx errors */
u32_t TxEr_high; /* high 32-bits of Tx errors */
u32_t RxEr; /* Rx errors */
u16_t MissPkt; /* Missed packets */
u16_t FAE; /* Frame Aignment Error packets (MII mode only) */
u32_t Tx1Col; /* Tx Ok packets with only 1 collision happened before Tx Ok */
u32_t TxMCol; /* Tx Ok packets with > 1 and < 16 collisions happened before Tx Ok */
u32_t RxOkPhy_low; /* low 32-bits of Rx Ok packets with physical addr destination ID */
u32_t RxOkPhy_high; /* high 32-bits of Rx Ok packets with physical addr destination ID */
u32_t RxOkBrd_low; /* low 32-bits of Rx Ok packets with broadcast destination ID */
u32_t RxOkBrd_high; /* high 32-bits of Rx Ok packets with broadcast destination ID */
u32_t RxOkMul; /* Rx Ok Packets with multicast destination ID */
u16_t TxAbt; /* Tx abort packets */
u16_t TxUndrn; /* Tx underrun packets */
} re_dtcc;
typedef struct re {
port_t re_base_port;
int re_irq;
int re_mode;
int re_flags;
endpoint_t re_client;
int re_link_up;
int re_got_int;
int re_send_int;
int re_report_link;
int re_need_reset;
int re_tx_alive;
int setup;
u32_t re_mac;
char *re_model;
/* Rx */
int re_rx_head;
struct {
int ret_busy;
phys_bytes ret_buf;
char *v_ret_buf;
} re_rx[N_RX_DESC];
vir_bytes re_read_s;
re_desc *re_rx_desc; /* Rx descriptor buffer */
phys_bytes p_rx_desc; /* Rx descriptor buffer physical */
/* Tx */
int re_tx_head;
struct {
int ret_busy;
phys_bytes ret_buf;
char *v_ret_buf;
} re_tx[N_TX_DESC];
re_desc *re_tx_desc; /* Tx descriptor buffer */
phys_bytes p_tx_desc; /* Tx descriptor buffer physical */
/* PCI related */
int re_seen; /* TRUE iff device available */
/* 'large' items */
int re_hook_id; /* IRQ hook id at kernel */
eth_stat_t re_stat;
phys_bytes dtcc_buf; /* Dump Tally Counter buffer physical */
re_dtcc *v_dtcc_buf; /* Dump Tally Counter buffer */
u32_t dtcc_counter; /* DTCC update counter */
ether_addr_t re_address;
message re_rx_mess;
message re_tx_mess;
char re_name[sizeof("rtl8169#n")];
iovec_t re_iovec[IOVEC_NR];
iovec_s_t re_iovec_s[IOVEC_NR];
u32_t interrupts;
}
re_t;
#define REM_DISABLED 0x0
#define REM_ENABLED 0x1
#define REF_PACK_SENT 0x001
#define REF_PACK_RECV 0x002
#define REF_SEND_AVAIL 0x004
#define REF_READING 0x010
#define REF_EMPTY 0x000
#define REF_PROMISC 0x040
#define REF_MULTI 0x080
#define REF_BROAD 0x100
#define REF_ENABLED 0x200
static re_t re_state;
static int re_instance;
static unsigned my_inb(u16_t port)
{
u32_t value;
int s;
if ((s = sys_inb(port, &value)) != OK)
printf("RTL8169: warning, sys_inb failed: %d\n", s);
return value;
}
static unsigned my_inw(u16_t port)
{
u32_t value;
int s;
if ((s = sys_inw(port, &value)) != OK)
printf("RTL8169: warning, sys_inw failed: %d\n", s);
return value;
}
static unsigned my_inl(u16_t port)
{
u32_t value;
int s;
if ((s = sys_inl(port, &value)) != OK)
printf("RTL8169: warning, sys_inl failed: %d\n", s);
return value;
}
#define rl_inb(port, offset) (my_inb((port) + (offset)))
#define rl_inw(port, offset) (my_inw((port) + (offset)))
#define rl_inl(port, offset) (my_inl((port) + (offset)))
static void my_outb(u16_t port, u8_t value)
{
int s;
if ((s = sys_outb(port, value)) != OK)
printf("RTL8169: warning, sys_outb failed: %d\n", s);
}
static void my_outw(u16_t port, u16_t value)
{
int s;
if ((s = sys_outw(port, value)) != OK)
printf("RTL8169: warning, sys_outw failed: %d\n", s);
}
static void my_outl(u16_t port, u32_t value)
{
int s;
if ((s = sys_outl(port, value)) != OK)
printf("RTL8169: warning, sys_outl failed: %d\n", s);
}
#define rl_outb(port, offset, value) (my_outb((port) + (offset), (value)))
#define rl_outw(port, offset, value) (my_outw((port) + (offset), (value)))
#define rl_outl(port, offset, value) (my_outl((port) + (offset), (value)))
static void rl_init(message *mp);
static void rl_pci_conf(void);
static int rl_probe(re_t *rep, int skip);
static void rl_conf_hw(re_t *rep);
static void rl_init_buf(re_t *rep);
static void rl_init_hw(re_t *rep);
static void rl_reset_hw(re_t *rep);
static void rl_confaddr(re_t *rep);
static void rl_rec_mode(re_t *rep);
static void rl_readv_s(const message *mp, int from_int);
static void rl_writev_s(const message *mp, int from_int);
static void rl_check_ints(re_t *rep);
static void rl_report_link(re_t *rep);
static void rl_do_reset(re_t *rep);
static void rl_getstat_s(message *mp);
static void reply(re_t *rep);
static void mess_reply(message *req, message *reply);
static void check_int_events(void);
static void do_hard_int(void);
static void dump_phy(const re_t *rep);
static void rl_handler(re_t *rep);
static void rl_watchdog_f(minix_timer_t *tp);
/*
* The message used in the main loop is made global, so that rl_watchdog_f()
* can change its message type to fake an interrupt message.
*/
static message m;
static int int_event_check; /* set to TRUE if events arrived */
u32_t system_hz;
/* SEF functions and variables. */
static void sef_local_startup(void);
static int sef_cb_init_fresh(int type, sef_init_info_t *info);
static void sef_cb_signal_handler(int signo);
/*===========================================================================*
* main *
*===========================================================================*/
int main(int argc, char *argv[])
{
int r;
int ipc_status;
/* SEF local startup. */
env_setargs(argc, argv);
sef_local_startup();
while (TRUE) {
if ((r = netdriver_receive(ANY, &m, &ipc_status)) != OK)
panic("netdriver_receive failed: %d", r);
if (is_ipc_notify(ipc_status)) {
switch (_ENDPOINT_P(m.m_source)) {
case CLOCK:
/*
* Under MINIX, synchronous alarms are used
* instead of watchdog functions.
* The approach is very different: MINIX VMD
* timeouts are handled within the kernel
* (the watchdog is executed by CLOCK), and
* notify() the driver in some cases. MINIX
* timeouts result in a SYN_ALARM message to
* the driver and thus are handled where they
* should be handled. Locally, watchdog
* functions are used again.
*/
rl_watchdog_f(NULL);
break;
case HARDWARE:
do_hard_int();
if (int_event_check) {
check_int_events();
}
break ;
default:
panic("illegal notify from: %d", m.m_type);
}
/* done, get nwe message */
continue;
}
switch (m.m_type) {
case DL_WRITEV_S: rl_writev_s(&m, FALSE); break;
case DL_READV_S: rl_readv_s(&m, FALSE); break;
case DL_CONF: rl_init(&m); break;
case DL_GETSTAT_S: rl_getstat_s(&m); break;
default:
panic("illegal message: %d", m.m_type);
}
}
}
/*===========================================================================*
* sef_local_startup *
*===========================================================================*/
static void sef_local_startup()
{
/* Register init callbacks. */
sef_setcb_init_fresh(sef_cb_init_fresh);
sef_setcb_init_lu(sef_cb_init_fresh);
sef_setcb_init_restart(sef_cb_init_fresh);
/* Register live update callbacks. */
sef_setcb_lu_prepare(sef_cb_lu_prepare_always_ready);
sef_setcb_lu_state_isvalid(sef_cb_lu_state_isvalid_workfree);
/* Register signal callbacks. */
sef_setcb_signal_handler(sef_cb_signal_handler);
/* Let SEF perform startup. */
sef_startup();
}
/*===========================================================================*
* sef_cb_init_fresh *
*===========================================================================*/
static int sef_cb_init_fresh(int type, sef_init_info_t *UNUSED(info))
{
/* Initialize the rtl8169 driver. */
long v;
system_hz = sys_hz();
v = 0;
(void) env_parse("instance", "d", 0, &v, 0, 255);
re_instance = (int) v;
/* Claim buffer memory now. */
rl_init_buf(&re_state);
/* Announce we are up! */
netdriver_announce();
return(OK);
}
/*===========================================================================*
* sef_cb_signal_handler *
*===========================================================================*/
static void sef_cb_signal_handler(int signo)
{
re_t *rep;
/* Only check for termination signal, ignore anything else. */
if (signo != SIGTERM) return;
rep = &re_state;
if (rep->re_mode == REM_ENABLED)
rl_outb(rep->re_base_port, RL_CR, RL_CR_RST);
exit(0);
}
static void mdio_write(u16_t port, int regaddr, int value)
{
int i;
rl_outl(port, RL_PHYAR, 0x80000000 | (regaddr & 0x1F) << 16 | (value & 0xFFFF));
for (i = 20; i > 0; i--) {
/*
* Check if the RTL8169 has completed writing to the specified
* MII register
*/
if (!(rl_inl(port, RL_PHYAR) & 0x80000000))
break;
else
micro_delay(50);
}
}
static int mdio_read(u16_t port, int regaddr)
{
int i, value = -1;
rl_outl(port, RL_PHYAR, (regaddr & 0x1F) << 16);
for (i = 20; i > 0; i--) {
/*
* Check if the RTL8169 has completed retrieving data from
* the specified MII register
*/
if (rl_inl(port, RL_PHYAR) & 0x80000000) {
value = (int)(rl_inl(port, RL_PHYAR) & 0xFFFF);
break;
} else
micro_delay(50);
}
return value;
}
/*===========================================================================*
* check_int_events *
*===========================================================================*/
static void check_int_events(void)
{
re_t *rep;
rep = &re_state;
if (rep->re_mode != REM_ENABLED)
return;
if (!rep->re_got_int)
return;
rep->re_got_int = 0;
assert(rep->re_flags & REF_ENABLED);
rl_check_ints(rep);
}
static void rtl8169_update_stat(re_t *rep)
{
port_t port;
int i;
port = rep->re_base_port;
/* Fetch Missed Packets */
rep->re_stat.ets_missedP += rl_inw(port, RL_MPC);
rl_outw(port, RL_MPC, 0x00);
/* Dump Tally Counter Command */
rl_outl(port, RL_DTCCR_HI, 0); /* 64 bits */
rl_outl(port, RL_DTCCR_LO, rep->dtcc_buf | RL_DTCCR_CMD);
for (i = 0; i < 1000; i++) {
if (!(rl_inl(port, RL_DTCCR_LO) & RL_DTCCR_CMD))
break;
micro_delay(10);
}
/* Update counters */
rep->re_stat.ets_frameAll = rep->v_dtcc_buf->FAE;
rep->re_stat.ets_transDef = rep->v_dtcc_buf->TxUndrn;
rep->re_stat.ets_transAb = rep->v_dtcc_buf->TxAbt;
rep->re_stat.ets_collision =
rep->v_dtcc_buf->Tx1Col + rep->v_dtcc_buf->TxMCol;
}
#if 0
/*===========================================================================*
* rtl8169_dump *
*===========================================================================*/
static void rtl8169_dump(void)
{
re_dtcc *dtcc;
re_t *rep;
rep = &re_state;
printf("\n");
if (rep->re_mode == REM_DISABLED)
printf("Realtek RTL 8169 instance %d is disabled\n",
re_instance);
if (rep->re_mode != REM_ENABLED)
return;
rtl8169_update_stat(rep);
printf("Realtek RTL 8169 statistics of instance %d:\n", re_instance);
printf("recvErr :%8ld\t", rep->re_stat.ets_recvErr);
printf("sendErr :%8ld\t", rep->re_stat.ets_sendErr);
printf("OVW :%8ld\n", rep->re_stat.ets_OVW);
printf("CRCerr :%8ld\t", rep->re_stat.ets_CRCerr);
printf("frameAll :%8ld\t", rep->re_stat.ets_frameAll);
printf("missedP :%8ld\n", rep->re_stat.ets_missedP);
printf("packetR :%8ld\t", rep->re_stat.ets_packetR);
printf("packetT :%8ld\t", rep->re_stat.ets_packetT);
printf("transDef :%8ld\n", rep->re_stat.ets_transDef);
printf("collision :%8ld\t", rep->re_stat.ets_collision);
printf("transAb :%8ld\t", rep->re_stat.ets_transAb);
printf("carrSense :%8ld\n", rep->re_stat.ets_carrSense);
printf("fifoUnder :%8ld\t", rep->re_stat.ets_fifoUnder);
printf("fifoOver :%8ld\t", rep->re_stat.ets_fifoOver);
printf("OWC :%8ld\n", rep->re_stat.ets_OWC);
printf("interrupts :%8lu\n", rep->interrupts);
printf("\nRealtek RTL 8169 Tally Counters:\n");
dtcc = rep->v_dtcc_buf;
if (dtcc->TxOk_high)
printf("TxOk :%8ld%08ld\t", dtcc->TxOk_high, dtcc->TxOk_low);
else
printf("TxOk :%16lu\t", dtcc->TxOk_low);
if (dtcc->RxOk_high)
printf("RxOk :%8ld%08ld\n", dtcc->RxOk_high, dtcc->RxOk_low);
else
printf("RxOk :%16lu\n", dtcc->RxOk_low);
if (dtcc->TxEr_high)
printf("TxEr :%8ld%08ld\t", dtcc->TxEr_high, dtcc->TxEr_low);
else
printf("TxEr :%16ld\t", dtcc->TxEr_low);
printf("RxEr :%16ld\n", dtcc->RxEr);
printf("Tx1Col :%16ld\t", dtcc->Tx1Col);
printf("TxMCol :%16ld\n", dtcc->TxMCol);
if (dtcc->RxOkPhy_high)
printf("RxOkPhy :%8ld%08ld\t", dtcc->RxOkPhy_high, dtcc->RxOkPhy_low);
else
printf("RxOkPhy :%16ld\t", dtcc->RxOkPhy_low);
if (dtcc->RxOkBrd_high)
printf("RxOkBrd :%8ld%08ld\n", dtcc->RxOkBrd_high, dtcc->RxOkBrd_low);
else
printf("RxOkBrd :%16ld\n", dtcc->RxOkBrd_low);
printf("RxOkMul :%16ld\t", dtcc->RxOkMul);
printf("MissPkt :%16d\n", dtcc->MissPkt);
printf("\nRealtek RTL 8169 Miscellaneous Info:\n");
printf("re_flags : 0x%08x\n", rep->re_flags);
printf("tx_head :%8d busy %d\t",
rep->re_tx_head, rep->re_tx[rep->re_tx_head].ret_busy);
}
#endif
/*===========================================================================*
* do_init *
*===========================================================================*/
static void rl_init(mp)
message *mp;
{
static int first_time = 1;
re_t *rep;
message reply_mess;
if (first_time) {
first_time = 0;
rl_pci_conf(); /* Configure PCI devices. */
/* Use a synchronous alarm instead of a watchdog timer. */
sys_setalarm(system_hz, 0);
}
rep = &re_state;
if (rep->re_mode == REM_DISABLED) {
/* This is the default, try to (re)locate the device. */
rl_conf_hw(rep);
if (rep->re_mode == REM_DISABLED) {
/* Probe failed, or the device is configured off. */
reply_mess.m_type = DL_CONF_REPLY;
reply_mess.DL_STAT = ENXIO;
mess_reply(mp, &reply_mess);
return;
}
if (rep->re_mode == REM_ENABLED)
rl_init_hw(rep);
}
assert(rep->re_mode == REM_ENABLED);
assert(rep->re_flags & REF_ENABLED);
rep->re_flags &= ~(REF_PROMISC | REF_MULTI | REF_BROAD);
if (mp->DL_MODE & DL_PROMISC_REQ)
rep->re_flags |= REF_PROMISC;
if (mp->DL_MODE & DL_MULTI_REQ)
rep->re_flags |= REF_MULTI;
if (mp->DL_MODE & DL_BROAD_REQ)
rep->re_flags |= REF_BROAD;
rl_rec_mode(rep);
reply_mess.m_type = DL_CONF_REPLY;
reply_mess.DL_STAT = OK;
*(ether_addr_t *) reply_mess.DL_HWADDR = rep->re_address;
mess_reply(mp, &reply_mess);
}
/*===========================================================================*
* rl_pci_conf *
*===========================================================================*/
static void rl_pci_conf()
{
re_t *rep;
rep = &re_state;
strlcpy(rep->re_name, "rtl8169#0", sizeof(rep->re_name));
rep->re_name[8] += re_instance;
rep->re_seen = FALSE;
pci_init();
if (rl_probe(rep, re_instance))
rep->re_seen = TRUE;
}
/*===========================================================================*
* rl_probe *
*===========================================================================*/
static int rl_probe(rep, skip)
re_t *rep;
int skip;
{
int r, devind;
u16_t vid, did;
u32_t bar;
u8_t ilr;
#if VERBOSE
char *dname;
#endif
r = pci_first_dev(&devind, &vid, &did);
if (r == 0)
return 0;
while (skip--) {
r = pci_next_dev(&devind, &vid, &did);
if (!r)
return 0;
}
#if VERBOSE
dname = pci_dev_name(vid, did);
if (!dname)
dname = "unknown device";
printf("%s: ", rep->re_name);
printf("%s (%x/%x) at %s\n", dname, vid, did, pci_slot_name(devind));
#endif
pci_reserve(devind);
bar = pci_attr_r32(devind, PCI_BAR) & 0xffffffe0;
if (bar < 0x400) {
panic("base address is not properly configured");
}
rep->re_base_port = bar;
ilr = pci_attr_r8(devind, PCI_ILR);
rep->re_irq = ilr;
#if VERBOSE
printf("%s: using I/O address 0x%lx, IRQ %d\n",
rep->re_name, (unsigned long)bar, ilr);
#endif
return TRUE;
}
/*===========================================================================*
* rl_conf_hw *
*===========================================================================*/
static void rl_conf_hw(rep)
re_t *rep;
{
static eth_stat_t empty_stat = {0, 0, 0, 0, 0, 0 /* ,... */ };
rep->re_mode = REM_DISABLED; /* Superfluous */
if (rep->re_seen)
rep->re_mode = REM_ENABLED; /* PCI device is present */
if (rep->re_mode != REM_ENABLED)
return;
rep->re_flags = REF_EMPTY;
rep->re_link_up = 0;
rep->re_got_int = 0;
rep->re_send_int = 0;
rep->re_report_link = 0;
rep->re_need_reset = 0;
rep->re_tx_alive = 0;
rep->re_rx_head = 0;
rep->re_read_s = 0;
rep->re_tx_head = 0;
rep->re_stat = empty_stat;
rep->dtcc_counter = 0;
}
/*===========================================================================*
* rl_init_buf *
*===========================================================================*/
static void rl_init_buf(rep)
re_t *rep;
{
size_t rx_bufsize, tx_bufsize, rx_descsize, tx_descsize, tot_bufsize;
struct re_desc *desc;
phys_bytes buf;
char *mallocbuf;
int d;
assert(!rep->setup);
/* Allocate receive and transmit descriptors */
rx_descsize = (N_RX_DESC * sizeof(struct re_desc));
tx_descsize = (N_TX_DESC * sizeof(struct re_desc));
/* Allocate receive and transmit buffers */
tx_bufsize = ETH_MAX_PACK_SIZE_TAGGED;
if (tx_bufsize % 4)
tx_bufsize += 4-(tx_bufsize % 4); /* Align */
rx_bufsize = RX_BUFSIZE;
tot_bufsize = rx_descsize + tx_descsize;
tot_bufsize += (N_TX_DESC * tx_bufsize) + (N_RX_DESC * rx_bufsize);
tot_bufsize += sizeof(struct re_dtcc);
if (tot_bufsize % 4096)
tot_bufsize += 4096 - (tot_bufsize % 4096);
if (!(mallocbuf = alloc_contig(tot_bufsize, AC_ALIGN64K, &buf)))
panic("Couldn't allocate kernel buffer");
/* Rx Descriptor */
rep->re_rx_desc = (re_desc *)mallocbuf;
rep->p_rx_desc = buf;
memset(mallocbuf, 0x00, rx_descsize);
buf += rx_descsize;
mallocbuf += rx_descsize;
/* Tx Descriptor */
rep->re_tx_desc = (re_desc *)mallocbuf;
rep->p_tx_desc = buf;
memset(mallocbuf, 0x00, tx_descsize);
buf += tx_descsize;
mallocbuf += tx_descsize;
desc = rep->re_rx_desc;
for (d = 0; d < N_RX_DESC; d++) {
/* Setting Rx buffer */
rep->re_rx[d].ret_buf = buf;
rep->re_rx[d].v_ret_buf = mallocbuf;
buf += rx_bufsize;
mallocbuf += rx_bufsize;
/* Setting Rx descriptor */
if (d == (N_RX_DESC - 1)) /* Last descriptor? if so, set the EOR bit */
desc->status = DESC_EOR | DESC_OWN | (RX_BUFSIZE & DESC_RX_LENMASK);
else
desc->status = DESC_OWN | (RX_BUFSIZE & DESC_RX_LENMASK);
desc->addr_low = rep->re_rx[d].ret_buf;
desc++;
}
desc = rep->re_tx_desc;
for (d = 0; d < N_TX_DESC; d++) {
rep->re_tx[d].ret_busy = FALSE;
rep->re_tx[d].ret_buf = buf;
rep->re_tx[d].v_ret_buf = mallocbuf;
buf += tx_bufsize;
mallocbuf += tx_bufsize;
/* Setting Tx descriptor */
desc->addr_low = rep->re_tx[d].ret_buf;
desc++;
}
/* Dump Tally Counter buffer */
rep->dtcc_buf = buf;
rep->v_dtcc_buf = (re_dtcc *)mallocbuf;
rep->setup = 1;
}
/*===========================================================================*
* rl_init_hw *
*===========================================================================*/
static void rl_init_hw(rep)
re_t *rep;
{
int s;
#if VERBOSE
int i;
#endif
rep->re_flags = REF_EMPTY;
rep->re_flags |= REF_ENABLED;
/*
* Set the interrupt handler. The policy is to only send HARD_INT
* notifications. Don't reenable interrupts automatically. The id
* that is passed back is the interrupt line number.
*/
rep->re_hook_id = rep->re_irq;
if ((s = sys_irqsetpolicy(rep->re_irq, 0, &rep->re_hook_id)) != OK)
printf("RTL8169: error, couldn't set IRQ policy: %d\n", s);
rl_reset_hw(rep);
if ((s = sys_irqenable(&rep->re_hook_id)) != OK)
printf("RTL8169: error, couldn't enable interrupts: %d\n", s);
#if VERBOSE
printf("%s: model: %s mac: 0x%08x\n",
rep->re_name, rep->re_model, rep->re_mac);
#endif
rl_confaddr(rep);
#if VERBOSE
printf("%s: Ethernet address ", rep->re_name);
for (i = 0; i < 6; i++) {
printf("%x%c", rep->re_address.ea_addr[i],
i < 5 ? ':' : '\n');
}
#endif
}
static void rtl8169s_phy_config(port_t port)
{
mdio_write(port, 0x1f, 0x0001);
mdio_write(port, 0x06, 0x006e);
mdio_write(port, 0x08, 0x0708);
mdio_write(port, 0x15, 0x4000);
mdio_write(port, 0x18, 0x65c7);
mdio_write(port, 0x1f, 0x0001);
mdio_write(port, 0x03, 0x00a1);
mdio_write(port, 0x02, 0x0008);
mdio_write(port, 0x01, 0x0120);
mdio_write(port, 0x00, 0x1000);
mdio_write(port, 0x04, 0x0800);
mdio_write(port, 0x04, 0x0000);
mdio_write(port, 0x03, 0xff41);
mdio_write(port, 0x02, 0xdf60);
mdio_write(port, 0x01, 0x0140);
mdio_write(port, 0x00, 0x0077);
mdio_write(port, 0x04, 0x7800);
mdio_write(port, 0x04, 0x7000);
mdio_write(port, 0x03, 0x802f);
mdio_write(port, 0x02, 0x4f02);
mdio_write(port, 0x01, 0x0409);
mdio_write(port, 0x00, 0xf0f9);
mdio_write(port, 0x04, 0x9800);
mdio_write(port, 0x04, 0x9000);
mdio_write(port, 0x03, 0xdf01);
mdio_write(port, 0x02, 0xdf20);
mdio_write(port, 0x01, 0xff95);
mdio_write(port, 0x00, 0xba00);
mdio_write(port, 0x04, 0xa800);
mdio_write(port, 0x04, 0xa000);
mdio_write(port, 0x03, 0xff41);
mdio_write(port, 0x02, 0xdf20);
mdio_write(port, 0x01, 0x0140);
mdio_write(port, 0x00, 0x00bb);
mdio_write(port, 0x04, 0xb800);
mdio_write(port, 0x04, 0xb000);
mdio_write(port, 0x03, 0xdf41);
mdio_write(port, 0x02, 0xdc60);
mdio_write(port, 0x01, 0x6340);
mdio_write(port, 0x00, 0x007d);
mdio_write(port, 0x04, 0xd800);
mdio_write(port, 0x04, 0xd000);
mdio_write(port, 0x03, 0xdf01);
mdio_write(port, 0x02, 0xdf20);
mdio_write(port, 0x01, 0x100a);
mdio_write(port, 0x00, 0xa0ff);
mdio_write(port, 0x04, 0xf800);
mdio_write(port, 0x04, 0xf000);
mdio_write(port, 0x1f, 0x0000);
mdio_write(port, 0x0b, 0x0000);
mdio_write(port, 0x00, 0x9200);
}
static void rtl8169scd_phy_config(port_t port)
{
mdio_write(port, 0x1f, 0x0001);
mdio_write(port, 0x04, 0x0000);
mdio_write(port, 0x03, 0x00a1);
mdio_write(port, 0x02, 0x0008);
mdio_write(port, 0x01, 0x0120);
mdio_write(port, 0x00, 0x1000);
mdio_write(port, 0x04, 0x0800);
mdio_write(port, 0x04, 0x9000);
mdio_write(port, 0x03, 0x802f);
mdio_write(port, 0x02, 0x4f02);
mdio_write(port, 0x01, 0x0409);
mdio_write(port, 0x00, 0xf099);
mdio_write(port, 0x04, 0x9800);
mdio_write(port, 0x04, 0xa000);
mdio_write(port, 0x03, 0xdf01);
mdio_write(port, 0x02, 0xdf20);
mdio_write(port, 0x01, 0xff95);
mdio_write(port, 0x00, 0xba00);
mdio_write(port, 0x04, 0xa800);
mdio_write(port, 0x04, 0xf000);
mdio_write(port, 0x03, 0xdf01);
mdio_write(port, 0x02, 0xdf20);
mdio_write(port, 0x01, 0x101a);
mdio_write(port, 0x00, 0xa0ff);
mdio_write(port, 0x04, 0xf800);
mdio_write(port, 0x04, 0x0000);
mdio_write(port, 0x1f, 0x0000);
mdio_write(port, 0x1f, 0x0001);
mdio_write(port, 0x10, 0xf41b);
mdio_write(port, 0x14, 0xfb54);
mdio_write(port, 0x18, 0xf5c7);
mdio_write(port, 0x1f, 0x0000);
mdio_write(port, 0x1f, 0x0001);
mdio_write(port, 0x17, 0x0cc0);
mdio_write(port, 0x1f, 0x0000);
}
/*===========================================================================*
* rl_reset_hw *
*===========================================================================*/
static void rl_reset_hw(rep)
re_t *rep;
{
port_t port;
u32_t t;
int i;
port = rep->re_base_port;
rl_outw(port, RL_IMR, 0x0000);
/* Reset the device */
rl_outb(port, RL_CR, RL_CR_RST);
SPIN_UNTIL(!(rl_inb(port, RL_CR) & RL_CR_RST), 1000000);
if (rl_inb(port, RL_CR) & RL_CR_RST)
printf("rtl8169: reset failed to complete");
rl_outw(port, RL_ISR, 0xFFFF);
/* Get Model and MAC info */
t = rl_inl(port, RL_TCR);
rep->re_mac = (t & (RL_TCR_HWVER_AM | RL_TCR_HWVER_BM));
switch (rep->re_mac) {
case RL_TCR_HWVER_RTL8169:
rep->re_model = "RTL8169";
rl_outw(port, RL_CCR_UNDOC, 0x01);
break;
case RL_TCR_HWVER_RTL8169S:
rep->re_model = "RTL8169S";
rtl8169s_phy_config(port);
rl_outw(port, RL_CCR_UNDOC, 0x01);
mdio_write(port, 0x0b, 0x0000); /* w 0x0b 15 0 0 */
break;
case RL_TCR_HWVER_RTL8110S:
rep->re_model = "RTL8110S";
rtl8169s_phy_config(port);
rl_outw(port, RL_CCR_UNDOC, 0x01);
break;
case RL_TCR_HWVER_RTL8169SB:
rep->re_model = "RTL8169SB";
mdio_write(port, 0x1f, 0x02);
mdio_write(port, 0x01, 0x90d0);
mdio_write(port, 0x1f, 0x00);
rl_outw(port, RL_CCR_UNDOC, 0x01);
break;
case RL_TCR_HWVER_RTL8110SCd:
rep->re_model = "RTL8110SCd";
rtl8169scd_phy_config(port);
rl_outw(port, RL_CCR_UNDOC, 0x01);
break;
case RL_TCR_HWVER_RTL8105E:
rep->re_model = "RTL8105E";
break;
default:
rep->re_model = "Unknown";
rep->re_mac = t;
break;
}
mdio_write(port, MII_CTRL, MII_CTRL_RST);
for (i = 0; i < 1000; i++) {
t = mdio_read(port, MII_CTRL);
if (!(t & MII_CTRL_RST))
break;
else
micro_delay(100);
}
t = mdio_read(port, MII_CTRL) | MII_CTRL_ANE | MII_CTRL_DM | MII_CTRL_SP_1000;
mdio_write(port, MII_CTRL, t);
t = mdio_read(port, MII_ANA);
t |= MII_ANA_10THD | MII_ANA_10TFD | MII_ANA_100TXHD | MII_ANA_100TXFD;
t |= MII_ANA_PAUSE_SYM | MII_ANA_PAUSE_ASYM;
mdio_write(port, MII_ANA, t);
t = mdio_read(port, MII_1000_CTRL) | 0x300;
mdio_write(port, MII_1000_CTRL, t);
/* Restart Auto-Negotiation Process */
t = mdio_read(port, MII_CTRL) | MII_CTRL_ANE | MII_CTRL_RAN;
mdio_write(port, MII_CTRL, t);
rl_outw(port, RL_9346CR, RL_9346CR_EEM_CONFIG); /* Unlock */
switch (rep->re_mac) {
case RL_TCR_HWVER_RTL8169S:
case RL_TCR_HWVER_RTL8110S:
/* Bit-3 and bit-14 of the C+CR register MUST be 1. */
t = rl_inw(port, RL_CPLUSCMD);
rl_outw(port, RL_CPLUSCMD, t | RL_CPLUS_MULRW | (1 << 14));
break;
case RL_TCR_HWVER_RTL8169:
case RL_TCR_HWVER_RTL8169SB:
case RL_TCR_HWVER_RTL8110SCd:
t = rl_inw(port, RL_CPLUSCMD);
rl_outw(port, RL_CPLUSCMD, t | RL_CPLUS_MULRW);
break;
}
rl_outw(port, RL_INTRMITIGATE, 0x00);
t = rl_inb(port, RL_CR);
rl_outb(port, RL_CR, t | RL_CR_RE | RL_CR_TE);
/* Initialize Rx */
rl_outw(port, RL_RMS, RX_BUFSIZE); /* Maximum rx packet size */
t = rl_inl(port, RL_RCR) & RX_CONFIG_MASK;
rl_outl(port, RL_RCR, RL_RCR_RXFTH_UNLIM | RL_RCR_MXDMA_1024 | t);
rl_outl(port, RL_RDSAR_LO, rep->p_rx_desc);
rl_outl(port, RL_RDSAR_HI, 0x00); /* For 64 bit */
/* Initialize Tx */
rl_outw(port, RL_ETTHR, 0x3f); /* No early transmit */
rl_outl(port, RL_TCR, RL_TCR_MXDMA_2048 | RL_TCR_IFG_STD);
rl_outl(port, RL_TNPDS_LO, rep->p_tx_desc);
rl_outl(port, RL_TNPDS_HI, 0x00); /* For 64 bit */
rl_outw(port, RL_9346CR, RL_9346CR_EEM_NORMAL); /* Lock */
rl_outw(port, RL_MPC, 0x00);
rl_outw(port, RL_MULINT, rl_inw(port, RL_MULINT) & 0xF000);
rl_outw(port, RL_IMR, RE_INTR_MASK);
}
/*===========================================================================*
* rl_confaddr *
*===========================================================================*/
static void rl_confaddr(rep)
re_t *rep;
{
static char eakey[] = RL_ENVVAR "#_EA";
static char eafmt[] = "x:x:x:x:x:x";
int i;
port_t port;
u32_t w;
long v;
/* User defined ethernet address? */
eakey[sizeof(RL_ENVVAR)-1] = '0' + re_instance;
port = rep->re_base_port;
for (i = 0; i < 6; i++) {
if (env_parse(eakey, eafmt, i, &v, 0x00L, 0xFFL) != EP_SET)
break;
rep->re_address.ea_addr[i] = v;
}
if (i != 0 && i != 6)
env_panic(eakey); /* It's all or nothing */
/* Should update ethernet address in hardware */
if (i == 6) {
port = rep->re_base_port;
rl_outb(port, RL_9346CR, RL_9346CR_EEM_CONFIG);
w = 0;
for (i = 0; i < 4; i++)
w |= (rep->re_address.ea_addr[i] << (i * 8));
rl_outl(port, RL_IDR, w);
w = 0;
for (i = 4; i < 6; i++)
w |= (rep->re_address.ea_addr[i] << ((i-4) * 8));
rl_outl(port, RL_IDR + 4, w);
rl_outb(port, RL_9346CR, RL_9346CR_EEM_NORMAL);
}
/* Get ethernet address */
for (i = 0; i < 6; i++)
rep->re_address.ea_addr[i] = rl_inb(port, RL_IDR+i);
}
/*===========================================================================*
* rl_rec_mode *
*===========================================================================*/
static void rl_rec_mode(rep)
re_t *rep;
{
port_t port;
u32_t rcr;
u32_t mc_filter[2]; /* Multicast hash filter */
port = rep->re_base_port;
mc_filter[1] = mc_filter[0] = 0xffffffff;
rl_outl(port, RL_MAR + 0, mc_filter[0]);
rl_outl(port, RL_MAR + 4, mc_filter[1]);
rcr = rl_inl(port, RL_RCR);
rcr &= ~(RL_RCR_AB | RL_RCR_AM | RL_RCR_APM | RL_RCR_AAP);
if (rep->re_flags & REF_PROMISC)
rcr |= RL_RCR_AB | RL_RCR_AM | RL_RCR_AAP;
if (rep->re_flags & REF_BROAD)
rcr |= RL_RCR_AB;
if (rep->re_flags & REF_MULTI)
rcr |= RL_RCR_AM;
rcr |= RL_RCR_APM;
rl_outl(port, RL_RCR, RL_RCR_RXFTH_UNLIM | RL_RCR_MXDMA_1024 | rcr);
}
void transmittest(re_t *rep)
{
int tx_head;
int ipc_status;
tx_head = rep->re_tx_head;
if(rep->re_tx[tx_head].ret_busy) {
do {
message m;
int r;
if ((r = netdriver_receive(ANY, &m, &ipc_status)) != OK)
panic("netdriver_receive failed: %d", r);
} while(m.m_source != HARDWARE);
assert(!(rep->re_flags & REF_SEND_AVAIL));
rep->re_flags |= REF_SEND_AVAIL;
}
return;
}
/*===========================================================================*
* rl_readv_s *
*===========================================================================*/
static void rl_readv_s(const message *mp, int from_int)
{
int i, j, n, s, count, size, index;
port_t port;
unsigned totlen, packlen;
re_desc *desc;
u32_t rxstat = 0x12345678;
re_t *rep;
iovec_s_t *iovp;
int cps;
int iov_offset = 0;
rep = &re_state;
rep->re_client = mp->m_source;
count = mp->DL_COUNT;
assert(rep->re_mode == REM_ENABLED);
assert(rep->re_flags & REF_ENABLED);
port = rep->re_base_port;
/*
* Assume that the RL_CR_BUFE check was been done by rl_checks_ints
*/
if (!from_int && (rl_inb(port, RL_CR) & RL_CR_BUFE))
goto suspend; /* Receive buffer is empty, suspend */
index = rep->re_rx_head;
desc = rep->re_rx_desc;
desc += index;
readvs_loop:
rxstat = desc->status;
if (rxstat & DESC_OWN)
goto suspend;
if (rxstat & DESC_RX_CRC)
rep->re_stat.ets_CRCerr++;
if ((rxstat & (DESC_FS | DESC_LS)) != (DESC_FS | DESC_LS)) {
#if VERBOSE
printf("rl_readv_s: packet is fragmented\n");
#endif
/* Fix the fragmented packet */
if (index == N_RX_DESC - 1) {
desc->status = DESC_EOR | DESC_OWN | (RX_BUFSIZE & DESC_RX_LENMASK);
index = 0;
desc = rep->re_rx_desc;
} else {
desc->status = DESC_OWN | (RX_BUFSIZE & DESC_RX_LENMASK);
index++;
desc++;
}
goto readvs_loop; /* Loop until we get correct packet */
}
totlen = rxstat & DESC_RX_LENMASK;
if (totlen < 8 || totlen > 2 * ETH_MAX_PACK_SIZE) {
/* Someting went wrong */
printf("rl_readv_s: bad length (%u) in status 0x%08x\n",
totlen, rxstat);
panic(NULL);
}
/* Should subtract the CRC */
packlen = totlen - ETH_CRC_SIZE;
size = 0;
for (i = 0; i < count; i += IOVEC_NR,
iov_offset += IOVEC_NR * sizeof(rep->re_iovec_s[0]))
{
n = IOVEC_NR;
if (i + n > count)
n = count-i;
cps = sys_safecopyfrom(mp->m_source, mp->DL_GRANT, iov_offset,
(vir_bytes) rep->re_iovec_s,
n * sizeof(rep->re_iovec_s[0]));
if (cps != OK) {
panic("rl_readv_s: sys_safecopyfrom failed: %d", cps);
}
for (j = 0, iovp = rep->re_iovec_s; j < n; j++, iovp++) {
s = iovp->iov_size;
if (size + s > packlen) {
assert(packlen > size);
s = packlen-size;
}
cps = sys_safecopyto(mp->m_source, iovp->iov_grant, 0,
(vir_bytes) rep->re_rx[index].v_ret_buf + size, s);
if (cps != OK)
panic("rl_readv_s: sys_safecopyto failed: %d", cps);
size += s;
if (size == packlen)
break;
}
if (size == packlen)
break;
}
if (size < packlen)
assert(0);
rep->re_stat.ets_packetR++;
rep->re_read_s = packlen;
if (index == N_RX_DESC - 1) {
desc->status = DESC_EOR | DESC_OWN | (RX_BUFSIZE & DESC_RX_LENMASK);
index = 0;
} else {
desc->status = DESC_OWN | (RX_BUFSIZE & DESC_RX_LENMASK);
index++;
}
rep->re_rx_head = index;
assert(rep->re_rx_head < N_RX_DESC);
rep->re_flags = (rep->re_flags & ~REF_READING) | REF_PACK_RECV;
if (!from_int)
reply(rep);
return;
suspend:
if (from_int) {
assert(rep->re_flags & REF_READING);
/* No need to store any state */
return;
}
rep->re_rx_mess = *mp;
assert(!(rep->re_flags & REF_READING));
rep->re_flags |= REF_READING;
reply(rep);
}
/*===========================================================================*
* rl_writev_s *
*===========================================================================*/
static void rl_writev_s(const message *mp, int from_int)
{
int i, j, n, s, count, size;
int tx_head;
re_t *rep;
iovec_s_t *iovp;
re_desc *desc;
char *ret;
int cps;
int iov_offset = 0;
rep = &re_state;
rep->re_client = mp->m_source;
count = mp->DL_COUNT;
assert(rep->setup);
assert(rep->re_mode == REM_ENABLED);
assert(rep->re_flags & REF_ENABLED);
if (from_int) {
assert(rep->re_flags & REF_SEND_AVAIL);
rep->re_flags &= ~REF_SEND_AVAIL;
rep->re_send_int = FALSE;
rep->re_tx_alive = TRUE;
}
tx_head = rep->re_tx_head;
desc = rep->re_tx_desc;
desc += tx_head;
if(!desc || !rep->re_tx_desc) {
printf("desc %p, re_tx_desc %p, tx_head %d, setup %d\n",
desc, rep->re_tx_desc, tx_head, rep->setup);
}
assert(rep->re_tx_desc);
assert(rep->re_tx_head >= 0 && rep->re_tx_head < N_TX_DESC);
assert(desc);
if (rep->re_tx[tx_head].ret_busy) {
assert(!(rep->re_flags & REF_SEND_AVAIL));
rep->re_flags |= REF_SEND_AVAIL;
if (rep->re_tx[tx_head].ret_busy)
goto suspend;
/*
* Race condition, the interrupt handler may clear re_busy
* before we got a chance to set REF_SEND_AVAIL. Checking
* ret_busy twice should be sufficient.
*/
#if VERBOSE
printf("rl_writev_s: race detected\n");
#endif
rep->re_flags &= ~REF_SEND_AVAIL;
rep->re_send_int = FALSE;
}
assert(!(rep->re_flags & REF_SEND_AVAIL));
assert(!(rep->re_flags & REF_PACK_SENT));
size = 0;
ret = rep->re_tx[tx_head].v_ret_buf;
for (i = 0; i < count; i += IOVEC_NR,
iov_offset += IOVEC_NR * sizeof(rep->re_iovec_s[0]))
{
n = IOVEC_NR;
if (i + n > count)
n = count - i;
cps = sys_safecopyfrom(mp->m_source, mp->DL_GRANT, iov_offset,
(vir_bytes) rep->re_iovec_s,
n * sizeof(rep->re_iovec_s[0]));
if (cps != OK) {
panic("rl_writev_s: sys_safecopyfrom failed: %d", cps);
}
for (j = 0, iovp = rep->re_iovec_s; j < n; j++, iovp++) {
s = iovp->iov_size;
if (size + s > ETH_MAX_PACK_SIZE_TAGGED)
panic("invalid packet size");
cps = sys_safecopyfrom(mp->m_source, iovp->iov_grant,
0, (vir_bytes) ret, s);
if (cps != OK) {
panic("rl_writev_s: sys_safecopyfrom failed: %d", cps);
}
size += s;
ret += s;
}
}
assert(desc);
if (size < ETH_MIN_PACK_SIZE)
panic("invalid packet size: %d", size);
rep->re_tx[tx_head].ret_busy = TRUE;
if (tx_head == N_TX_DESC - 1) {
desc->status = DESC_EOR | DESC_OWN | DESC_FS | DESC_LS | size;
tx_head = 0;
} else {
desc->status = DESC_OWN | DESC_FS | DESC_LS | size;
tx_head++;
}
assert(tx_head < N_TX_DESC);
rep->re_tx_head = tx_head;
rl_outl(rep->re_base_port, RL_TPPOLL, RL_TPPOLL_NPQ);
rep->re_flags |= REF_PACK_SENT;
/*
* If the interrupt handler called, don't send a reply. The reply
* will be sent after all interrupts are handled.
*/
if (from_int)
return;
reply(rep);
return;
suspend:
if (from_int)
panic("should not be sending");
rep->re_tx_mess = *mp;
reply(rep);
}
/*===========================================================================*
* rl_check_ints *
*===========================================================================*/
static void rl_check_ints(rep)
re_t *rep;
{
int re_flags;
re_flags = rep->re_flags;
if ((re_flags & REF_READING) &&
!(rl_inb(rep->re_base_port, RL_CR) & RL_CR_BUFE))
{
assert(rep->re_rx_mess.m_type == DL_READV_S);
rl_readv_s(&rep->re_rx_mess, TRUE /* from int */);
}
if (rep->re_need_reset)
rl_do_reset(rep);
if (rep->re_send_int) {
assert(rep->re_tx_mess.m_type == DL_WRITEV_S);
rl_writev_s(&rep->re_tx_mess, TRUE /* from int */);
}
if (rep->re_report_link) {
rep->re_report_link = FALSE;
rl_report_link(rep);
}
if (rep->re_flags & (REF_PACK_SENT | REF_PACK_RECV))
reply(rep);
}
/*===========================================================================*
* rl_report_link *
*===========================================================================*/
static void rl_report_link(rep)
re_t *rep;
{
#if VERBOSE
port_t port;
u8_t mii_status;
port = rep->re_base_port;
mii_status = rl_inb(port, RL_PHYSTAT);
if (mii_status & RL_STAT_LINK) {
rep->re_link_up = 1;
printf("%s: link up at ", rep->re_name);
} else {
rep->re_link_up = 0;
printf("%s: link down\n", rep->re_name);
return;
}
if (mii_status & RL_STAT_1000)
printf("1000 Mbps");
else if (mii_status & RL_STAT_100)
printf("100 Mbps");
else if (mii_status & RL_STAT_10)
printf("10 Mbps");
if (mii_status & RL_STAT_FULLDUP)
printf(", full duplex");
else
printf(", half duplex");
printf("\n");
#endif
dump_phy(rep);
}
/*===========================================================================*
* rl_do_reset *
*===========================================================================*/
static void rl_do_reset(rep)
re_t *rep;
{
rep->re_need_reset = FALSE;
rl_reset_hw(rep);
rl_rec_mode(rep);
rep->re_tx_head = 0;
if (rep->re_flags & REF_SEND_AVAIL) {
rep->re_tx[rep->re_tx_head].ret_busy = FALSE;
rep->re_send_int = TRUE;
}
}
/*===========================================================================*
* rl_getstat_s *
*===========================================================================*/
static void rl_getstat_s(mp)
message *mp;
{
int r;
eth_stat_t stats;
re_t *rep;
rep = &re_state;
assert(rep->re_mode == REM_ENABLED);
assert(rep->re_flags & REF_ENABLED);
stats = rep->re_stat;
r = sys_safecopyto(mp->m_source, mp->DL_GRANT, 0,
(vir_bytes) &stats, sizeof(stats));
if (r != OK)
panic("rl_getstat_s: sys_safecopyto failed: %d", r);
mp->m_type = DL_STAT_REPLY;
r = send(mp->m_source, mp);
if (r != OK)
panic("rl_getstat_s: send failed: %d", r);
}
/*===========================================================================*
* reply *
*===========================================================================*/
static void reply(rep)
re_t *rep;
{
message reply;
int flags;
int r;
flags = DL_NOFLAGS;
if (rep->re_flags & REF_PACK_SENT)
flags |= DL_PACK_SEND;
if (rep->re_flags & REF_PACK_RECV)
flags |= DL_PACK_RECV;
reply.m_type = DL_TASK_REPLY;
reply.DL_FLAGS = flags;
reply.DL_COUNT = rep->re_read_s;
r = send(rep->re_client, &reply);
if (r < 0) {
printf("RTL8169 tried sending to %d, type %d\n",
rep->re_client, reply.m_type);
panic("send failed: %d", r);
}
rep->re_read_s = 0;
rep->re_flags &= ~(REF_PACK_SENT | REF_PACK_RECV);
}
/*===========================================================================*
* mess_reply *
*===========================================================================*/
static void mess_reply(req, reply_mess)
message *req;
message *reply_mess;
{
if (send(req->m_source, reply_mess) != OK)
panic("unable to mess_reply");
}
static void dump_phy(const re_t *rep)
{
#if VERBOSE
port_t port;
u32_t t;
port = rep->re_base_port;
t = rl_inb(port, RL_CONFIG0);
printf("CONFIG0\t\t:");
t = t & RL_CFG0_ROM;
if (t == RL_CFG0_ROM128K)
printf(" 128K Boot ROM");
else if (t == RL_CFG0_ROM64K)
printf(" 64K Boot ROM");
else if (t == RL_CFG0_ROM32K)
printf(" 32K Boot ROM");
else if (t == RL_CFG0_ROM16K)
printf(" 16K Boot ROM");
else if (t == RL_CFG0_ROM8K)
printf(" 8K Boot ROM");
else if (t == RL_CFG0_ROMNO)
printf(" No Boot ROM");
printf("\n");
t = rl_inb(port, RL_CONFIG1);
printf("CONFIG1\t\t:");
if (t & RL_CFG1_LEDS1)
printf(" LED1");
if (t & RL_CFG1_LEDS0)
printf(" LED0");
if (t & RL_CFG1_DVRLOAD)
printf(" Driver");
if (t & RL_CFG1_LWACT)
printf(" LWAKE");
if (t & RL_CFG1_IOMAP)
printf(" IOMAP");
if (t & RL_CFG1_MEMMAP)
printf(" MEMMAP");
if (t & RL_CFG1_VPD)
printf(" VPD");
if (t & RL_CFG1_PME)
printf(" PME");
printf("\n");
t = rl_inb(port, RL_CONFIG2);
printf("CONFIG2\t\t:");
if (t & RL_CFG2_AUX)
printf(" AUX");
if (t & RL_CFG2_PCIBW)
printf(" PCI-64-Bit");
else
printf(" PCI-32-Bit");
t = t & RL_CFG2_PCICLK;
if (t == RL_CFG2_66MHZ)
printf(" 66 MHz");
else if (t == RL_CFG2_33MHZ)
printf(" 33 MHz");
printf("\n");
t = mdio_read(port, MII_CTRL);
printf("MII_CTRL\t:");
if (t & MII_CTRL_RST)
printf(" Reset");
if (t & MII_CTRL_LB)
printf(" Loopback");
if (t & MII_CTRL_ANE)
printf(" ANE");
if (t & MII_CTRL_PD)
printf(" Power-down");
if (t & MII_CTRL_ISO)
printf(" Isolate");
if (t & MII_CTRL_RAN)
printf(" RAN");
if (t & MII_CTRL_DM)
printf(" Full-duplex");
if (t & MII_CTRL_CT)
printf(" COL-signal");
t = t & (MII_CTRL_SP_LSB | MII_CTRL_SP_MSB);
if (t == MII_CTRL_SP_10)
printf(" 10 Mb/s");
else if (t == MII_CTRL_SP_100)
printf(" 100 Mb/s");
else if (t == MII_CTRL_SP_1000)
printf(" 1000 Mb/s");
printf("\n");
t = mdio_read(port, MII_STATUS);
printf("MII_STATUS\t:");
if (t & MII_STATUS_100T4)
printf(" 100Base-T4");
if (t & MII_STATUS_100XFD)
printf(" 100BaseX-FD");
if (t & MII_STATUS_100XHD)
printf(" 100BaseX-HD");
if (t & MII_STATUS_10FD)
printf(" 10Mbps-FD");
if (t & MII_STATUS_10HD)
printf(" 10Mbps-HD");
if (t & MII_STATUS_100T2FD)
printf(" 100Base-T2-FD");
if (t & MII_STATUS_100T2HD)
printf(" 100Base-T2-HD");
if (t & MII_STATUS_EXT_STAT)
printf(" Ext-stat");
if (t & MII_STATUS_RES)
printf(" res-0x%x", t & MII_STATUS_RES);
if (t & MII_STATUS_MFPS)
printf(" MFPS");
if (t & MII_STATUS_ANC)
printf(" ANC");
if (t & MII_STATUS_RF)
printf(" remote-fault");
if (t & MII_STATUS_ANA)
printf(" ANA");
if (t & MII_STATUS_LS)
printf(" Link");
if (t & MII_STATUS_JD)
printf(" Jabber");
if (t & MII_STATUS_EC)
printf(" Extended-capability");
printf("\n");
t = mdio_read(port, MII_ANA);
printf("MII_ANA\t\t: 0x%04x\n", t);
t = mdio_read(port, MII_ANLPA);
printf("MII_ANLPA\t: 0x%04x\n", t);
t = mdio_read(port, MII_ANE);
printf("MII_ANE\t\t:");
if (t & MII_ANE_RES)
printf(" res-0x%x", t & MII_ANE_RES);
if (t & MII_ANE_PDF)
printf(" Par-Detect-Fault");
if (t & MII_ANE_LPNPA)
printf(" LP-Next-Page-Able");
if (t & MII_ANE_NPA)
printf(" Loc-Next-Page-Able");
if (t & MII_ANE_PR)
printf(" Page-Received");
if (t & MII_ANE_LPANA)
printf(" LP-Auto-Neg-Able");
printf("\n");
t = mdio_read(port, MII_1000_CTRL);
printf("MII_1000_CTRL\t:");
if (t & MII_1000C_FULL)
printf(" 1000BaseT-FD");
if (t & MII_1000C_HALF)
printf(" 1000BaseT-HD");
printf("\n");
t = mdio_read(port, MII_1000_STATUS);
if (t) {
printf("MII_1000_STATUS\t:");
if (t & MII_1000S_LRXOK)
printf(" Local-Receiver");
if (t & MII_1000S_RRXOK)
printf(" Remote-Receiver");
if (t & MII_1000S_HALF)
printf(" 1000BaseT-HD");
if (t & MII_1000S_FULL)
printf(" 1000BaseT-FD");
printf("\n");
t = mdio_read(port, MII_EXT_STATUS);
printf("MII_EXT_STATUS\t:");
if (t & MII_ESTAT_1000XFD)
printf(" 1000BaseX-FD");
if (t & MII_ESTAT_1000XHD)
printf(" 1000BaseX-HD");
if (t & MII_ESTAT_1000TFD)
printf(" 1000BaseT-FD");
if (t & MII_ESTAT_1000THD)
printf(" 1000BaseT-HD");
printf("\n");
}
#endif
}
static void do_hard_int(void)
{
int s;
/* Run interrupt handler at driver level. */
rl_handler(&re_state);
/* Reenable interrupts for this hook. */
if ((s = sys_irqenable(&re_state.re_hook_id)) != OK)
printf("RTL8169: error, couldn't enable interrupts: %d\n", s);
}
/*===========================================================================*
* rl_handler *
*===========================================================================*/
static void rl_handler(re_t *rep)
{
int i, port, tx_head, tx_tail, link_up;
u16_t isr;
re_desc *desc;
int_event_check = FALSE; /* disable check by default */
port = rep->re_base_port;
/* Ack interrupt */
isr = rl_inw(port, RL_ISR);
if(!isr)
return;
rl_outw(port, RL_ISR, isr);
rep->interrupts++;
if (isr & RL_IMR_FOVW) {
isr &= ~RL_IMR_FOVW;
/* Should do anything? */
rep->re_stat.ets_fifoOver++;
}
if (isr & RL_IMR_PUN) {
isr &= ~RL_IMR_PUN;
/*
* Either the link status changed or there was a TX fifo
* underrun.
*/
link_up = !(!(rl_inb(port, RL_PHYSTAT) & RL_STAT_LINK));
if (link_up != rep->re_link_up) {
rep->re_report_link = TRUE;
rep->re_got_int = TRUE;
int_event_check = TRUE;
}
}
if (isr & (RL_ISR_RDU | RL_ISR_RER | RL_ISR_ROK)) {
if (isr & RL_ISR_RER)
rep->re_stat.ets_recvErr++;
isr &= ~(RL_ISR_RDU | RL_ISR_RER | RL_ISR_ROK);
if (!rep->re_got_int && (rep->re_flags & REF_READING)) {
rep->re_got_int = TRUE;
int_event_check = TRUE;
}
}
if ((isr & (RL_ISR_TDU | RL_ISR_TER | RL_ISR_TOK)) || 1) {
if (isr & RL_ISR_TER)
rep->re_stat.ets_sendErr++;
isr &= ~(RL_ISR_TDU | RL_ISR_TER | RL_ISR_TOK);
/* Transmit completed */
tx_head = rep->re_tx_head;
tx_tail = tx_head+1;
if (tx_tail >= N_TX_DESC)
tx_tail = 0;
for (i = 0; i < 2 * N_TX_DESC; i++) {
if (!rep->re_tx[tx_tail].ret_busy) {
/* Strange, this buffer is not in-use.
* Increment tx_tail until tx_head is
* reached (or until we find a buffer that
* is in-use.
*/
if (tx_tail == tx_head)
break;
if (++tx_tail >= N_TX_DESC)
tx_tail = 0;
assert(tx_tail < N_TX_DESC);
continue;
}
desc = rep->re_tx_desc;
desc += tx_tail;
if (desc->status & DESC_OWN) {
/* Buffer is not yet ready */
break;
}
rep->re_stat.ets_packetT++;
rep->re_tx[tx_tail].ret_busy = FALSE;
if (++tx_tail >= N_TX_DESC)
tx_tail = 0;
assert(tx_tail < N_TX_DESC);
if (rep->re_flags & REF_SEND_AVAIL) {
rep->re_send_int = TRUE;
if (!rep->re_got_int) {
rep->re_got_int = TRUE;
int_event_check = TRUE;
}
}
}
assert(i < 2 * N_TX_DESC);
}
/* Ignore Reserved Interrupt */
if (isr & RL_ISR_RES)
isr &= ~RL_ISR_RES;
if (isr)
printf("rl_handler: unhandled interrupt isr = 0x%04x\n", isr);
}
/*===========================================================================*
* rl_watchdog_f *
*===========================================================================*/
static void rl_watchdog_f(tp)
minix_timer_t *tp;
{
re_t *rep;
/* Use a synchronous alarm instead of a watchdog timer. */
sys_setalarm(system_hz, 0);
rep = &re_state;
if (rep->re_mode != REM_ENABLED)
return;
/* Should collect statistics */
if (!(++rep->dtcc_counter % RE_DTCC_VALUE))
rtl8169_update_stat(rep);
if (!(rep->re_flags & REF_SEND_AVAIL)) {
/* Assume that an idle system is alive */
rep->re_tx_alive = TRUE;
return;
}
if (rep->re_tx_alive) {
rep->re_tx_alive = FALSE;
return;
}
printf("rl_watchdog_f: resetting instance %d mode 0x%x flags 0x%x\n",
re_instance, rep->re_mode, rep->re_flags);
printf("tx_head :%8d busy %d\t",
rep->re_tx_head, rep->re_tx[rep->re_tx_head].ret_busy);
rep->re_need_reset = TRUE;
rep->re_got_int = TRUE;
check_int_events();
}
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