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/*
* SMI PCIe driver for DVBSky cards.
*
* Copyright (C) 2014 Max nibble <nibble.max@gmail.com>
*
* 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.
*/
#include "smipcie.h"
static void smi_ir_enableInterrupt(struct smi_rc *ir)
{
struct smi_dev *dev = ir->dev;
smi_write(MSI_INT_ENA_SET, IR_X_INT);
}
static void smi_ir_disableInterrupt(struct smi_rc *ir)
{
struct smi_dev *dev = ir->dev;
smi_write(MSI_INT_ENA_CLR, IR_X_INT);
}
static void smi_ir_clearInterrupt(struct smi_rc *ir)
{
struct smi_dev *dev = ir->dev;
smi_write(MSI_INT_STATUS_CLR, IR_X_INT);
}
static void smi_ir_stop(struct smi_rc *ir)
{
struct smi_dev *dev = ir->dev;
smi_ir_disableInterrupt(ir);
smi_clear(IR_Init_Reg, 0x80);
}
#define BITS_PER_COMMAND 14
#define GROUPS_PER_BIT 2
#define IR_RC5_MIN_BIT 36
#define IR_RC5_MAX_BIT 52
static u32 smi_decode_rc5(u8 *pData, u8 size)
{
u8 index, current_bit, bit_count;
u8 group_array[BITS_PER_COMMAND * GROUPS_PER_BIT + 4];
u8 group_index = 0;
u32 command = 0xFFFFFFFF;
group_array[group_index++] = 1;
for (index = 0; index < size; index++) {
current_bit = (pData[index] & 0x80) ? 1 : 0;
bit_count = pData[index] & 0x7f;
if ((current_bit == 1) && (bit_count >= 2*IR_RC5_MAX_BIT + 1)) {
goto process_code;
} else if ((bit_count >= IR_RC5_MIN_BIT) &&
(bit_count <= IR_RC5_MAX_BIT)) {
group_array[group_index++] = current_bit;
} else if ((bit_count > IR_RC5_MAX_BIT) &&
(bit_count <= 2*IR_RC5_MAX_BIT)) {
group_array[group_index++] = current_bit;
group_array[group_index++] = current_bit;
} else {
goto invalid_timing;
}
if (group_index >= BITS_PER_COMMAND*GROUPS_PER_BIT)
goto process_code;
if ((group_index == BITS_PER_COMMAND*GROUPS_PER_BIT - 1)
&& (group_array[group_index-1] == 0)) {
group_array[group_index++] = 1;
goto process_code;
}
}
process_code:
if (group_index == (BITS_PER_COMMAND*GROUPS_PER_BIT-1))
group_array[group_index++] = 1;
if (group_index == BITS_PER_COMMAND*GROUPS_PER_BIT) {
command = 0;
for (index = 0; index < (BITS_PER_COMMAND*GROUPS_PER_BIT);
index = index + 2) {
if ((group_array[index] == 1) &&
(group_array[index+1] == 0)) {
command |= (1 << (BITS_PER_COMMAND -
(index/2) - 1));
} else if ((group_array[index] == 0) &&
(group_array[index+1] == 1)) {
/* */
} else {
command = 0xFFFFFFFF;
goto invalid_timing;
}
}
}
invalid_timing:
return command;
}
static void smi_ir_decode(struct work_struct *work)
{
struct smi_rc *ir = container_of(work, struct smi_rc, work);
struct smi_dev *dev = ir->dev;
struct rc_dev *rc_dev = ir->rc_dev;
u32 dwIRControl, dwIRData, dwIRCode, scancode;
u8 index, ucIRCount, readLoop, rc5_command, rc5_system, toggle;
dwIRControl = smi_read(IR_Init_Reg);
if (dwIRControl & rbIRVld) {
ucIRCount = (u8) smi_read(IR_Data_Cnt);
if (ucIRCount < 4)
goto end_ir_decode;
readLoop = ucIRCount/4;
if (ucIRCount % 4)
readLoop += 1;
for (index = 0; index < readLoop; index++) {
dwIRData = smi_read(IR_DATA_BUFFER_BASE + (index*4));
ir->irData[index*4 + 0] = (u8)(dwIRData);
ir->irData[index*4 + 1] = (u8)(dwIRData >> 8);
ir->irData[index*4 + 2] = (u8)(dwIRData >> 16);
ir->irData[index*4 + 3] = (u8)(dwIRData >> 24);
}
dwIRCode = smi_decode_rc5(ir->irData, ucIRCount);
if (dwIRCode != 0xFFFFFFFF) {
rc5_command = dwIRCode & 0x3F;
rc5_system = (dwIRCode & 0x7C0) >> 6;
toggle = (dwIRCode & 0x800) ? 1 : 0;
scancode = rc5_system << 8 | rc5_command;
rc_keydown(rc_dev, RC_TYPE_RC5, scancode, toggle);
}
}
end_ir_decode:
smi_set(IR_Init_Reg, 0x04);
smi_ir_enableInterrupt(ir);
}
/* ir functions call by main driver.*/
int smi_ir_irq(struct smi_rc *ir, u32 int_status)
{
int handled = 0;
if (int_status & IR_X_INT) {
smi_ir_disableInterrupt(ir);
smi_ir_clearInterrupt(ir);
schedule_work(&ir->work);
handled = 1;
}
return handled;
}
void smi_ir_start(struct smi_rc *ir)
{
struct smi_dev *dev = ir->dev;
smi_write(IR_Idle_Cnt_Low, 0x00140070);
msleep(20);
smi_set(IR_Init_Reg, 0x90);
smi_ir_enableInterrupt(ir);
}
int smi_ir_init(struct smi_dev *dev)
{
int ret;
struct rc_dev *rc_dev;
struct smi_rc *ir = &dev->ir;
rc_dev = rc_allocate_device(RC_DRIVER_SCANCODE);
if (!rc_dev)
return -ENOMEM;
/* init input device */
snprintf(ir->device_name, sizeof(ir->device_name), "IR (%s)",
dev->info->name);
snprintf(ir->input_phys, sizeof(ir->input_phys), "pci-%s/ir0",
pci_name(dev->pci_dev));
rc_dev->driver_name = "SMI_PCIe";
rc_dev->input_phys = ir->input_phys;
rc_dev->device_name = ir->device_name;
rc_dev->input_id.bustype = BUS_PCI;
rc_dev->input_id.version = 1;
rc_dev->input_id.vendor = dev->pci_dev->subsystem_vendor;
rc_dev->input_id.product = dev->pci_dev->subsystem_device;
rc_dev->dev.parent = &dev->pci_dev->dev;
rc_dev->map_name = dev->info->rc_map;
ir->rc_dev = rc_dev;
ir->dev = dev;
INIT_WORK(&ir->work, smi_ir_decode);
smi_ir_disableInterrupt(ir);
ret = rc_register_device(rc_dev);
if (ret)
goto ir_err;
return 0;
ir_err:
rc_free_device(rc_dev);
return ret;
}
void smi_ir_exit(struct smi_dev *dev)
{
struct smi_rc *ir = &dev->ir;
struct rc_dev *rc_dev = ir->rc_dev;
smi_ir_stop(ir);
rc_unregister_device(rc_dev);
ir->rc_dev = NULL;
}
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