HelenOS sources
This source file includes following definitions.
- ne2k_register_interrupt
- ne2k_dev_cleanup
- ne2k_dev_init
- ne2k_interrupt_handler
- ne2k_on_activating
- ne2k_on_stopping
- ne2k_set_address
- ne2k_get_device_info
- ne2k_get_cable_state
- ne2k_get_operation_mode
- ne2k_on_unicast_mode_change
- ne2k_on_multicast_mode_change
- ne2k_on_broadcast_mode_change
- ne2k_dev_add
- main
#include <stdio.h>
#include <errno.h>
#include <device/hw_res.h>
#include <stdlib.h>
#include <str_error.h>
#include <async.h>
#include "dp8390.h"
#define NAME "ne2k"
#define IRQ_GET_ISR(call) ((int) ipc_get_arg2(&call))
#define IRQ_GET_TSR(call) ((int) ipc_get_arg3(&call))
#define DRIVER_DATA(dev) ((nic_t *) ddf_dev_data_get(dev))
#define NE2K(device) ((ne2k_t *) nic_get_specific(DRIVER_DATA(device)))
static irq_pio_range_t ne2k_ranges_prototype[] = {
{
.base = 0,
.size = NE2K_IO_SIZE,
}
};
static irq_cmd_t ne2k_cmds_prototype[] = {
{
.cmd = CMD_PIO_READ_8,
.addr = NULL,
.dstarg = 2
},
{
.cmd = CMD_AND,
.value = (ISR_PRX | ISR_PTX | ISR_RXE | ISR_TXE | ISR_OVW |
ISR_CNT | ISR_RDC),
.srcarg = 2,
.dstarg = 3,
},
{
.cmd = CMD_PREDICATE,
.value = 4,
.srcarg = 3
},
{
.cmd = CMD_PIO_WRITE_8,
.addr = NULL,
.value = 0
},
{
.cmd = CMD_PIO_WRITE_A_8,
.addr = NULL,
.srcarg = 3
},
{
.cmd = CMD_PIO_READ_8,
.addr = NULL,
.dstarg = 3
},
{
.cmd = CMD_ACCEPT
}
};
static void ne2k_interrupt_handler(ipc_call_t *, ddf_dev_t *);
static errno_t ne2k_register_interrupt(nic_t *nic_data,
cap_irq_handle_t *handle)
{
ne2k_t *ne2k = (ne2k_t *) nic_get_specific(nic_data);
if (ne2k->code.cmdcount == 0) {
irq_pio_range_t *ne2k_ranges;
irq_cmd_t *ne2k_cmds;
ne2k_ranges = malloc(sizeof(ne2k_ranges_prototype));
if (!ne2k_ranges)
return ENOMEM;
memcpy(ne2k_ranges, ne2k_ranges_prototype,
sizeof(ne2k_ranges_prototype));
ne2k_ranges[0].base = (uintptr_t) ne2k->base_port;
ne2k_cmds = malloc(sizeof(ne2k_cmds_prototype));
if (!ne2k_cmds) {
free(ne2k_ranges);
return ENOMEM;
}
memcpy(ne2k_cmds, ne2k_cmds_prototype,
sizeof(ne2k_cmds_prototype));
ne2k_cmds[0].addr = ne2k->base_port + DP_ISR;
ne2k_cmds[3].addr = ne2k->base_port + DP_IMR;
ne2k_cmds[4].addr = ne2k_cmds[0].addr;
ne2k_cmds[5].addr = ne2k->base_port + DP_TSR;
ne2k->code.rangecount = sizeof(ne2k_ranges_prototype) /
sizeof(irq_pio_range_t);
ne2k->code.ranges = ne2k_ranges;
ne2k->code.cmdcount = sizeof(ne2k_cmds_prototype) /
sizeof(irq_cmd_t);
ne2k->code.cmds = ne2k_cmds;
}
return register_interrupt_handler(nic_get_ddf_dev(nic_data),
ne2k->irq, ne2k_interrupt_handler, &ne2k->code, handle);
}
static ddf_dev_ops_t ne2k_dev_ops;
static void ne2k_dev_cleanup(ddf_dev_t *dev)
{
if (ddf_dev_data_get(dev) != NULL) {
ne2k_t *ne2k = NE2K(dev);
if (ne2k) {
free(ne2k->code.ranges);
free(ne2k->code.cmds);
}
nic_unbind_and_destroy(dev);
}
}
static errno_t ne2k_dev_init(nic_t *nic_data)
{
hw_res_list_parsed_t hw_res_parsed;
hw_res_list_parsed_init(&hw_res_parsed);
errno_t rc = nic_get_resources(nic_data, &hw_res_parsed);
if (rc != EOK)
goto failed;
if (hw_res_parsed.irqs.count == 0) {
rc = EINVAL;
goto failed;
}
if (hw_res_parsed.io_ranges.count == 0) {
rc = EINVAL;
goto failed;
}
if (hw_res_parsed.io_ranges.ranges[0].size < NE2K_IO_SIZE) {
rc = EINVAL;
goto failed;
}
ne2k_t *ne2k = (ne2k_t *) nic_get_specific(nic_data);
ne2k->irq = hw_res_parsed.irqs.irqs[0];
addr_range_t regs = hw_res_parsed.io_ranges.ranges[0];
ne2k->base_port = RNGABSPTR(regs);
hw_res_list_parsed_clean(&hw_res_parsed);
if (pio_enable_range(®s, &ne2k->port) != EOK)
return EADDRNOTAVAIL;
ne2k->data_port = ne2k->port + NE2K_DATA;
ne2k->receive_configuration = RCR_AB | RCR_AM;
ne2k->probed = false;
ne2k->up = false;
if (ne2k_probe(ne2k) != EOK)
return ENOENT;
ne2k->probed = true;
if (ne2k_register_interrupt(nic_data, NULL) != EOK)
return EINVAL;
return EOK;
failed:
hw_res_list_parsed_clean(&hw_res_parsed);
return rc;
}
void ne2k_interrupt_handler(ipc_call_t *call, ddf_dev_t *dev)
{
nic_t *nic_data = DRIVER_DATA(dev);
ne2k_interrupt(nic_data, IRQ_GET_ISR(*call), IRQ_GET_TSR(*call));
}
static errno_t ne2k_on_activating(nic_t *nic_data)
{
ne2k_t *ne2k = (ne2k_t *) nic_get_specific(nic_data);
if (!ne2k->up) {
errno_t rc = ne2k_up(ne2k);
if (rc != EOK)
return rc;
rc = hw_res_enable_interrupt(ne2k->parent_sess, ne2k->irq);
if (rc != EOK) {
ne2k_down(ne2k);
return rc;
}
}
return EOK;
}
static errno_t ne2k_on_stopping(nic_t *nic_data)
{
ne2k_t *ne2k = (ne2k_t *) nic_get_specific(nic_data);
(void) hw_res_disable_interrupt(ne2k->parent_sess, ne2k->irq);
ne2k->receive_configuration = RCR_AB | RCR_AM;
ne2k_down(ne2k);
return EOK;
}
static errno_t ne2k_set_address(ddf_fun_t *fun, const nic_address_t *address)
{
nic_t *nic_data = DRIVER_DATA(ddf_fun_get_dev(fun));
errno_t rc = nic_report_address(nic_data, address);
if (rc != EOK) {
return EINVAL;
}
ne2k_set_physical_address((ne2k_t *) nic_get_specific(nic_data), address);
return EOK;
}
static errno_t ne2k_get_device_info(ddf_fun_t *fun, nic_device_info_t *info)
{
nic_t *nic_data = nic_get_from_ddf_fun(fun);
if (!nic_data)
return ENOENT;
str_cpy(info->vendor_name, sizeof(info->vendor_name), "Novell");
str_cpy(info->model_name, sizeof(info->model_name), "NE2000");
return EOK;
}
static errno_t ne2k_get_cable_state(ddf_fun_t *fun, nic_cable_state_t *state)
{
*state = NIC_CS_PLUGGED;
return EOK;
}
static errno_t ne2k_get_operation_mode(ddf_fun_t *fun, int *speed,
nic_channel_mode_t *duplex, nic_role_t *role)
{
*speed = 10;
*duplex = NIC_CM_HALF_DUPLEX;
*role = NIC_ROLE_UNKNOWN;
return EOK;
}
static errno_t ne2k_on_unicast_mode_change(nic_t *nic_data,
nic_unicast_mode_t new_mode,
const nic_address_t *address_list, size_t address_count)
{
ne2k_t *ne2k = (ne2k_t *) nic_get_specific(nic_data);
switch (new_mode) {
case NIC_UNICAST_BLOCKED:
ne2k_set_promisc_phys(ne2k, false);
nic_report_hw_filtering(nic_data, 0, -1, -1);
return EOK;
case NIC_UNICAST_DEFAULT:
ne2k_set_promisc_phys(ne2k, false);
nic_report_hw_filtering(nic_data, 1, -1, -1);
return EOK;
case NIC_UNICAST_LIST:
ne2k_set_promisc_phys(ne2k, true);
nic_report_hw_filtering(nic_data, 0, -1, -1);
return EOK;
case NIC_UNICAST_PROMISC:
ne2k_set_promisc_phys(ne2k, true);
nic_report_hw_filtering(nic_data, 1, -1, -1);
return EOK;
default:
return ENOTSUP;
}
}
static errno_t ne2k_on_multicast_mode_change(nic_t *nic_data,
nic_multicast_mode_t new_mode,
const nic_address_t *address_list, size_t address_count)
{
ne2k_t *ne2k = (ne2k_t *) nic_get_specific(nic_data);
switch (new_mode) {
case NIC_MULTICAST_BLOCKED:
ne2k_set_accept_mcast(ne2k, false);
nic_report_hw_filtering(nic_data, -1, 1, -1);
return EOK;
case NIC_MULTICAST_LIST:
ne2k_set_accept_mcast(ne2k, true);
ne2k_set_mcast_hash(ne2k,
nic_mcast_hash(address_list, address_count));
nic_report_hw_filtering(nic_data, -1, 0, -1);
return EOK;
case NIC_MULTICAST_PROMISC:
ne2k_set_accept_mcast(ne2k, true);
ne2k_set_mcast_hash(ne2k, 0xFFFFFFFFFFFFFFFFllu);
nic_report_hw_filtering(nic_data, -1, 1, -1);
return EOK;
default:
return ENOTSUP;
}
}
static errno_t ne2k_on_broadcast_mode_change(nic_t *nic_data,
nic_broadcast_mode_t new_mode)
{
ne2k_t *ne2k = (ne2k_t *) nic_get_specific(nic_data);
switch (new_mode) {
case NIC_BROADCAST_BLOCKED:
ne2k_set_accept_bcast(ne2k, false);
return EOK;
case NIC_BROADCAST_ACCEPTED:
ne2k_set_accept_bcast(ne2k, true);
return EOK;
default:
return ENOTSUP;
}
}
static errno_t ne2k_dev_add(ddf_dev_t *dev)
{
ddf_fun_t *fun;
nic_t *nic_data = nic_create_and_bind(dev);
if (nic_data == NULL)
return ENOMEM;
nic_set_send_frame_handler(nic_data, ne2k_send);
nic_set_state_change_handlers(nic_data,
ne2k_on_activating, NULL, ne2k_on_stopping);
nic_set_filtering_change_handlers(nic_data,
ne2k_on_unicast_mode_change, ne2k_on_multicast_mode_change,
ne2k_on_broadcast_mode_change, NULL, NULL);
ne2k_t *ne2k = malloc(sizeof(ne2k_t));
if (NULL != ne2k) {
memset(ne2k, 0, sizeof(ne2k_t));
nic_set_specific(nic_data, ne2k);
} else {
nic_unbind_and_destroy(dev);
return ENOMEM;
}
ne2k->dev = dev;
ne2k->parent_sess = ddf_dev_parent_sess_get(dev);
if (ne2k->parent_sess == NULL) {
ne2k_dev_cleanup(dev);
return ENOMEM;
}
errno_t rc = ne2k_dev_init(nic_data);
if (rc != EOK) {
ne2k_dev_cleanup(dev);
return rc;
}
rc = nic_report_address(nic_data, &ne2k->mac);
if (rc != EOK) {
ne2k_dev_cleanup(dev);
return rc;
}
fun = ddf_fun_create(nic_get_ddf_dev(nic_data), fun_exposed, "port0");
if (fun == NULL) {
ne2k_dev_cleanup(dev);
return ENOMEM;
}
nic_set_ddf_fun(nic_data, fun);
ddf_fun_set_ops(fun, &ne2k_dev_ops);
rc = ddf_fun_bind(fun);
if (rc != EOK) {
ddf_fun_destroy(fun);
ne2k_dev_cleanup(dev);
return rc;
}
rc = ddf_fun_add_to_category(fun, DEVICE_CATEGORY_NIC);
if (rc != EOK) {
ddf_fun_unbind(fun);
ddf_fun_destroy(fun);
return rc;
}
return EOK;
}
static nic_iface_t ne2k_nic_iface = {
.set_address = ne2k_set_address,
.get_device_info = ne2k_get_device_info,
.get_cable_state = ne2k_get_cable_state,
.get_operation_mode = ne2k_get_operation_mode,
};
static driver_ops_t ne2k_driver_ops = {
.dev_add = ne2k_dev_add
};
static driver_t ne2k_driver = {
.name = NAME,
.driver_ops = &ne2k_driver_ops
};
int main(int argc, char *argv[])
{
printf("%s: HelenOS NE 2000 network adapter driver\n", NAME);
nic_driver_init(NAME);
nic_driver_implement(&ne2k_driver_ops, &ne2k_dev_ops, &ne2k_nic_iface);
return ddf_driver_main(&ne2k_driver);
}
HelenOS homepage, sources at GitHub