* Add support for newer firmware versions with different
buffer format. Makes hardware work for many users
* Register name updates + refactoring
* Lots of fixes as a result of full testing
Every feature of the driver is now well tested.
Signed-off-by: Maxim Levitsky <maximlevit...@gmail.com>
---
drivers/media/IR/ene_ir.c | 795 +++++++++++++++++++++++++++------------------
drivers/media/IR/ene_ir.h | 223 ++++++++-----
2 files changed, 618 insertions(+), 400 deletions(-)
diff --git a/drivers/media/IR/ene_ir.c b/drivers/media/IR/ene_ir.c
index 5447750..8e3e0c8 100644
--- a/drivers/media/IR/ene_ir.c
+++ b/drivers/media/IR/ene_ir.c
@@ -1,5 +1,5 @@
/*
- * driver for ENE KB3926 B/C/D CIR (pnp id: ENE0XXX)
+ * driver for ENE KB3926 B/C/D/E/F CIR (pnp id: ENE0XXX)
*
* Copyright (C) 2010 Maxim Levitsky <maximlevit...@gmail.com>
*
@@ -17,6 +17,17 @@
* along with this program; if not, write to the Free Software
* Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307
* USA
+ *
+ * Special thanks to:
+ * Sami R. <maeses...@gmail.com> for lot of help in debbuging and therefore
+ * bringing to life suppport for transmition & learning mode.
+ *
+ * Charlie Andrews <charliethepi...@googlemail.com> for lots of help in
+ * bringing up the support of new firmware buffer that is popular
+ * on latest notebooks
+ *
+ * ENE for partial device documentation
+ *
*/
#include <linux/kernel.h>
@@ -33,49 +44,49 @@
static int sample_period = -1;
-static int enable_idle = 1;
-static int input = 1;
+static bool enable_idle = true;
+static bool learning_mode;
static int debug;
-static int txsim;
+static bool txsim;
-static int ene_irq_status(struct ene_device *dev);
+static void ene_set_reg_addr(struct ene_device *dev, u16 reg)
+{
+ outb(reg >> 8, dev->hw_io + ENE_ADDR_HI);
+ outb(reg & 0xFF, dev->hw_io + ENE_ADDR_LO);
+}
/* read a hardware register */
-static u8 ene_hw_read_reg(struct ene_device *dev, u16 reg)
+static u8 ene_read_reg(struct ene_device *dev, u16 reg)
{
u8 retval;
- outb(reg >> 8, dev->hw_io + ENE_ADDR_HI);
- outb(reg & 0xFF, dev->hw_io + ENE_ADDR_LO);
+ ene_set_reg_addr(dev, reg);
retval = inb(dev->hw_io + ENE_IO);
-
- ene_dbg_verbose("reg %04x == %02x", reg, retval);
+ dbg_regs("reg %04x == %02x", reg, retval);
return retval;
}
/* write a hardware register */
-static void ene_hw_write_reg(struct ene_device *dev, u16 reg, u8 value)
+static void ene_write_reg(struct ene_device *dev, u16 reg, u8 value)
{
- outb(reg >> 8, dev->hw_io + ENE_ADDR_HI);
- outb(reg & 0xFF, dev->hw_io + ENE_ADDR_LO);
+ dbg_regs("reg %04x <- %02x", reg, value);
+ ene_set_reg_addr(dev, reg);
outb(value, dev->hw_io + ENE_IO);
-
- ene_dbg_verbose("reg %04x <- %02x", reg, value);
}
-/* change specific bits in hardware register */
-static void ene_hw_write_reg_mask(struct ene_device *dev,
- u16 reg, u8 value, u8 mask)
+/* Set bits in hardware register */
+static void ene_set_reg_mask(struct ene_device *dev, u16 reg, u8 mask)
{
- u8 regvalue;
-
- outb(reg >> 8, dev->hw_io + ENE_ADDR_HI);
- outb(reg & 0xFF, dev->hw_io + ENE_ADDR_LO);
-
- regvalue = inb(dev->hw_io + ENE_IO) & ~mask;
- regvalue |= (value & mask);
- outb(regvalue, dev->hw_io + ENE_IO);
+ dbg_regs("reg %04x |= %02x", reg, mask);
+ ene_set_reg_addr(dev, reg);
+ outb(inb(dev->hw_io + ENE_IO) | mask, dev->hw_io + ENE_IO);
+}
- ene_dbg_verbose("reg %04x <- %02x (mask=%02x)", reg, value, mask);
+/* Clear bits in hardware register */
+static void ene_clear_reg_mask(struct ene_device *dev, u16 reg, u8 mask)
+{
+ dbg_regs("reg %04x &= ~%02x ", reg, mask);
+ ene_set_reg_addr(dev, reg);
+ outb(inb(dev->hw_io + ENE_IO) & ~mask, dev->hw_io + ENE_IO);
}
/* detect hardware features */
@@ -83,22 +94,19 @@ static int ene_hw_detect(struct ene_device *dev)
{
u8 chip_major, chip_minor;
u8 hw_revision, old_ver;
- u8 tmp;
- u8 fw_capabilities;
+ u8 fw_reg2, fw_reg1;
int pll_freq;
- tmp = ene_hw_read_reg(dev, ENE_HW_UNK);
- ene_hw_write_reg(dev, ENE_HW_UNK, tmp & ~ENE_HW_UNK_CLR);
-
- chip_major = ene_hw_read_reg(dev, ENE_HW_VER_MAJOR);
- chip_minor = ene_hw_read_reg(dev, ENE_HW_VER_MINOR);
+ ene_clear_reg_mask(dev, ENE_HW_UNK, ENE_HW_UNK_CLR);
+ chip_major = ene_read_reg(dev, ENE_HW_VER_MAJOR);
+ chip_minor = ene_read_reg(dev, ENE_HW_VER_MINOR);
+ ene_set_reg_mask(dev, ENE_HW_UNK, ENE_HW_UNK_CLR);
- ene_hw_write_reg(dev, ENE_HW_UNK, tmp);
- hw_revision = ene_hw_read_reg(dev, ENE_HW_VERSION);
- old_ver = ene_hw_read_reg(dev, ENE_HW_VER_OLD);
+ hw_revision = ene_read_reg(dev, ENE_HW_VERSION);
+ old_ver = ene_read_reg(dev, ENE_HW_VER_OLD);
- pll_freq = (ene_hw_read_reg(dev, ENE_PLLFRH) << 4) +
- (ene_hw_read_reg(dev, ENE_PLLFRL) >> 4);
+ pll_freq = (ene_read_reg(dev, ENE_PLLFRH) << 4) +
+ (ene_read_reg(dev, ENE_PLLFRL) >> 4);
if (pll_freq != 1000)
dev->rx_period_adjust = 4;
@@ -106,19 +114,18 @@ static int ene_hw_detect(struct ene_device *dev)
dev->rx_period_adjust = 2;
- ene_printk(KERN_NOTICE, "PLL freq = %d\n", pll_freq);
+ ene_notice("PLL freq = %d", pll_freq);
if (hw_revision == 0xFF) {
- ene_printk(KERN_WARNING, "device seems to be disabled\n");
- ene_printk(KERN_WARNING,
- "send a mail to lirc-l...@lists.sourceforge.net\n");
- ene_printk(KERN_WARNING, "please attach output of acpidump\n");
+ ene_warn("device seems to be disabled");
+ ene_warn("send a mail to lirc-l...@lists.sourceforge.net");
+ ene_warn("please attach output of acpidump");
return -ENODEV;
}
if (chip_major == 0x33) {
- ene_printk(KERN_WARNING, "chips 0x33xx aren't supported\n");
+ ene_warn("chips 0x33xx aren't supported");
return -ENODEV;
}
@@ -126,96 +133,118 @@ static int ene_hw_detect(struct ene_device *dev)
dev->hw_revision = ENE_HW_C;
} else if (old_ver == 0x24 && hw_revision == 0xC0) {
dev->hw_revision = ENE_HW_B;
- ene_printk(KERN_NOTICE, "KB3926B detected\n");
+ ene_notice("KB3926B detected");
} else {
dev->hw_revision = ENE_HW_D;
- ene_printk(KERN_WARNING,
- "unknown ENE chip detected, assuming KB3926D\n");
- ene_printk(KERN_WARNING,
- "driver support might be not complete");
-
+ ene_notice("KB3926D or higher detected");
}
- ene_printk(KERN_DEBUG,
- "chip is 0x%02x%02x - kbver = 0x%02x, rev = 0x%02x\n",
- chip_major, chip_minor, old_ver, hw_revision);
+ ene_notice("chip is 0x%02x%02x - kbver = 0x%02x, rev = 0x%02x",
+ chip_major, chip_minor, old_ver, hw_revision);
/* detect features hardware supports */
if (dev->hw_revision < ENE_HW_C)
return 0;
- fw_capabilities = ene_hw_read_reg(dev, ENE_FW2);
- ene_dbg("Firmware capabilities: %02x", fw_capabilities);
+ fw_reg1 = ene_read_reg(dev, ENE_FW1);
+ fw_reg2 = ene_read_reg(dev, ENE_FW2);
- dev->hw_gpio40_learning = fw_capabilities & ENE_FW2_GP40_AS_LEARN;
- dev->hw_learning_and_tx_capable = fw_capabilities & ENE_FW2_LEARNING;
+ ene_notice("Firmware regs: %02x %02x", fw_reg1, fw_reg2);
- dev->hw_fan_as_normal_input = dev->hw_learning_and_tx_capable &&
- (fw_capabilities & ENE_FW2_FAN_AS_NRML_IN);
+ dev->hw_use_gpio_0a = fw_reg2 & ENE_FW2_GP0A;
+ dev->hw_learning_and_tx_capable = fw_reg2 & ENE_FW2_LEARNING;
+ dev->hw_extra_buffer = fw_reg1 & ENE_FW1_HAS_EXTRA_BUF;
+ dev->hw_fan_input = dev->hw_learning_and_tx_capable &&
+ (fw_reg2 & ENE_FW2_FAN_INPUT);
- ene_printk(KERN_NOTICE, "hardware features:\n");
- ene_printk(KERN_NOTICE,
- "learning and transmit %s, gpio40_learn %s, fan_in %s\n",
- dev->hw_learning_and_tx_capable ? "on" : "off",
- dev->hw_gpio40_learning ? "on" : "off",
- dev->hw_fan_as_normal_input ? "on" : "off");
+ ene_notice("Hardware features:");
if (dev->hw_learning_and_tx_capable) {
- ene_printk(KERN_WARNING,
- "Device supports transmitting, but that support is\n");
- ene_printk(KERN_WARNING,
- "lightly tested. Please test it and mail\n");
- ene_printk(KERN_WARNING,
- "lirc-l...@lists.sourceforge.net\n");
+ ene_notice("* Supports transmitting & learning mode");
+ ene_notice(" NOTE: driver support isn't well tested.");
+ ene_notice(" You are welcome to test it,");
+ ene_notice(" and mail results to: ");
+ ene_notice(" lirc-l...@lists.sourceforge.net");
+ ene_notice(" or maximlevit...@gmail.com");
+
+ ene_notice("* Uses GPIO %s for IR raw input",
+ dev->hw_use_gpio_0a ? "40" : "0A");
+
+ if (dev->hw_fan_input)
+ ene_notice("* Uses unused fan feedback input as source"
+ " of demodulated IR data");
}
+
+ if (!dev->hw_fan_input)
+ ene_notice("* Uses GPIO %s for IR demodulated input",
+ dev->hw_use_gpio_0a ? "0A" : "40");
+
+ if (dev->hw_extra_buffer)
+ ene_notice("* Uses new style input buffer");
return 0;
}
-/* this enables/disables IR input via gpio40*/
-static void ene_enable_gpio40_receive(struct ene_device *dev, int enable)
+/* this enables/disables the CIR RX engine */
+static void ene_enable_cir_engine(struct ene_device *dev, bool enable)
{
- ene_hw_write_reg_mask(dev, ENE_CIR_CONF2, enable ?
- 0 : ENE_CIR_CONF2_GPIO40DIS,
- ENE_CIR_CONF2_GPIO40DIS);
+ if (enable)
+ ene_set_reg_mask(dev, ENE_CIRCFG,
+ ENE_CIRCFG_RX_EN | ENE_CIRCFG_RX_IRQ);
+ else
+ ene_clear_reg_mask(dev, ENE_CIRCFG,
+ ENE_CIRCFG_RX_EN | ENE_CIRCFG_RX_IRQ);
}
-/* this enables/disables IR via standard input */
-static void ene_enable_normal_receive(struct ene_device *dev, int enable)
+/* this selects input for CIR engine. Ether GPIO 0A or GPIO40*/
+static void ene_select_rx_input(struct ene_device *dev, bool use_gpio_0a)
{
- ene_hw_write_reg(dev, ENE_CIR_CONF1, enable ? ENE_CIR_CONF1_RX_ON : 0);
+ if (use_gpio_0a)
+ ene_set_reg_mask(dev, ENE_CIRCFG2, ENE_CIRCFG2_GPIO0A);
+ else
+ ene_clear_reg_mask(dev, ENE_CIRCFG2, ENE_CIRCFG2_GPIO0A);
}
-/* this enables/disables IR input via unused fan tachtometer input */
-static void ene_enable_fan_receive(struct ene_device *dev, int enable)
+/*
+ * this enables alternative input via fan tachtometer sensor and bypasses
+ * the hw CIR engine
+ */
+static void ene_enable_fan_input(struct ene_device *dev, bool enable)
{
if (!enable)
- ene_hw_write_reg(dev, ENE_FAN_AS_IN1, 0);
+ ene_write_reg(dev, ENE_FAN_AS_IN1, 0);
else {
- ene_hw_write_reg(dev, ENE_FAN_AS_IN1, ENE_FAN_AS_IN1_EN);
- ene_hw_write_reg(dev, ENE_FAN_AS_IN2, ENE_FAN_AS_IN2_EN);
+ ene_write_reg(dev, ENE_FAN_AS_IN1, ENE_FAN_AS_IN1_EN);
+ ene_write_reg(dev, ENE_FAN_AS_IN2, ENE_FAN_AS_IN2_EN);
}
dev->rx_fan_input_inuse = enable;
}
-
/* Sense current received carrier */
-static int ene_rx_sense_carrier(struct ene_device *dev)
+void ene_rx_sense_carrier(struct ene_device *dev)
{
- int period = ene_hw_read_reg(dev, ENE_RX_CARRIER);
- int carrier;
- ene_dbg("RX: hardware carrier period = %02x", period);
+ int period = ene_read_reg(dev, ENE_CIRCAR_PRD);
+ int hperiod = ene_read_reg(dev, ENE_CIRCAR_HPRD);
+ int carrier, duty_cycle;
- if (!(period & ENE_RX_CARRIER_VALID))
- return 0;
- period &= ~ENE_RX_CARRIER_VALID;
+ if (!(period & ENE_CIRCAR_PRD_VALID))
+ return;
+
+ period &= ~ENE_CIRCAR_PRD_VALID;
if (!period)
- return 0;
+ return;
+
+ dbg("RX: hardware carrier period = %02x", period);
+ dbg("RX: hardware carrier pulse period = %02x", hperiod);
+
carrier = 2000000 / period;
- ene_dbg("RX: sensed carrier = %d Hz", carrier);
- return carrier;
+ duty_cycle = (hperiod * 100) / period;
+ dbg("RX: sensed carrier = %d Hz, duty cycle %d%%",
+ carrier, duty_cycle);
+
+ /* TODO: Send carrier & duty cycle to IR layer */
}
/* determine which input to use*/
@@ -223,44 +252,57 @@ static void ene_rx_set_inputs(struct ene_device *dev)
{
int learning_mode = dev->learning_enabled;
- ene_dbg("RX: setup receiver, learning mode = %d", learning_mode);
-
- ene_enable_normal_receive(dev, 1);
+ dbg("RX: setup receiver, learning mode = %d", learning_mode);
- /* old hardware doesn't support learning mode for sure */
- if (dev->hw_revision <= ENE_HW_B)
+ /* old hardware doesn't support this */
+ if (dev->hw_revision <= ENE_HW_B) {
+ ene_enable_cir_engine(dev, true);
return;
+ }
- /* receiver not learning capable, still set gpio40 correctly */
if (!dev->hw_learning_and_tx_capable) {
- ene_enable_gpio40_receive(dev, !dev->hw_gpio40_learning);
+ ene_enable_cir_engine(dev, true);
+ ene_select_rx_input(dev, dev->hw_use_gpio_0a);
return;
}
/* enable learning mode */
if (learning_mode) {
- ene_enable_gpio40_receive(dev, dev->hw_gpio40_learning);
- /* fan input is not used for learning */
- if (dev->hw_fan_as_normal_input)
- ene_enable_fan_receive(dev, 0);
+ /* Disable the fan hack */
+ if (dev->hw_fan_input)
+ ene_enable_fan_input(dev, 0);
+
+ /* Enable the opposite to normal input
+ That means that if GPIO40 is normally used, use GPIO0A
+ and vice versa
+ This means that this input will carry non demodulated
+ signal, and hw will demodulate it on its own */
+ ene_enable_cir_engine(dev, true);
+ ene_select_rx_input(dev, !dev->hw_use_gpio_0a);
+
+ /* Enable carrier detection & demodulation */
+ ene_set_reg_mask(dev, ENE_CIRCFG, ENE_CIRCFG_CARR_DEMOD);
+ ene_set_reg_mask(dev, ENE_CIRCFG2, ENE_CIRCFG2_CARR_DETECT);
+
/* disable learning mode */
} else {
- if (dev->hw_fan_as_normal_input) {
- ene_enable_fan_receive(dev, 1);
- ene_enable_normal_receive(dev, 0);
- } else
- ene_enable_gpio40_receive(dev,
- !dev->hw_gpio40_learning);
- }
- /* set few additional settings for this mode */
- ene_hw_write_reg_mask(dev, ENE_CIR_CONF1, learning_mode ?
- ENE_CIR_CONF1_LEARN1 : 0, ENE_CIR_CONF1_LEARN1);
+ /* Enable the fan hack if used */
+ if (dev->hw_fan_input) {
+ ene_enable_cir_engine(dev, false);
+ ene_enable_fan_input(dev, true);
+ } else {
+ ene_enable_cir_engine(dev, true);
+ ene_select_rx_input(dev, dev->hw_use_gpio_0a);
+ }
- ene_hw_write_reg_mask(dev, ENE_CIR_CONF2, learning_mode ?
- ENE_CIR_CONF2_LEARN2 : 0, ENE_CIR_CONF2_LEARN2);
+ /* Disable carrier detection & demodulation */
+ ene_clear_reg_mask(dev, ENE_CIRCFG, ENE_CIRCFG_CARR_DEMOD);
+ ene_clear_reg_mask(dev, ENE_CIRCFG2,
+ ENE_CIRCFG2_CARR_DETECT);
+ }
if (dev->rx_fan_input_inuse) {
dev->props->rx_resolution = ENE_SAMPLE_PERIOD_FAN * 1000;
@@ -278,34 +320,35 @@ static void ene_rx_enable(struct ene_device *dev)
{
u8 reg_value;
+ /* Enable system interrupt */
if (dev->hw_revision < ENE_HW_C) {
- ene_hw_write_reg(dev, ENEB_IRQ, dev->irq << 1);
- ene_hw_write_reg(dev, ENEB_IRQ_UNK1, 0x01);
+ ene_write_reg(dev, ENEB_IRQ, dev->irq << 1);
+ ene_write_reg(dev, ENEB_IRQ_UNK1, 0x01);
} else {
- reg_value = ene_hw_read_reg(dev, ENEC_IRQ) & 0xF0;
+ reg_value = ene_read_reg(dev, ENEC_IRQ) & 0xF0;
reg_value |= ENEC_IRQ_UNK_EN;
reg_value &= ~ENEC_IRQ_STATUS;
reg_value |= (dev->irq & ENEC_IRQ_MASK);
- ene_hw_write_reg(dev, ENEC_IRQ, reg_value);
- ene_hw_write_reg(dev, ENE_TX_UNK1, 0x63);
+ ene_write_reg(dev, ENEC_IRQ, reg_value);
}
- ene_hw_write_reg(dev, ENE_CIR_CONF2, 0x00);
+ if (dev->hw_revision >= ENE_HW_C)
+ ene_write_reg(dev, ENE_CIRCAR_PULS, 0x63);
+
+ ene_write_reg(dev, ENE_CIRCFG2, 0x00);
ene_rx_set_inputs(dev);
- /* set sampling period */
- ene_hw_write_reg(dev, ENE_CIR_SAMPLE_PERIOD, sample_period);
+ /* set sample period*/
+ ene_write_reg(dev, ENE_CIRRLC_CFG, sample_period);
/* ack any pending irqs - just in case */
ene_irq_status(dev);
/* enable firmware bits */
- ene_hw_write_reg_mask(dev, ENE_FW1,
- ENE_FW1_ENABLE | ENE_FW1_IRQ,
- ENE_FW1_ENABLE | ENE_FW1_IRQ);
+ ene_set_reg_mask(dev, ENE_FW1, ENE_FW1_ENABLE | ENE_FW1_IRQ);
- /* enter idle mode */
- ir_raw_event_set_idle(dev->idev, 1);
+ /* enter idle mode on revB*/
+ ir_raw_event_set_idle(dev->idev, true);
ir_raw_event_reset(dev->idev);
}
@@ -314,15 +357,15 @@ static void ene_rx_enable(struct ene_device *dev)
static void ene_rx_disable(struct ene_device *dev)
{
/* disable inputs */
- ene_enable_normal_receive(dev, 0);
+ ene_enable_cir_engine(dev, false);
- if (dev->hw_fan_as_normal_input)
- ene_enable_fan_receive(dev, 0);
+ if (dev->hw_fan_input)
+ ene_enable_fan_input(dev, false);
/* disable hardware IRQ and firmware flag */
- ene_hw_write_reg_mask(dev, ENE_FW1, 0, ENE_FW1_ENABLE | ENE_FW1_IRQ);
+ ene_clear_reg_mask(dev, ENE_FW1, ENE_FW1_ENABLE | ENE_FW1_IRQ);
- ir_raw_event_set_idle(dev->idev, 1);
+ ir_raw_event_set_idle(dev->idev, true);
ir_raw_event_reset(dev->idev);
}
@@ -330,60 +373,65 @@ static void ene_rx_disable(struct ene_device *dev)
/* prepare transmission */
static void ene_tx_prepare(struct ene_device *dev)
{
- u8 conf1;
+ u8 conf1 = ene_read_reg(dev, ENE_CIRCFG);
+ u8 fwreg2 = ene_read_reg(dev, ENE_FW2);
- conf1 = ene_hw_read_reg(dev, ENE_CIR_CONF1);
dev->saved_conf1 = conf1;
+ /* revC doesn't support both full duplex mode */
if (dev->hw_revision == ENE_HW_C)
- conf1 &= ~ENE_CIR_CONF1_TX_CLEAR;
+ conf1 &= ~ENE_CIRCFG_RX_EN;
/* Enable TX engine */
- conf1 |= ENE_CIR_CONF1_TX_ON;
+ conf1 |= ENE_CIRCFG_TX_EN | ENE_CIRCFG_TX_IRQ;
+
+
+ /* Show information about currently connected transmitter jacks */
+ if (fwreg2 & ENE_FW2_EMMITER1_CONN)
+ dbg("TX: Transmitter #1 is connected");
+
+ if (fwreg2 & ENE_FW2_EMMITER2_CONN)
+ dbg("TX: Transmitter #2 is connected");
+
+ if (!(fwreg2 & (ENE_FW2_EMMITER1_CONN | ENE_FW2_EMMITER2_CONN)))
+ ene_warn("TX: transmitter cable isn't connected!");
/* Set carrier */
if (dev->tx_period) {
- /* NOTE: duty cycle handling is just a guess, it might
- not be aviable. Default values were tested */
- int tx_period_in500ns = dev->tx_period * 2;
-
- int tx_pulse_width_in_500ns =
- tx_period_in500ns / (100 / dev->tx_duty_cycle);
+ int tx_puls_width = dev->tx_period / (100 / dev->tx_duty_cycle);
- if (!tx_pulse_width_in_500ns)
- tx_pulse_width_in_500ns = 1;
+ if (!tx_puls_width)
+ tx_puls_width = 1;
- ene_dbg("TX: pulse distance = %d * 500 ns", tx_period_in500ns);
- ene_dbg("TX: pulse width = %d * 500 ns",
- tx_pulse_width_in_500ns);
+ dbg("TX: pulse distance = %d * 500 ns", dev->tx_period);
+ dbg("TX: pulse width = %d * 500 ns", tx_puls_width);
- ene_hw_write_reg(dev, ENE_TX_PERIOD, ENE_TX_PERIOD_UNKBIT |
- tx_period_in500ns);
+ ene_write_reg(dev, ENE_CIRMOD_PRD, ENE_CIRMOD_PRD_POL |
+ dev->tx_period);
- ene_hw_write_reg(dev, ENE_TX_PERIOD_PULSE,
- tx_pulse_width_in_500ns);
+ ene_write_reg(dev, ENE_CIRMOD_HPRD, tx_puls_width);
- conf1 |= ENE_CIR_CONF1_TX_CARR;
+ conf1 |= ENE_CIRCFG_TX_CARR;
} else
- conf1 &= ~ENE_CIR_CONF1_TX_CARR;
+ conf1 &= ~ENE_CIRCFG_TX_CARR;
- ene_hw_write_reg(dev, ENE_CIR_CONF1, conf1);
+ ene_write_reg(dev, ENE_CIRCFG, conf1);
}
/* end transmission */
static void ene_tx_complete(struct ene_device *dev)
{
- ene_hw_write_reg(dev, ENE_CIR_CONF1, dev->saved_conf1);
+ ene_write_reg(dev, ENE_CIRCFG, dev->saved_conf1);
dev->tx_buffer = NULL;
}
/* set transmit mask */
static void ene_tx_hw_set_transmiter_mask(struct ene_device *dev)
{
- u8 txport1 = ene_hw_read_reg(dev, ENE_TX_PORT1) & ~ENE_TX_PORT1_EN;
- u8 txport2 = ene_hw_read_reg(dev, ENE_TX_PORT2) & ~ENE_TX_PORT2_EN;
+ u8 txport1 = ene_read_reg(dev, ENE_TX_PORT1) & ~ENE_TX_PORT1_EN;
+ u8 txport2 = ene_read_reg(dev, ENE_TX_PORT2) & ~ENE_TX_PORT2_EN;
if (dev->transmitter_mask & 0x01)
txport1 |= ENE_TX_PORT1_EN;
@@ -391,8 +439,8 @@ static void ene_tx_hw_set_transmiter_mask(struct ene_device
*dev)
if (dev->transmitter_mask & 0x02)
txport2 |= ENE_TX_PORT2_EN;
- ene_hw_write_reg(dev, ENE_TX_PORT1, txport1);
- ene_hw_write_reg(dev, ENE_TX_PORT2, txport2);
+ ene_write_reg(dev, ENE_TX_PORT1, txport1);
+ ene_write_reg(dev, ENE_TX_PORT2, txport2);
}
/* TX one sample - must be called with dev->hw_lock*/
@@ -400,22 +448,23 @@ static void ene_tx_sample(struct ene_device *dev)
{
u8 raw_tx;
u32 sample;
+ bool pulse = dev->tx_sample_pulse;
if (!dev->tx_buffer) {
- ene_dbg("TX: attempt to transmit NULL buffer");
+ ene_warn("TX: attempt to transmit NULL buffer");
return;
}
/* Grab next TX sample */
if (!dev->tx_sample) {
-again:
- if (dev->tx_pos == dev->tx_len + 1) {
+
+ if (dev->tx_pos == dev->tx_len) {
if (!dev->tx_done) {
- ene_dbg("TX: no more data to send");
- dev->tx_done = 1;
+ dbg("TX: no more data to send");
+ dev->tx_done = true;
goto exit;
} else {
- ene_dbg("TX: last sample sent by hardware");
+ dbg("TX: last sample sent by hardware");
ene_tx_complete(dev);
complete(&dev->tx_complete);
return;
@@ -425,23 +474,21 @@ again:
sample = dev->tx_buffer[dev->tx_pos++];
dev->tx_sample_pulse = !dev->tx_sample_pulse;
- ene_dbg("TX: sample %8d (%s)", sample, dev->tx_sample_pulse ?
+ dbg("TX: sample %8d (%s)", sample, dev->tx_sample_pulse ?
"pulse" : "space");
+ dev->tx_sample = DIV_ROUND_CLOSEST(sample, sample_period);
- dev->tx_sample = DIV_ROUND_CLOSEST(sample, ENE_TX_SMPL_PERIOD);
-
- /* guard against too short samples */
if (!dev->tx_sample)
- goto again;
+ dev->tx_sample = 1;
}
- raw_tx = min(dev->tx_sample , (unsigned int)ENE_TX_SMLP_MASK);
+ raw_tx = min(dev->tx_sample , (unsigned int)ENE_CIRRLC_OUT_MASK);
dev->tx_sample -= raw_tx;
- if (dev->tx_sample_pulse)
- raw_tx |= ENE_TX_PULSE_MASK;
+ if (pulse)
+ raw_tx |= ENE_CIRRLC_OUT_PULSE;
- ene_hw_write_reg(dev, ENE_TX_INPUT1 + dev->tx_reg, raw_tx);
+ ene_write_reg(dev, ENE_CIRRLC_OUT0 + dev->tx_reg, raw_tx);
dev->tx_reg = !dev->tx_reg;
exit:
/* simulate TX done interrupt */
@@ -460,82 +507,204 @@ static void ene_tx_irqsim(unsigned long data)
spin_unlock_irqrestore(&dev->hw_lock, flags);
}
+/* Read properities of hw sample buffer */
+static void ene_setup_hw_buffer(struct ene_device *dev)
+{
+ u16 tmp;
+
+ ene_read_hw_pointer(dev);
+ dev->r_pointer = dev->w_pointer;
+
+ if (!dev->hw_extra_buffer) {
+ dev->buffer_len = ENE_SAMPLES_SIZE * 2;
+ return;
+ }
+
+ tmp = ene_read_reg(dev, ENE_SAMPLE_BUFFER);
+ tmp |= ene_read_reg(dev, ENE_SAMPLE_BUFFER+1) << 8;
+ dev->extra_buf1_address = tmp;
+
+ dev->extra_buf1_len = ene_read_reg(dev, ENE_SAMPLE_BUFFER + 2);
+
+ tmp = ene_read_reg(dev, ENE_SAMPLE_BUFFER + 3);
+ tmp |= ene_read_reg(dev, ENE_SAMPLE_BUFFER + 4) << 8;
+ dev->extra_buf2_address = tmp;
+
+ dev->extra_buf2_len = ene_read_reg(dev, ENE_SAMPLE_BUFFER + 5);
+
+ dev->buffer_len = dev->extra_buf1_len + dev->extra_buf2_len + 8;
+
+ ene_notice("Hardware uses 2 extended buffers:");
+ ene_notice(" 0x%04x - len : %d", dev->extra_buf1_address,
+ dev->extra_buf1_len);
+ ene_notice(" 0x%04x - len : %d", dev->extra_buf2_address,
+ dev->extra_buf2_len);
+
+ ene_notice("Total buffer len = %d", dev->buffer_len);
+
+ if (dev->buffer_len > 64 || dev->buffer_len < 16)
+ goto error;
+
+ if (dev->extra_buf1_address > 0xFBFC ||
+ dev->extra_buf1_address < 0xEC00)
+ goto error;
+
+ if (dev->extra_buf2_address > 0xFBFC ||
+ dev->extra_buf2_address < 0xEC00)
+ goto error;
+
+ if (dev->r_pointer > dev->buffer_len)
+ goto error;
+
+ ene_set_reg_mask(dev, ENE_FW1, ENE_FW1_EXTRA_BUF_HND);
+ return;
+error:
+ ene_warn("Error validating extra buffers, device probably won't work");
+ dev->hw_extra_buffer = false;
+ ene_clear_reg_mask(dev, ENE_FW1, ENE_FW1_EXTRA_BUF_HND);
+}
+
+
+/* Restore the pointers to extra buffers - to make module reload work*/
+static void ene_restore_extra_buffer(struct ene_device *dev)
+{
+ if (!dev->hw_extra_buffer)
+ return;
+
+ ene_write_reg(dev, ENE_SAMPLE_BUFFER + 0,
+ dev->extra_buf1_address & 0xFF);
+ ene_write_reg(dev, ENE_SAMPLE_BUFFER + 1,
+ dev->extra_buf1_address >> 8);
+ ene_write_reg(dev, ENE_SAMPLE_BUFFER + 2, dev->extra_buf1_len);
+
+ ene_write_reg(dev, ENE_SAMPLE_BUFFER + 3,
+ dev->extra_buf2_address & 0xFF);
+ ene_write_reg(dev, ENE_SAMPLE_BUFFER + 4,
+ dev->extra_buf2_address >> 8);
+ ene_write_reg(dev, ENE_SAMPLE_BUFFER + 5,
+ dev->extra_buf2_len);
+ ene_clear_reg_mask(dev, ENE_FW1, ENE_FW1_EXTRA_BUF_HND);
+}
+
/* read irq status and ack it */
static int ene_irq_status(struct ene_device *dev)
{
u8 irq_status;
u8 fw_flags1, fw_flags2;
- int cur_rx_pointer;
int retval = 0;
- fw_flags2 = ene_hw_read_reg(dev, ENE_FW2);
- cur_rx_pointer = !!(fw_flags2 & ENE_FW2_BUF_HIGH);
+ fw_flags2 = ene_read_reg(dev, ENE_FW2);
if (dev->hw_revision < ENE_HW_C) {
- irq_status = ene_hw_read_reg(dev, ENEB_IRQ_STATUS);
+ irq_status = ene_read_reg(dev, ENEB_IRQ_STATUS);
if (!(irq_status & ENEB_IRQ_STATUS_IR))
return 0;
- ene_hw_write_reg(dev, ENEB_IRQ_STATUS,
- irq_status & ~ENEB_IRQ_STATUS_IR);
- dev->rx_pointer = cur_rx_pointer;
+ ene_clear_reg_mask(dev, ENEB_IRQ_STATUS, ENEB_IRQ_STATUS_IR);
return ENE_IRQ_RX;
}
- irq_status = ene_hw_read_reg(dev, ENEC_IRQ);
-
+ irq_status = ene_read_reg(dev, ENEC_IRQ);
if (!(irq_status & ENEC_IRQ_STATUS))
return 0;
/* original driver does that twice - a workaround ? */
- ene_hw_write_reg(dev, ENEC_IRQ, irq_status & ~ENEC_IRQ_STATUS);
- ene_hw_write_reg(dev, ENEC_IRQ, irq_status & ~ENEC_IRQ_STATUS);
+ ene_write_reg(dev, ENEC_IRQ, irq_status & ~ENEC_IRQ_STATUS);
+ ene_write_reg(dev, ENEC_IRQ, irq_status & ~ENEC_IRQ_STATUS);
- /* clear unknown flag in F8F9 */
- if (fw_flags2 & ENE_FW2_IRQ_CLR)
- ene_hw_write_reg(dev, ENE_FW2, fw_flags2 & ~ENE_FW2_IRQ_CLR);
+ /* check RX interrupt */
+ if (fw_flags2 & ENE_FW2_RXIRQ) {
+ retval |= ENE_IRQ_RX;
+ ene_write_reg(dev, ENE_FW2, fw_flags2 & ~ENE_FW2_RXIRQ);
+ }
- /* check if this is a TX interrupt */
- fw_flags1 = ene_hw_read_reg(dev, ENE_FW1);
+ /* check TX interrupt */
+ fw_flags1 = ene_read_reg(dev, ENE_FW1);
if (fw_flags1 & ENE_FW1_TXIRQ) {
- ene_hw_write_reg(dev, ENE_FW1, fw_flags1 & ~ENE_FW1_TXIRQ);
+ ene_write_reg(dev, ENE_FW1, fw_flags1 & ~ENE_FW1_TXIRQ);
retval |= ENE_IRQ_TX;
}
- /* Check if this is RX interrupt */
- if (dev->rx_pointer != cur_rx_pointer) {
- retval |= ENE_IRQ_RX;
- dev->rx_pointer = cur_rx_pointer;
+ return retval;
+}
- } else if (!(retval & ENE_IRQ_TX)) {
- ene_dbg("RX: interrupt without change in RX pointer(%d)",
- dev->rx_pointer);
- retval |= ENE_IRQ_RX;
+/* Read hardware write pointer */
+static void ene_read_hw_pointer(struct ene_device *dev)
+{
+ if (dev->hw_extra_buffer)
+ dev->w_pointer = ene_read_reg(dev, ENE_FW_RX_POINTER);
+ else
+ dev->w_pointer = ene_read_reg(dev, ENE_FW2)
+ & ENE_FW2_BUF_WPTR ? 0 : ENE_SAMPLES_SIZE;
+
+ dbg_verbose("RB: HW write pointer: %02x, driver read pointer: %02x",
+ dev->w_pointer, dev->r_pointer);
+}
+
+/* Gets address of next sample from HW ring buffer */
+static int ene_get_sample_reg(struct ene_device *dev)
+{
+ int r_pointer;
+
+ if (dev->r_pointer == dev->w_pointer) {
+ dbg_verbose("RB: hit end, try update w_pointer");
+ ene_read_hw_pointer(dev);
}
- if ((retval & ENE_IRQ_RX) && (retval & ENE_IRQ_TX))
- ene_dbg("both RX and TX interrupt at same time");
+ if (dev->r_pointer == dev->w_pointer) {
+ dbg_verbose("RB: end of data at %d", dev->r_pointer);
+ return 0;
+ }
- return retval;
+ dbg_verbose("RB: reading at offset %d", dev->r_pointer);
+ r_pointer = dev->r_pointer;
+
+ dev->r_pointer++;
+ if (dev->r_pointer == dev->buffer_len)
+ dev->r_pointer = 0;
+
+ dbg_verbose("RB: next read will be from offset %d", dev->r_pointer);
+
+ if (r_pointer < 8) {
+ dbg_verbose("RB: read at main buffer at %d", r_pointer);
+ return ENE_SAMPLE_BUFFER + r_pointer;
+ }
+
+ r_pointer -= 8;
+
+ if (r_pointer < dev->extra_buf1_len) {
+ dbg_verbose("RB: read at 1st extra buffer at %d", r_pointer);
+ return dev->extra_buf1_address + r_pointer;
+ }
+
+ r_pointer -= dev->extra_buf1_len;
+
+ if (r_pointer < dev->extra_buf2_len) {
+ dbg_verbose("RB: read at 2nd extra buffer at %d", r_pointer);
+ return dev->extra_buf2_address + r_pointer;
+ }
+
+ dbg("attempt to read beyong ring bufer end");
+ return 0;
}
/* interrupt handler */
static irqreturn_t ene_isr(int irq, void *data)
{
- u16 hw_value;
- int i, hw_sample;
- int pulse;
- int irq_status;
+ u16 hw_value, reg;
+ int hw_sample, irq_status;
+ bool pulse;
unsigned long flags;
- int carrier = 0;
irqreturn_t retval = IRQ_NONE;
struct ene_device *dev = (struct ene_device *)data;
struct ir_raw_event ev;
-
spin_lock_irqsave(&dev->hw_lock, flags);
+
+ dbg_verbose("ISR called");
+ ene_read_hw_pointer(dev);
irq_status = ene_irq_status(dev);
if (!irq_status)
@@ -544,9 +713,9 @@ static irqreturn_t ene_isr(int irq, void *data)
retval = IRQ_HANDLED;
if (irq_status & ENE_IRQ_TX) {
-
+ dbg_verbose("TX interrupt");
if (!dev->hw_learning_and_tx_capable) {
- ene_dbg("TX interrupt on unsupported device!");
+ dbg("TX interrupt on unsupported device!");
goto unlock;
}
ene_tx_sample(dev);
@@ -555,24 +724,32 @@ static irqreturn_t ene_isr(int irq, void *data)
if (!(irq_status & ENE_IRQ_RX))
goto unlock;
+ dbg_verbose("RX interrupt");
if (dev->carrier_detect_enabled || debug)
- carrier = ene_rx_sense_carrier(dev);
-#if 0
- /* TODO */
- if (dev->carrier_detect_enabled && carrier)
- ir_raw_event_report_frequency(dev->idev, carrier);
-#endif
+ ene_rx_sense_carrier(dev);
+
+ /* On hardware that don't support extra buffer we need to trust
+ the interrupt and not track the read pointer */
+ if (!dev->hw_extra_buffer)
+ dev->r_pointer = dev->w_pointer == 0 ? ENE_SAMPLES_SIZE : 0;
- for (i = 0; i < ENE_SAMPLES_SIZE; i++) {
- hw_value = ene_hw_read_reg(dev,
- ENE_SAMPLE_BUFFER + dev->rx_pointer * 4 + i);
+ while (1) {
+
+ reg = ene_get_sample_reg(dev);
+
+ dbg_verbose("next sample to read at: %04x", reg);
+ if (!reg)
+ break;
+
+ hw_value = ene_read_reg(dev, reg);
if (dev->rx_fan_input_inuse) {
+
+ int offset = ENE_SAMPLE_BUFFER_FAN - ENE_SAMPLE_BUFFER;
+
/* read high part of the sample */
- hw_value |= ene_hw_read_reg(dev,
- ENE_SAMPLE_BUFFER_FAN +
- dev->rx_pointer * 4 + i) << 8;
+ hw_value |= ene_read_reg(dev, reg + offset) << 8;
pulse = hw_value & ENE_FAN_SMPL_PULS_MSK;
/* clear space bit, and other unused bits */
@@ -589,12 +766,13 @@ static irqreturn_t ene_isr(int irq, void *data)
hw_sample /= 100;
}
}
- /* no more data */
- if (!(hw_value))
- break;
- ene_dbg("RX: %d (%s)", hw_sample, pulse ? "pulse" : "space");
+ if (!dev->hw_extra_buffer && !hw_sample) {
+ dev->r_pointer = dev->w_pointer;
+ continue;
+ }
+ dbg("RX: %d (%s)", hw_sample, pulse ? "pulse" : "space");
ev.duration = hw_sample * 1000;
ev.pulse = pulse;
@@ -611,15 +789,13 @@ unlock:
static void ene_setup_settings(struct ene_device *dev)
{
dev->tx_period = 32;
- dev->tx_duty_cycle = 25; /*%*/
+ dev->tx_duty_cycle = 50; /*%*/
dev->transmitter_mask = 3;
/* Force learning mode if (input == 2), otherwise
let user set it with LIRC_SET_REC_CARRIER */
dev->learning_enabled =
- (input == 2 && dev->hw_learning_and_tx_capable);
-
- dev->rx_pointer = -1;
+ (learning_mode && dev->hw_learning_and_tx_capable);
}
@@ -630,7 +806,7 @@ static int ene_open(void *data)
unsigned long flags;
spin_lock_irqsave(&dev->hw_lock, flags);
- dev->in_use = 1;
+ dev->in_use = true;
ene_setup_settings(dev);
ene_rx_enable(dev);
spin_unlock_irqrestore(&dev->hw_lock, flags);
@@ -645,7 +821,7 @@ static void ene_close(void *data)
spin_lock_irqsave(&dev->hw_lock, flags);
ene_rx_disable(dev);
- dev->in_use = 0;
+ dev->in_use = false;
spin_unlock_irqrestore(&dev->hw_lock, flags);
}
@@ -654,11 +830,11 @@ static int ene_set_tx_mask(void *data, u32 tx_mask)
{
struct ene_device *dev = (struct ene_device *)data;
unsigned long flags;
- ene_dbg("TX: attempt to set transmitter mask %02x", tx_mask);
+ dbg("TX: attempt to set transmitter mask %02x", tx_mask);
/* invalid txmask */
- if (!tx_mask || tx_mask & ~0x3) {
- ene_dbg("TX: invalid mask");
+ if (!tx_mask || tx_mask & ~0x03) {
+ dbg("TX: invalid mask");
/* return count of transmitters */
return 2;
}
@@ -674,28 +850,42 @@ static int ene_set_tx_carrier(void *data, u32 carrier)
{
struct ene_device *dev = (struct ene_device *)data;
unsigned long flags;
- u32 period = 1000000 / carrier; /* (1 / freq) (* # usec in 1 sec) */
+ u32 period = 2000000 / carrier;
- ene_dbg("TX: attempt to set tx carrier to %d kHz", carrier);
+ dbg("TX: attempt to set tx carrier to %d kHz", carrier);
- if (period && (period > ENE_TX_PERIOD_MAX ||
- period < ENE_TX_PERIOD_MIN)) {
+ if (period && (period > ENE_CIRMOD_PRD_MAX ||
+ period < ENE_CIRMOD_PRD_MIN)) {
- ene_dbg("TX: out of range %d-%d carrier, "
- "falling back to 32 kHz",
- 1000 / ENE_TX_PERIOD_MIN,
- 1000 / ENE_TX_PERIOD_MAX);
+ dbg("TX: out of range %d-%d kHz carrier",
+ 2000 / ENE_CIRMOD_PRD_MIN,
+ 2000 / ENE_CIRMOD_PRD_MAX);
- period = 32; /* this is just a coincidence!!! */
+ return -1;
}
- ene_dbg("TX: set carrier to %d kHz", carrier);
+ dbg("TX: set carrier to %d kHz", carrier);
spin_lock_irqsave(&dev->hw_lock, flags);
dev->tx_period = period;
spin_unlock_irqrestore(&dev->hw_lock, flags);
return 0;
}
+/*outside interface : set tx duty cycle */
+static int ene_set_tx_duty_cycle(void *data, u32 duty_cycle)
+{
+ struct ene_device *dev = (struct ene_device *)data;
+ unsigned long flags;
+
+ dbg("TX: setting duty cycle to %d%%", duty_cycle);
+
+ BUG_ON(!duty_cycle || duty_cycle >= 100);
+
+ spin_lock_irqsave(&dev->hw_lock, flags);
+ dev->tx_duty_cycle = duty_cycle;
+ spin_unlock_irqrestore(&dev->hw_lock, flags);
+ return 0;
+}
/* outside interface: enable learning mode */
static int ene_set_learning_mode(void *data, int enable)
@@ -712,27 +902,20 @@ static int ene_set_learning_mode(void *data, int enable)
return 0;
}
-/* outside interface: set rec carrier */
-static int ene_set_rec_carrier(void *data, u32 min, u32 max)
-{
- struct ene_device *dev = (struct ene_device *)data;
- ene_set_learning_mode(dev,
- max > ENE_NORMAL_RX_HI || min < ENE_NORMAL_RX_LOW);
- return 0;
-}
-
/* outside interface: enable or disable idle mode */
static void ene_rx_set_idle(void *data, int idle)
{
struct ene_device *dev = (struct ene_device *)data;
- ene_dbg("%sabling idle mode", idle ? "en" : "dis");
+ dbg("%sabling idle mode", idle ? "en" : "dis");
- ene_hw_write_reg_mask(dev, ENE_CIR_SAMPLE_PERIOD,
- (enable_idle && idle) ? 0 : ENE_CIR_SAMPLE_OVERFLOW,
- ENE_CIR_SAMPLE_OVERFLOW);
+ if (enable_idle && idle)
+ ene_clear_reg_mask(dev,
+ ENE_CIRRLC_CFG, ENE_CIRRLC_CFG_OVERFLOW);
+ else
+ ene_set_reg_mask(dev,
+ ENE_CIRRLC_CFG, ENE_CIRRLC_CFG_OVERFLOW);
}
-
/* outside interface: transmit */
static int ene_transmit(void *data, int *buf, u32 n)
{
@@ -747,7 +930,7 @@ static int ene_transmit(void *data, int *buf, u32 n)
dev->tx_sample = 0;
dev->tx_sample_pulse = 0;
- ene_dbg("TX: %d samples", dev->tx_len);
+ dbg("TX: %d samples", dev->tx_len);
spin_lock_irqsave(&dev->hw_lock, flags);
@@ -761,16 +944,15 @@ static int ene_transmit(void *data, int *buf, u32 n)
spin_unlock_irqrestore(&dev->hw_lock, flags);
if (wait_for_completion_timeout(&dev->tx_complete, 2 * HZ) == 0) {
- ene_dbg("TX: timeout");
+ dbg("TX: timeout");
spin_lock_irqsave(&dev->hw_lock, flags);
ene_tx_complete(dev);
spin_unlock_irqrestore(&dev->hw_lock, flags);
} else
- ene_dbg("TX: done");
+ dbg("TX: done");
return n;
}
-
/* probe entry */
static int ene_probe(struct pnp_dev *pnp_dev, const struct pnp_device_id *id)
{
@@ -818,16 +1000,17 @@ static int ene_probe(struct pnp_dev *pnp_dev, const
struct pnp_device_id *id)
if (error)
goto error;
- ene_setup_settings(dev);
-
if (!dev->hw_learning_and_tx_capable && txsim) {
- dev->hw_learning_and_tx_capable = 1;
+ dev->hw_learning_and_tx_capable = true;
setup_timer(&dev->tx_sim_timer, ene_tx_irqsim,
(long unsigned int)dev);
- ene_printk(KERN_WARNING,
- "Simulation of TX activated\n");
+ ene_warn("Simulation of TX activated");
}
+ ene_setup_hw_buffer(dev);
+ ene_setup_settings(dev);
+
+
ir_props->driver_type = RC_DRIVER_IR_RAW;
ir_props->allowed_protos = IR_TYPE_ALL;
ir_props->priv = dev;
@@ -836,9 +1019,7 @@ static int ene_probe(struct pnp_dev *pnp_dev, const struct
pnp_device_id *id)
ir_props->min_timeout = ENE_MINGAP * 1000;
ir_props->max_timeout = ENE_MAXGAP * 1000;
ir_props->timeout = ENE_MAXGAP * 1000;
-
- if (dev->hw_revision == ENE_HW_B)
- ir_props->s_idle = ene_rx_set_idle;
+ ir_props->s_idle = ene_rx_set_idle;
dev->props = ir_props;
@@ -849,50 +1030,37 @@ static int ene_probe(struct pnp_dev *pnp_dev, const
struct pnp_device_id *id)
sample_period = -1;
/* choose default sample period */
- if (sample_period == -1) {
-
- sample_period = 50;
-
- /* on revB, hardware idle mode eats first sample
- if we set too low sample period */
- if (dev->hw_revision == ENE_HW_B && enable_idle)
- sample_period = 75;
- }
+ if (sample_period == -1)
+ sample_period = enable_idle ? 75 : 50;
ir_props->rx_resolution = sample_period * 1000;
if (dev->hw_learning_and_tx_capable) {
-
ir_props->s_learning_mode = ene_set_learning_mode;
-
- if (input == 0)
- ir_props->s_rx_carrier_range = ene_set_rec_carrier;
-
init_completion(&dev->tx_complete);
ir_props->tx_ir = ene_transmit;
ir_props->s_tx_mask = ene_set_tx_mask;
ir_props->s_tx_carrier = ene_set_tx_carrier;
- ir_props->tx_resolution = ENE_TX_SMPL_PERIOD * 1000;
+ ir_props->s_tx_duty_cycle = ene_set_tx_duty_cycle;
+ ir_props->tx_resolution = sample_period * 1000;
/* ir_props->s_carrier_report = ene_set_carrier_report; */
}
- device_set_wakeup_capable(&pnp_dev->dev, 1);
- device_set_wakeup_enable(&pnp_dev->dev, 1);
+ device_set_wakeup_capable(&pnp_dev->dev, true);
+ device_set_wakeup_enable(&pnp_dev->dev, true);
if (dev->hw_learning_and_tx_capable)
input_dev->name = "ENE eHome Infrared Remote Transceiver";
else
input_dev->name = "ENE eHome Infrared Remote Receiver";
-
error = -ENODEV;
if (ir_input_register(input_dev, RC_MAP_RC6_MCE, ir_props,
ENE_DRIVER_NAME))
goto error;
-
- ene_printk(KERN_NOTICE, "driver has been succesfully loaded\n");
+ ene_notice("driver has been succesfully loaded");
return 0;
error:
if (dev->irq)
@@ -914,6 +1082,7 @@ static void ene_remove(struct pnp_dev *pnp_dev)
spin_lock_irqsave(&dev->hw_lock, flags);
ene_rx_disable(dev);
+ ene_restore_extra_buffer(dev);
spin_unlock_irqrestore(&dev->hw_lock, flags);
free_irq(dev->irq, dev);
@@ -927,18 +1096,21 @@ static void ene_remove(struct pnp_dev *pnp_dev)
static void ene_enable_wake(struct ene_device *dev, int enable)
{
enable = enable && device_may_wakeup(&dev->pnp_dev->dev);
+ dbg("wake on IR %s", enable ? "enabled" : "disabled");
- ene_dbg("wake on IR %s", enable ? "enabled" : "disabled");
-
- ene_hw_write_reg_mask(dev, ENE_FW1, enable ?
- ENE_FW1_WAKE : 0, ENE_FW1_WAKE);
+ if (enable)
+ ene_set_reg_mask(dev, ENE_FW1, ENE_FW1_WAKE);
+ else
+ ene_clear_reg_mask(dev, ENE_FW1, ENE_FW1_WAKE);
}
#ifdef CONFIG_PM
static int ene_suspend(struct pnp_dev *pnp_dev, pm_message_t state)
{
struct ene_device *dev = pnp_get_drvdata(pnp_dev);
- ene_enable_wake(dev, 1);
+ ene_enable_wake(dev, true);
+
+ /* TODO: add support for wake pattern */
return 0;
}
@@ -947,8 +1119,7 @@ static int ene_resume(struct pnp_dev *pnp_dev)
struct ene_device *dev = pnp_get_drvdata(pnp_dev);
if (dev->in_use)
ene_rx_enable(dev);
-
- ene_enable_wake(dev, 0);
+ ene_enable_wake(dev, false);
return 0;
}
#endif
@@ -956,7 +1127,7 @@ static int ene_resume(struct pnp_dev *pnp_dev)
static void ene_shutdown(struct pnp_dev *pnp_dev)
{
struct ene_device *dev = pnp_get_drvdata(pnp_dev);
- ene_enable_wake(dev, 1);
+ ene_enable_wake(dev, true);
}
static const struct pnp_device_id ene_ids[] = {
@@ -996,16 +1167,14 @@ MODULE_PARM_DESC(sample_period, "Hardware sample period
(50 us default)");
module_param(enable_idle, bool, S_IRUGO | S_IWUSR);
MODULE_PARM_DESC(enable_idle,
- "Enables turning off signal sampling after long inactivity time; "
- "if disabled might help detecting input signal (default: enabled)"
- " (KB3926B only)");
+ "Turn off input after long inactivity time; "
+ "if disabled might help detecting input signal (default: enabled)");
-module_param(input, bool, S_IRUGO);
-MODULE_PARM_DESC(input, "select which input to use "
- "0 - auto, 1 - standard, 2 - wideband(KB3926C+)");
+module_param(learning_mode, bool, S_IRUGO);
+MODULE_PARM_DESC(learning_mode, "Enable learning mode by default");
module_param(debug, int, S_IRUGO | S_IWUSR);
-MODULE_PARM_DESC(debug, "Enable debug (debug=2 verbose debug output)");
+MODULE_PARM_DESC(debug, "Debug level");
module_param(txsim, bool, S_IRUGO);
MODULE_PARM_DESC(txsim,
@@ -1013,8 +1182,8 @@ MODULE_PARM_DESC(txsim,
MODULE_DEVICE_TABLE(pnp, ene_ids);
MODULE_DESCRIPTION
- ("Infrared input driver for KB3926B/KB3926C/KB3926D "
- "(aka ENE0100/ENE0200/ENE0201) CIR port");
+ ("Infrared input driver for KB3926B/C/D/E/F "
+ "(aka ENE0100/ENE0200/ENE0201/ENE0202) CIR port");
MODULE_AUTHOR("Maxim Levitsky");
MODULE_LICENSE("GPL");
diff --git a/drivers/media/IR/ene_ir.h b/drivers/media/IR/ene_ir.h
index 54c76af..69a0ae0 100644
--- a/drivers/media/IR/ene_ir.h
+++ b/drivers/media/IR/ene_ir.h
@@ -1,5 +1,5 @@
/*
- * driver for ENE KB3926 B/C/D CIR (also known as ENE0XXX)
+ * driver for ENE KB3926 B/C/D/E/F CIR (also known as ENE0XXX)
*
* Copyright (C) 2010 Maxim Levitsky <maximlevit...@gmail.com>
*
@@ -35,32 +35,44 @@
#define ENE_SAMPLE_OVERFLOW 0x7F
#define ENE_SAMPLES_SIZE 4
-/* fan input sample buffer */
-#define ENE_SAMPLE_BUFFER_FAN 0xF8FB /* this buffer holds high byte of */
- /* each sample of normal buffer */
-#define ENE_FAN_SMPL_PULS_MSK 0x8000 /* this bit of combined sample */
- /* if set, says that sample is pulse */
-#define ENE_FAN_VALUE_MASK 0x0FFF /* mask for valid bits of the value */
-
/* first firmware register */
-#define ENE_FW1 0xF8F8
+#define ENE_FW1 0xF8F8 /* flagr */
#define ENE_FW1_ENABLE 0x01 /* enable fw processing */
#define ENE_FW1_TXIRQ 0x02 /* TX interrupt pending */
+#define ENE_FW1_HAS_EXTRA_BUF 0x04 /* fw uses extra buffer*/
+#define ENE_FW1_EXTRA_BUF_HND 0x08 /* extra buffer handshake bit*/
+#define ENE_FW1_LED_ON 0x10 /* turn on a led */
+
+#define ENE_FW1_WPATTERN 0x20 /* enable wake pattern */
#define ENE_FW1_WAKE 0x40 /* enable wake from S3 */
#define ENE_FW1_IRQ 0x80 /* enable interrupt */
/* second firmware register */
-#define ENE_FW2 0xF8F9
-#define ENE_FW2_BUF_HIGH 0x01 /* which half of the buffer to read */
-#define ENE_FW2_IRQ_CLR 0x04 /* clear this on IRQ */
-#define ENE_FW2_GP40_AS_LEARN 0x08 /* normal input is used as */
- /* learning input */
-#define ENE_FW2_FAN_AS_NRML_IN 0x40 /* fan is used as normal input */
+#define ENE_FW2 0xF8F9 /* flagw */
+#define ENE_FW2_BUF_WPTR 0x01 /* which half of the buffer to read */
+#define ENE_FW2_RXIRQ 0x04 /* RX IRQ pending*/
+#define ENE_FW2_GP0A 0x08 /* 0: GPIO0A - normal input, GPIO40 -
learning input */
+ /* 1: GPIO40 - normal input, GPIO0A -
learning input */
+#define ENE_FW2_EMMITER1_CONN 0x10 /* TX emmiter 1 connected */
+#define ENE_FW2_EMMITER2_CONN 0x20 /* TX emmiter 2 connected */
+
+#define ENE_FW2_FAN_INPUT 0x40 /* fan input gives IR data*/
#define ENE_FW2_LEARNING 0x80 /* hardware supports learning and TX */
+/* firmware RX pointer for new style buffer */
+#define ENE_FW_RX_POINTER 0xF8FA
+
+/* fan input sample buffer (8 bytes) */
+#define ENE_SAMPLE_BUFFER_FAN 0xF8FB /* this buffer holds high byte of */
+ /* each sample of normal buffer */
+#define ENE_FAN_SMPL_PULS_MSK 0x8000 /* this bit of combined sample */
+ /* if set, says that sample is pulse */
+#define ENE_FAN_VALUE_MASK 0x0FFF /* mask for valid bits of the value */
+
+
/* transmitter ports */
-#define ENE_TX_PORT2 0xFC01 /* this enables one or both */
-#define ENE_TX_PORT2_EN 0x20 /* TX ports */
+#define ENE_TX_PORT2 0xFC01
+#define ENE_TX_PORT2_EN 0x20
#define ENE_TX_PORT1 0xFC08
#define ENE_TX_PORT1_EN 0x02
@@ -70,7 +82,7 @@
#define ENEB_IRQ_STATUS 0xFD80 /* irq status */
#define ENEB_IRQ_STATUS_IR 0x20 /* IR irq */
-/* fan as input settings - only if learning capable */
+/* fan as input settings */
#define ENE_FAN_AS_IN1 0xFE30 /* fan init reg 1 */
#define ENE_FAN_AS_IN1_EN 0xCD
#define ENE_FAN_AS_IN2 0xFE31 /* fan init reg 2 */
@@ -83,43 +95,73 @@
#define ENEC_IRQ_UNK_EN 0x10 /* always enabled */
#define ENEC_IRQ_STATUS 0x20 /* irq status and ACK */
-/* CIR block settings */
-#define ENE_CIR_CONF1 0xFEC0
-#define ENE_CIR_CONF1_TX_CLEAR 0x01 /* clear that on revC */
- /* while transmitting */
-#define ENE_CIR_CONF1_RX_ON 0x07 /* normal receiver enabled */
-#define ENE_CIR_CONF1_LEARN1 0x08 /* enabled on learning mode */
-#define ENE_CIR_CONF1_TX_ON 0x30 /* enabled on transmit */
-#define ENE_CIR_CONF1_TX_CARR 0x80 /* send TX carrier or not */
-
-#define ENE_CIR_CONF2 0xFEC1 /* unknown setting = 0 */
-#define ENE_CIR_CONF2_LEARN2 0x10 /* set on enable learning */
-#define ENE_CIR_CONF2_GPIO40DIS 0x20 /* disable input via gpio40 */
-
-#define ENE_CIR_SAMPLE_PERIOD 0xFEC8 /* sample period in us */
-#define ENE_CIR_SAMPLE_OVERFLOW 0x80 /* interrupt on overflows if
set */
-
-
-/* Two byte tx buffer */
-#define ENE_TX_INPUT1 0xFEC9
-#define ENE_TX_INPUT2 0xFECA
-#define ENE_TX_PULSE_MASK 0x80 /* Transmitted sample is pulse */
-#define ENE_TX_SMLP_MASK 0x7F
-#define ENE_TX_SMPL_PERIOD 50 /* transmit sample period - fixed */
+/* CIR Config register #1 */
+#define ENE_CIRCFG 0xFEC0
+#define ENE_CIRCFG_RX_EN 0x01 /* RX enable */
+#define ENE_CIRCFG_RX_IRQ 0x02 /* Enable hardware interrupt */
+#define ENE_CIRCFG_REV_POL 0x04 /* Input polarity reversed */
+#define ENE_CIRCFG_CARR_DEMOD 0x08 /* Enable carrier demodulator */
+
+#define ENE_CIRCFG_TX_EN 0x10 /* TX enable */
+#define ENE_CIRCFG_TX_IRQ 0x20 /* Send interrupt on TX done */
+#define ENE_CIRCFG_TX_POL_REV 0x40 /* TX polarity reversed */
+#define ENE_CIRCFG_TX_CARR 0x80 /* send TX carrier or not */
+
+/* CIR config register #2 */
+#define ENE_CIRCFG2 0xFEC1
+#define ENE_CIRCFG2_RLC 0x00
+#define ENE_CIRCFG2_RC5 0x01
+#define ENE_CIRCFG2_RC6 0x02
+#define ENE_CIRCFG2_NEC 0x03
+#define ENE_CIRCFG2_CARR_DETECT 0x10 /* Enable carrier detection */
+#define ENE_CIRCFG2_GPIO0A 0x20 /* Use GPIO0A instead of GPIO40 for
input */
+#define ENE_CIRCFG2_FAST_SAMPL1 0x40 /* Fast leading pulse detection
for RC6 */
+#define ENE_CIRCFG2_FAST_SAMPL2 0x80 /* Fast data detection for RC6
*/
+
+/* Knobs for protocol decoding - will document when/if will use them */
+#define ENE_CIRPF 0xFEC2
+#define ENE_CIRHIGH 0xFEC3
+#define ENE_CIRBIT 0xFEC4
+#define ENE_CIRSTART 0xFEC5
+#define ENE_CIRSTART2 0xFEC6
+
+/* Actual register which contains RLC RX data - read by firmware */
+#define ENE_CIRDAT_IN 0xFEC7
+
+
+/* RLC configuration - sample period (1us resulution) + idle mode */
+#define ENE_CIRRLC_CFG 0xFEC8
+#define ENE_CIRRLC_CFG_OVERFLOW 0x80 /* interrupt on overflows if
set */
+
+/* Two byte RLC TX buffer */
+#define ENE_CIRRLC_OUT0 0xFEC9
+#define ENE_CIRRLC_OUT1 0xFECA
+#define ENE_CIRRLC_OUT_PULSE 0x80 /* Transmitted sample is pulse */
+#define ENE_CIRRLC_OUT_MASK 0x7F
+
+
+/* Carrier detect setting
+ * Low nibble - number of carrier pulses to average
+ * High nibble - number of initial carrier pulses to discard
+ */
+#define ENE_CIRCAR_PULS 0xFECB
+/* detected RX carrier period (resolution: 500 ns) */
+#define ENE_CIRCAR_PRD 0xFECC
+#define ENE_CIRCAR_PRD_VALID 0x80 /* data valid content valid */
-/* Unknown TX setting - TX sample period ??? */
-#define ENE_TX_UNK1 0xFECB /* set to 0x63 */
+/* detected RX carrier pulse width (resolution: 500 ns) */
+#define ENE_CIRCAR_HPRD 0xFECD
-/* Current received carrier period */
-#define ENE_RX_CARRIER 0xFECC /* RX period (500 ns) */
-#define ENE_RX_CARRIER_VALID 0x80 /* Register content valid */
+/* TX period (resolution: 500 ns, minimum 2)*/
+#define ENE_CIRMOD_PRD 0xFECE
+#define ENE_CIRMOD_PRD_POL 0x80 /* TX carrier polarity*/
+#define ENE_CIRMOD_PRD_MAX 0x7F /* 15.87 kHz */
+#define ENE_CIRMOD_PRD_MIN 0x02 /* 1 Mhz */
-/* TX period (1/carrier) */
-#define ENE_TX_PERIOD 0xFECE /* TX period (500 ns) */
-#define ENE_TX_PERIOD_UNKBIT 0x80 /* This bit set on transmit*/
-#define ENE_TX_PERIOD_PULSE 0xFECF /* TX pulse period (500 ns)*/
+/* TX pulse width (resolution: 500 ns)*/
+#define ENE_CIRMOD_HPRD 0xFECF
/* Hardware versions */
#define ENE_HW_VERSION 0xFF00 /* hardware revision */
@@ -132,34 +174,21 @@
#define ENE_HW_VER_MINOR 0xFF1F
#define ENE_HW_VER_OLD 0xFD00
-/* Normal/Learning carrier ranges - only valid if we have learning input*/
-/* TODO: test */
-#define ENE_NORMAL_RX_LOW 34
-#define ENE_NORMAL_RX_HI 38
-
-/* Tx carrier range */
-/* Hardware might be able to do more, but this range is enough for
- all purposes */
-#define ENE_TX_PERIOD_MAX 32 /* corresponds to 29.4 kHz */
-#define ENE_TX_PERIOD_MIN 16 /* corrsponds to 62.5 kHz */
+/* TX sample format */
/* Minimal and maximal gaps */
/* Normal case:
- Minimal gap is 0x7F * sample period
- Maximum gap depends on hardware.
- For KB3926B, it is unlimited, for newer models its around
- 250000, after which HW stops sending samples, and that is
- not possible to change */
-
-/* Fan case:
- Both minimal and maximal gaps are same, and equal to 0xFFF * 0x61
- And there is nothing to change this setting
-*/
-
-#define ENE_MAXGAP 250000
+ * Minimal gap is 0x7F * sample period - size of one full sample
+ * Maximum gap is infinite
+ * Fan feedback input case:
+ * Both minimal and maximal gaps are same, and equal to 0xFFF * 0x61
+ * And there is nothing to change this setting
+ */
+
+#define ENE_MAXGAP (0xFFF * 0x61)
#define ENE_MINGAP (127 * sample_period)
/******************************************************************************/
@@ -171,20 +200,27 @@
#define ENE_HW_B 1 /* 3926B */
#define ENE_HW_C 2 /* 3926C */
-#define ENE_HW_D 3 /* 3926D */
+#define ENE_HW_D 3 /* 3926D or later */
#define ene_printk(level, text, ...) \
- printk(level ENE_DRIVER_NAME ": " text, ## __VA_ARGS__)
+ printk(level ENE_DRIVER_NAME ": " text "\n", ## __VA_ARGS__)
+
+#define ene_notice(text, ...) ene_printk(KERN_NOTICE, text, ## __VA_ARGS__)
+#define ene_warn(text, ...) ene_printk(KERN_WARNING, text, ## __VA_ARGS__)
-#define ene_dbg(text, ...) \
- if (debug) \
- printk(KERN_DEBUG \
- ENE_DRIVER_NAME ": " text "\n" , ## __VA_ARGS__)
-#define ene_dbg_verbose(text, ...) \
- if (debug > 1) \
- printk(KERN_DEBUG \
- ENE_DRIVER_NAME ": " text "\n" , ## __VA_ARGS__)
+#define __dbg(level, format, ...) \
+ do { \
+ if (debug >= level) \
+ printk(KERN_DEBUG ENE_DRIVER_NAME \
+ ": " format "\n", ## __VA_ARGS__); \
+ } while (0)
+
+
+#define dbg(format, ...) __dbg(1, format, ## __VA_ARGS__)
+#define dbg_verbose(format, ...) __dbg(2, format, ## __VA_ARGS__)
+#define dbg_regs(format, ...) __dbg(3, format, ## __VA_ARGS__)
+
struct ene_device {
@@ -200,12 +236,15 @@ struct ene_device {
/* HW features */
int hw_revision; /* hardware revision */
- bool hw_learning_and_tx_capable; /* learning capable */
- bool hw_gpio40_learning; /* gpio40 is learning */
- bool hw_fan_as_normal_input; /* fan input is used as */
- /* regular input */
+ bool hw_use_gpio_0a; /* gpio40 is demodulated input*/
+ bool hw_extra_buffer; /* hardware has 'extra buffer'
*/
+
+ bool hw_fan_input; /* fan input is IR data source
*/
+ bool hw_learning_and_tx_capable; /* learning & tx capable */
+
/* HW state*/
- int rx_pointer; /* hw pointer to rx buffer */
+ int r_pointer; /* pointer to next sample to
read */
+ int w_pointer; /* pointer to next sample hw
will write */
bool rx_fan_input_inuse; /* is fan input in use for rx*/
int tx_reg; /* current reg used for TX */
u8 saved_conf1; /* saved FEC0 reg */
@@ -232,4 +271,14 @@ struct ene_device {
bool learning_enabled; /* learning input enabled */
bool carrier_detect_enabled; /* carrier detect enabled */
int rx_period_adjust;
+
+ /* Extra RX buffer location */
+ int buffer_len;
+ int extra_buf1_address;
+ int extra_buf1_len;
+ int extra_buf2_address;
+ int extra_buf2_len;
};
+
+static int ene_irq_status(struct ene_device *dev);
+static void ene_read_hw_pointer(struct ene_device *dev);
\ No newline at end of file
--
1.7.0.4
--
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