diff --git a/drivers/staging/media/Kconfig b/drivers/staging/media/Kconfig index 79aff267e284..227437f22acf 100644 --- a/drivers/staging/media/Kconfig +++ b/drivers/staging/media/Kconfig @@ -31,9 +31,6 @@ source "drivers/staging/media/imx/Kconfig" source "drivers/staging/media/omap4iss/Kconfig" -# Keep LIRC at the end, as it has sub-menus -source "drivers/staging/media/lirc/Kconfig" - source "drivers/staging/media/tegra-vde/Kconfig" endif diff --git a/drivers/staging/media/Makefile b/drivers/staging/media/Makefile index 608f7d35c256..59a47f69884f 100644 --- a/drivers/staging/media/Makefile +++ b/drivers/staging/media/Makefile @@ -2,7 +2,6 @@ obj-$(CONFIG_I2C_BCM2048) += bcm2048/ obj-$(CONFIG_DVB_CXD2099) += cxd2099/ obj-$(CONFIG_VIDEO_IMX_MEDIA) += imx/ -obj-$(CONFIG_LIRC_STAGING) += lirc/ obj-$(CONFIG_VIDEO_DM365_VPFE) += davinci_vpfe/ obj-$(CONFIG_VIDEO_OMAP4) += omap4iss/ obj-$(CONFIG_INTEL_ATOMISP) += atomisp/ diff --git a/drivers/staging/media/lirc/Kconfig b/drivers/staging/media/lirc/Kconfig deleted file mode 100644 index 3e350a9922de..000000000000 --- a/drivers/staging/media/lirc/Kconfig +++ /dev/null @@ -1,21 +0,0 @@ -# -# LIRC driver(s) configuration -# -menuconfig LIRC_STAGING - bool "Linux Infrared Remote Control IR receiver/transmitter drivers" - depends on LIRC - help - Say Y here, and all supported Linux Infrared Remote Control IR and - RF receiver and transmitter drivers will be displayed. When paired - with a remote control and the lirc daemon, the receiver drivers - allow control of your Linux system via remote control. - -if LIRC_STAGING - -config LIRC_ZILOG - tristate "Zilog/Hauppauge IR Transmitter" - depends on LIRC && I2C - help - Driver for the Zilog/Hauppauge IR Transmitter, found on - PVR-150/500, HVR-1200/1250/1700/1800, HD-PVR and other cards -endif diff --git a/drivers/staging/media/lirc/Makefile b/drivers/staging/media/lirc/Makefile deleted file mode 100644 index 665562436e30..000000000000 --- a/drivers/staging/media/lirc/Makefile +++ /dev/null @@ -1,6 +0,0 @@ -# Makefile for the lirc drivers. -# - -# Each configuration option enables a list of files. - -obj-$(CONFIG_LIRC_ZILOG) += lirc_zilog.o diff --git a/drivers/staging/media/lirc/TODO b/drivers/staging/media/lirc/TODO deleted file mode 100644 index a97800a8e127..000000000000 --- a/drivers/staging/media/lirc/TODO +++ /dev/null @@ -1,36 +0,0 @@ -1. Both ir-kbd-i2c and lirc_zilog provide support for RX events for -the chips supported by lirc_zilog. Before moving lirc_zilog out of staging: - -a. ir-kbd-i2c needs a module parameter added to allow the user to tell - ir-kbd-i2c to ignore Z8 IR units. - -b. lirc_zilog should provide Rx key presses to the rc core like ir-kbd-i2c - does. - - -2. lirc_zilog module ref-counting need examination. It has not been -verified that cdev and lirc_dev will take the proper module references on -lirc_zilog to prevent removal of lirc_zilog when the /dev/lircN device node -is open. - -(The good news is ref-counting of lirc_zilog internal structures appears to be -complete. Testing has shown the cx18 module can be unloaded out from under -irw + lircd + lirc_dev, with the /dev/lirc0 device node open, with no adverse -effects. The cx18 module could then be reloaded and irw properly began -receiving button presses again and ir_send worked without error.) - - -3. Bridge drivers, if able, should provide a chip reset() callback -to lirc_zilog via struct IR_i2c_init_data. cx18 and ivtv already have routines -to perform Z8 chip resets via GPIO manipulations. This would allow lirc_zilog -to bring the chip back to normal when it hangs, in the same places the -original lirc_pvr150 driver code does. This is not strictly needed, so it -is not required to move lirc_zilog out of staging. - -Note: Both lirc_zilog and ir-kbd-i2c support the Zilog Z8 for IR, as programmed -and installed on Hauppauge products. When working on either module, developers -must consider at least the following bridge drivers which mention an IR Rx unit -at address 0x71 (indicative of a Z8): - - ivtv cx18 hdpvr pvrusb2 bt8xx cx88 saa7134 - diff --git a/drivers/staging/media/lirc/lirc_zilog.c b/drivers/staging/media/lirc/lirc_zilog.c deleted file mode 100644 index 6bd0717bf76e..000000000000 --- a/drivers/staging/media/lirc/lirc_zilog.c +++ /dev/null @@ -1,1653 +0,0 @@ -/* - * i2c IR lirc driver for devices with zilog IR processors - * - * Copyright (c) 2000 Gerd Knorr - * modified for PixelView (BT878P+W/FM) by - * Michal Kochanowicz - * Christoph Bartelmus - * modified for KNC ONE TV Station/Anubis Typhoon TView Tuner by - * Ulrich Mueller - * modified for Asus TV-Box and Creative/VisionTek BreakOut-Box by - * Stefan Jahn - * modified for inclusion into kernel sources by - * Jerome Brock - * modified for Leadtek Winfast PVR2000 by - * Thomas Reitmayr (treitmayr@yahoo.com) - * modified for Hauppauge PVR-150 IR TX device by - * Mark Weaver - * changed name from lirc_pvr150 to lirc_zilog, works on more than pvr-150 - * Jarod Wilson - * - * parts are cut&pasted from the lirc_i2c.c driver - * - * Numerous changes updating lirc_zilog.c in kernel 2.6.38 and later are - * Copyright (C) 2011 Andy Walls - * - * This program is free software; you can redistribute it and/or modify - * it under the terms of the GNU General Public License as published by - * the Free Software Foundation; either version 2 of the License, or - * (at your option) any later version. - * - * This program is distributed in the hope that it will be useful, - * but WITHOUT ANY WARRANTY; without even the implied warranty of - * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the - * GNU General Public License for more details. - * - * You should have received a copy of the GNU General Public License - * along with this program; if not, write to the Free Software - * Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA - * - */ - -#include -#include -#include -#include -#include -#include -#include -#include -#include -#include -#include -#include -#include -#include -#include - -#include -#include - -#include -#include - -/* Max transfer size done by I2C transfer functions */ -#define MAX_XFER_SIZE 64 - -struct IR; - -struct IR_rx { - struct kref ref; - struct IR *ir; - - /* RX device */ - struct mutex client_lock; - struct i2c_client *c; - - /* RX polling thread data */ - struct task_struct *task; - - /* RX read data */ - unsigned char b[3]; - bool hdpvr_data_fmt; -}; - -struct IR_tx { - struct kref ref; - struct IR *ir; - - /* TX device */ - struct mutex client_lock; - struct i2c_client *c; - - /* TX additional actions needed */ - int need_boot; - bool post_tx_ready_poll; -}; - -struct IR { - struct kref ref; - struct list_head list; - - /* FIXME spinlock access to l->features */ - struct lirc_dev *l; - struct lirc_buffer rbuf; - - struct mutex ir_lock; - atomic_t open_count; - - struct device *dev; - struct i2c_adapter *adapter; - - spinlock_t rx_ref_lock; /* struct IR_rx kref get()/put() */ - struct IR_rx *rx; - - spinlock_t tx_ref_lock; /* struct IR_tx kref get()/put() */ - struct IR_tx *tx; -}; - -/* IR transceiver instance object list */ -/* - * This lock is used for the following: - * a. ir_devices_list access, insertions, deletions - * b. struct IR kref get()s and put()s - * c. serialization of ir_probe() for the two i2c_clients for a Z8 - */ -static DEFINE_MUTEX(ir_devices_lock); -static LIST_HEAD(ir_devices_list); - -/* Block size for IR transmitter */ -#define TX_BLOCK_SIZE 99 - -/* Hauppauge IR transmitter data */ -struct tx_data_struct { - /* Boot block */ - unsigned char *boot_data; - - /* Start of binary data block */ - unsigned char *datap; - - /* End of binary data block */ - unsigned char *endp; - - /* Number of installed codesets */ - unsigned int num_code_sets; - - /* Pointers to codesets */ - unsigned char **code_sets; - - /* Global fixed data template */ - int fixed[TX_BLOCK_SIZE]; -}; - -static struct tx_data_struct *tx_data; -static struct mutex tx_data_lock; - - -/* module parameters */ -static bool debug; /* debug output */ -static bool tx_only; /* only handle the IR Tx function */ - - -/* struct IR reference counting */ -static struct IR *get_ir_device(struct IR *ir, bool ir_devices_lock_held) -{ - if (ir_devices_lock_held) { - kref_get(&ir->ref); - } else { - mutex_lock(&ir_devices_lock); - kref_get(&ir->ref); - mutex_unlock(&ir_devices_lock); - } - return ir; -} - -static void release_ir_device(struct kref *ref) -{ - struct IR *ir = container_of(ref, struct IR, ref); - - /* - * Things should be in this state by now: - * ir->rx set to NULL and deallocated - happens before ir->rx->ir put() - * ir->rx->task kthread stopped - happens before ir->rx->ir put() - * ir->tx set to NULL and deallocated - happens before ir->tx->ir put() - * ir->open_count == 0 - happens on final close() - * ir_lock, tx_ref_lock, rx_ref_lock, all released - */ - if (ir->l) - lirc_unregister_device(ir->l); - - if (kfifo_initialized(&ir->rbuf.fifo)) - lirc_buffer_free(&ir->rbuf); - list_del(&ir->list); - kfree(ir); -} - -static int put_ir_device(struct IR *ir, bool ir_devices_lock_held) -{ - int released; - - if (ir_devices_lock_held) - return kref_put(&ir->ref, release_ir_device); - - mutex_lock(&ir_devices_lock); - released = kref_put(&ir->ref, release_ir_device); - mutex_unlock(&ir_devices_lock); - - return released; -} - -/* struct IR_rx reference counting */ -static struct IR_rx *get_ir_rx(struct IR *ir) -{ - struct IR_rx *rx; - - spin_lock(&ir->rx_ref_lock); - rx = ir->rx; - if (rx) - kref_get(&rx->ref); - spin_unlock(&ir->rx_ref_lock); - return rx; -} - -static void destroy_rx_kthread(struct IR_rx *rx, bool ir_devices_lock_held) -{ - /* end up polling thread */ - if (!IS_ERR_OR_NULL(rx->task)) { - kthread_stop(rx->task); - rx->task = NULL; - /* Put the ir ptr that ir_probe() gave to the rx poll thread */ - put_ir_device(rx->ir, ir_devices_lock_held); - } -} - -static void release_ir_rx(struct kref *ref) -{ - struct IR_rx *rx = container_of(ref, struct IR_rx, ref); - struct IR *ir = rx->ir; - - /* - * This release function can't do all the work, as we want - * to keep the rx_ref_lock a spinlock, and killing the poll thread - * and releasing the ir reference can cause a sleep. That work is - * performed by put_ir_rx() - */ - ir->l->features &= ~LIRC_CAN_REC_LIRCCODE; - /* Don't put_ir_device(rx->ir) here; lock can't be freed yet */ - ir->rx = NULL; - /* Don't do the kfree(rx) here; we still need to kill the poll thread */ -} - -static int put_ir_rx(struct IR_rx *rx, bool ir_devices_lock_held) -{ - int released; - struct IR *ir = rx->ir; - - spin_lock(&ir->rx_ref_lock); - released = kref_put(&rx->ref, release_ir_rx); - spin_unlock(&ir->rx_ref_lock); - /* Destroy the rx kthread while not holding the spinlock */ - if (released) { - destroy_rx_kthread(rx, ir_devices_lock_held); - kfree(rx); - /* Make sure we're not still in a poll_table somewhere */ - wake_up_interruptible(&ir->rbuf.wait_poll); - } - /* Do a reference put() for the rx->ir reference, if we released rx */ - if (released) - put_ir_device(ir, ir_devices_lock_held); - return released; -} - -/* struct IR_tx reference counting */ -static struct IR_tx *get_ir_tx(struct IR *ir) -{ - struct IR_tx *tx; - - spin_lock(&ir->tx_ref_lock); - tx = ir->tx; - if (tx) - kref_get(&tx->ref); - spin_unlock(&ir->tx_ref_lock); - return tx; -} - -static void release_ir_tx(struct kref *ref) -{ - struct IR_tx *tx = container_of(ref, struct IR_tx, ref); - struct IR *ir = tx->ir; - - ir->l->features &= ~LIRC_CAN_SEND_LIRCCODE; - /* Don't put_ir_device(tx->ir) here, so our lock doesn't get freed */ - ir->tx = NULL; - kfree(tx); -} - -static int put_ir_tx(struct IR_tx *tx, bool ir_devices_lock_held) -{ - int released; - struct IR *ir = tx->ir; - - spin_lock(&ir->tx_ref_lock); - released = kref_put(&tx->ref, release_ir_tx); - spin_unlock(&ir->tx_ref_lock); - /* Do a reference put() for the tx->ir reference, if we released tx */ - if (released) - put_ir_device(ir, ir_devices_lock_held); - return released; -} - -static int add_to_buf(struct IR *ir) -{ - __u16 code; - unsigned char codes[2]; - unsigned char keybuf[6]; - int got_data = 0; - int ret; - int failures = 0; - unsigned char sendbuf[1] = { 0 }; - struct lirc_buffer *rbuf = ir->l->buf; - struct IR_rx *rx; - struct IR_tx *tx; - - if (lirc_buffer_full(rbuf)) { - dev_dbg(ir->dev, "buffer overflow\n"); - return -EOVERFLOW; - } - - rx = get_ir_rx(ir); - if (!rx) - return -ENXIO; - - /* Ensure our rx->c i2c_client remains valid for the duration */ - mutex_lock(&rx->client_lock); - if (!rx->c) { - mutex_unlock(&rx->client_lock); - put_ir_rx(rx, false); - return -ENXIO; - } - - tx = get_ir_tx(ir); - - /* - * service the device as long as it is returning - * data and we have space - */ - do { - if (kthread_should_stop()) { - ret = -ENODATA; - break; - } - - /* - * Lock i2c bus for the duration. RX/TX chips interfere so - * this is worth it - */ - mutex_lock(&ir->ir_lock); - - if (kthread_should_stop()) { - mutex_unlock(&ir->ir_lock); - ret = -ENODATA; - break; - } - - /* - * Send random "poll command" (?) Windows driver does this - * and it is a good point to detect chip failure. - */ - ret = i2c_master_send(rx->c, sendbuf, 1); - if (ret != 1) { - dev_err(ir->dev, "i2c_master_send failed with %d\n", - ret); - if (failures >= 3) { - mutex_unlock(&ir->ir_lock); - dev_err(ir->dev, - "unable to read from the IR chip after 3 resets, giving up\n"); - break; - } - - /* Looks like the chip crashed, reset it */ - dev_err(ir->dev, - "polling the IR receiver chip failed, trying reset\n"); - - set_current_state(TASK_UNINTERRUPTIBLE); - if (kthread_should_stop()) { - mutex_unlock(&ir->ir_lock); - ret = -ENODATA; - break; - } - schedule_timeout((100 * HZ + 999) / 1000); - if (tx) - tx->need_boot = 1; - - ++failures; - mutex_unlock(&ir->ir_lock); - ret = 0; - continue; - } - - if (kthread_should_stop()) { - mutex_unlock(&ir->ir_lock); - ret = -ENODATA; - break; - } - ret = i2c_master_recv(rx->c, keybuf, sizeof(keybuf)); - mutex_unlock(&ir->ir_lock); - if (ret != sizeof(keybuf)) { - dev_err(ir->dev, - "i2c_master_recv failed with %d -- keeping last read buffer\n", - ret); - } else { - rx->b[0] = keybuf[3]; - rx->b[1] = keybuf[4]; - rx->b[2] = keybuf[5]; - dev_dbg(ir->dev, - "key (0x%02x/0x%02x)\n", - rx->b[0], rx->b[1]); - } - - /* key pressed ? */ - if (rx->hdpvr_data_fmt) { - if (got_data && (keybuf[0] == 0x80)) { - ret = 0; - break; - } else if (got_data && (keybuf[0] == 0x00)) { - ret = -ENODATA; - break; - } - } else if ((rx->b[0] & 0x80) == 0) { - ret = got_data ? 0 : -ENODATA; - break; - } - - /* look what we have */ - code = (((__u16)rx->b[0] & 0x7f) << 6) | (rx->b[1] >> 2); - - codes[0] = (code >> 8) & 0xff; - codes[1] = code & 0xff; - - /* return it */ - lirc_buffer_write(rbuf, codes); - ++got_data; - ret = 0; - } while (!lirc_buffer_full(rbuf)); - - mutex_unlock(&rx->client_lock); - if (tx) - put_ir_tx(tx, false); - put_ir_rx(rx, false); - return ret; -} - -/* - * Main function of the polling thread -- from lirc_dev. - * We don't fit the LIRC model at all anymore. This is horrible, but - * basically we have a single RX/TX device with a nasty failure mode - * that needs to be accounted for across the pair. lirc lets us provide - * fops, but prevents us from using the internal polling, etc. if we do - * so. Hence the replication. Might be neater to extend the LIRC model - * to account for this but I'd think it's a very special case of seriously - * messed up hardware. - */ -static int lirc_thread(void *arg) -{ - struct IR *ir = arg; - struct lirc_buffer *rbuf = ir->l->buf; - - dev_dbg(ir->dev, "poll thread started\n"); - - while (!kthread_should_stop()) { - set_current_state(TASK_INTERRUPTIBLE); - - /* if device not opened, we can sleep half a second */ - if (atomic_read(&ir->open_count) == 0) { - schedule_timeout(HZ / 2); - continue; - } - - /* - * This is ~113*2 + 24 + jitter (2*repeat gap + code length). - * We use this interval as the chip resets every time you poll - * it (bad!). This is therefore just sufficient to catch all - * of the button presses. It makes the remote much more - * responsive. You can see the difference by running irw and - * holding down a button. With 100ms, the old polling - * interval, you'll notice breaks in the repeat sequence - * corresponding to lost keypresses. - */ - schedule_timeout((260 * HZ) / 1000); - if (kthread_should_stop()) - break; - if (!add_to_buf(ir)) - wake_up_interruptible(&rbuf->wait_poll); - } - - dev_dbg(ir->dev, "poll thread ended\n"); - return 0; -} - -/* safe read of a uint32 (always network byte order) */ -static int read_uint32(unsigned char **data, - unsigned char *endp, unsigned int *val) -{ - if (*data + 4 > endp) - return 0; - *val = ((*data)[0] << 24) | ((*data)[1] << 16) | - ((*data)[2] << 8) | (*data)[3]; - *data += 4; - return 1; -} - -/* safe read of a uint8 */ -static int read_uint8(unsigned char **data, - unsigned char *endp, unsigned char *val) -{ - if (*data + 1 > endp) - return 0; - *val = *((*data)++); - return 1; -} - -/* safe skipping of N bytes */ -static int skip(unsigned char **data, - unsigned char *endp, unsigned int distance) -{ - if (*data + distance > endp) - return 0; - *data += distance; - return 1; -} - -/* decompress key data into the given buffer */ -static int get_key_data(unsigned char *buf, - unsigned int codeset, unsigned int key) -{ - unsigned char *data, *endp, *diffs, *key_block; - unsigned char keys, ndiffs, id; - unsigned int base, lim, pos, i; - - /* Binary search for the codeset */ - for (base = 0, lim = tx_data->num_code_sets; lim; lim >>= 1) { - pos = base + (lim >> 1); - data = tx_data->code_sets[pos]; - - if (!read_uint32(&data, tx_data->endp, &i)) - goto corrupt; - - if (i == codeset) { - break; - } else if (codeset > i) { - base = pos + 1; - --lim; - } - } - /* Not found? */ - if (!lim) - return -EPROTO; - - /* Set end of data block */ - endp = pos < tx_data->num_code_sets - 1 ? - tx_data->code_sets[pos + 1] : tx_data->endp; - - /* Read the block header */ - if (!read_uint8(&data, endp, &keys) || - !read_uint8(&data, endp, &ndiffs) || - ndiffs > TX_BLOCK_SIZE || keys == 0) - goto corrupt; - - /* Save diffs & skip */ - diffs = data; - if (!skip(&data, endp, ndiffs)) - goto corrupt; - - /* Read the id of the first key */ - if (!read_uint8(&data, endp, &id)) - goto corrupt; - - /* Unpack the first key's data */ - for (i = 0; i < TX_BLOCK_SIZE; ++i) { - if (tx_data->fixed[i] == -1) { - if (!read_uint8(&data, endp, &buf[i])) - goto corrupt; - } else { - buf[i] = (unsigned char)tx_data->fixed[i]; - } - } - - /* Early out key found/not found */ - if (key == id) - return 0; - if (keys == 1) - return -EPROTO; - - /* Sanity check */ - key_block = data; - if (!skip(&data, endp, (keys - 1) * (ndiffs + 1))) - goto corrupt; - - /* Binary search for the key */ - for (base = 0, lim = keys - 1; lim; lim >>= 1) { - /* Seek to block */ - unsigned char *key_data; - - pos = base + (lim >> 1); - key_data = key_block + (ndiffs + 1) * pos; - - if (*key_data == key) { - /* skip key id */ - ++key_data; - - /* found, so unpack the diffs */ - for (i = 0; i < ndiffs; ++i) { - unsigned char val; - - if (!read_uint8(&key_data, endp, &val) || - diffs[i] >= TX_BLOCK_SIZE) - goto corrupt; - buf[diffs[i]] = val; - } - - return 0; - } else if (key > *key_data) { - base = pos + 1; - --lim; - } - } - /* Key not found */ - return -EPROTO; - -corrupt: - pr_err("firmware is corrupt\n"); - return -EFAULT; -} - -/* send a block of data to the IR TX device */ -static int send_data_block(struct IR_tx *tx, unsigned char *data_block) -{ - int i, j, ret; - unsigned char buf[5]; - - for (i = 0; i < TX_BLOCK_SIZE;) { - int tosend = TX_BLOCK_SIZE - i; - - if (tosend > 4) - tosend = 4; - buf[0] = (unsigned char)(i + 1); - for (j = 0; j < tosend; ++j) - buf[1 + j] = data_block[i + j]; - dev_dbg(tx->ir->dev, "%*ph", 5, buf); - ret = i2c_master_send(tx->c, buf, tosend + 1); - if (ret != tosend + 1) { - dev_err(tx->ir->dev, - "i2c_master_send failed with %d\n", ret); - return ret < 0 ? ret : -EFAULT; - } - i += tosend; - } - return 0; -} - -/* send boot data to the IR TX device */ -static int send_boot_data(struct IR_tx *tx) -{ - int ret, i; - unsigned char buf[4]; - - /* send the boot block */ - ret = send_data_block(tx, tx_data->boot_data); - if (ret != 0) - return ret; - - /* Hit the go button to activate the new boot data */ - buf[0] = 0x00; - buf[1] = 0x20; - ret = i2c_master_send(tx->c, buf, 2); - if (ret != 2) { - dev_err(tx->ir->dev, "i2c_master_send failed with %d\n", ret); - return ret < 0 ? ret : -EFAULT; - } - - /* - * Wait for zilog to settle after hitting go post boot block upload. - * Without this delay, the HD-PVR and HVR-1950 both return an -EIO - * upon attempting to get firmware revision, and tx probe thus fails. - */ - for (i = 0; i < 10; i++) { - ret = i2c_master_send(tx->c, buf, 1); - if (ret == 1) - break; - udelay(100); - } - - if (ret != 1) { - dev_err(tx->ir->dev, "i2c_master_send failed with %d\n", ret); - return ret < 0 ? ret : -EFAULT; - } - - /* Here comes the firmware version... (hopefully) */ - ret = i2c_master_recv(tx->c, buf, 4); - if (ret != 4) { - dev_err(tx->ir->dev, "i2c_master_recv failed with %d\n", ret); - return 0; - } - if ((buf[0] != 0x80) && (buf[0] != 0xa0)) { - dev_err(tx->ir->dev, "unexpected IR TX init response: %02x\n", - buf[0]); - return 0; - } - dev_notice(tx->ir->dev, - "Zilog/Hauppauge IR blaster firmware version %d.%d.%d loaded\n", - buf[1], buf[2], buf[3]); - - return 0; -} - -/* unload "firmware", lock held */ -static void fw_unload_locked(void) -{ - if (tx_data) { - vfree(tx_data->code_sets); - - vfree(tx_data->datap); - - vfree(tx_data); - tx_data = NULL; - pr_debug("successfully unloaded IR blaster firmware\n"); - } -} - -/* unload "firmware" for the IR TX device */ -static void fw_unload(void) -{ - mutex_lock(&tx_data_lock); - fw_unload_locked(); - mutex_unlock(&tx_data_lock); -} - -/* load "firmware" for the IR TX device */ -static int fw_load(struct IR_tx *tx) -{ - int ret; - unsigned int i; - unsigned char *data, version, num_global_fixed; - const struct firmware *fw_entry; - - /* Already loaded? */ - mutex_lock(&tx_data_lock); - if (tx_data) { - ret = 0; - goto out; - } - - /* Request codeset data file */ - ret = request_firmware(&fw_entry, "haup-ir-blaster.bin", tx->ir->dev); - if (ret != 0) { - dev_err(tx->ir->dev, - "firmware haup-ir-blaster.bin not available (%d)\n", - ret); - ret = ret < 0 ? ret : -EFAULT; - goto out; - } - dev_dbg(tx->ir->dev, "firmware of size %zu loaded\n", fw_entry->size); - - /* Parse the file */ - tx_data = vmalloc(sizeof(*tx_data)); - if (!tx_data) { - release_firmware(fw_entry); - ret = -ENOMEM; - goto out; - } - tx_data->code_sets = NULL; - - /* Copy the data so hotplug doesn't get confused and timeout */ - tx_data->datap = vmalloc(fw_entry->size); - if (!tx_data->datap) { - release_firmware(fw_entry); - vfree(tx_data); - ret = -ENOMEM; - goto out; - } - memcpy(tx_data->datap, fw_entry->data, fw_entry->size); - tx_data->endp = tx_data->datap + fw_entry->size; - release_firmware(fw_entry); fw_entry = NULL; - - /* Check version */ - data = tx_data->datap; - if (!read_uint8(&data, tx_data->endp, &version)) - goto corrupt; - if (version != 1) { - dev_err(tx->ir->dev, - "unsupported code set file version (%u, expected 1) -- please upgrade to a newer driver\n", - version); - fw_unload_locked(); - ret = -EFAULT; - goto out; - } - - /* Save boot block for later */ - tx_data->boot_data = data; - if (!skip(&data, tx_data->endp, TX_BLOCK_SIZE)) - goto corrupt; - - if (!read_uint32(&data, tx_data->endp, - &tx_data->num_code_sets)) - goto corrupt; - - dev_dbg(tx->ir->dev, "%u IR blaster codesets loaded\n", - tx_data->num_code_sets); - - tx_data->code_sets = vmalloc( - tx_data->num_code_sets * sizeof(char *)); - if (!tx_data->code_sets) { - fw_unload_locked(); - ret = -ENOMEM; - goto out; - } - - for (i = 0; i < TX_BLOCK_SIZE; ++i) - tx_data->fixed[i] = -1; - - /* Read global fixed data template */ - if (!read_uint8(&data, tx_data->endp, &num_global_fixed) || - num_global_fixed > TX_BLOCK_SIZE) - goto corrupt; - for (i = 0; i < num_global_fixed; ++i) { - unsigned char pos, val; - - if (!read_uint8(&data, tx_data->endp, &pos) || - !read_uint8(&data, tx_data->endp, &val) || - pos >= TX_BLOCK_SIZE) - goto corrupt; - tx_data->fixed[pos] = (int)val; - } - - /* Filch out the position of each code set */ - for (i = 0; i < tx_data->num_code_sets; ++i) { - unsigned int id; - unsigned char keys; - unsigned char ndiffs; - - /* Save the codeset position */ - tx_data->code_sets[i] = data; - - /* Read header */ - if (!read_uint32(&data, tx_data->endp, &id) || - !read_uint8(&data, tx_data->endp, &keys) || - !read_uint8(&data, tx_data->endp, &ndiffs) || - ndiffs > TX_BLOCK_SIZE || keys == 0) - goto corrupt; - - /* skip diff positions */ - if (!skip(&data, tx_data->endp, ndiffs)) - goto corrupt; - - /* - * After the diffs we have the first key id + data - - * global fixed - */ - if (!skip(&data, tx_data->endp, - 1 + TX_BLOCK_SIZE - num_global_fixed)) - goto corrupt; - - /* Then we have keys-1 blocks of key id+diffs */ - if (!skip(&data, tx_data->endp, - (ndiffs + 1) * (keys - 1))) - goto corrupt; - } - ret = 0; - goto out; - -corrupt: - dev_err(tx->ir->dev, "firmware is corrupt\n"); - fw_unload_locked(); - ret = -EFAULT; - -out: - mutex_unlock(&tx_data_lock); - return ret; -} - -/* copied from lirc_dev */ -static ssize_t read(struct file *filep, char __user *outbuf, size_t n, - loff_t *ppos) -{ - struct IR *ir = lirc_get_pdata(filep); - struct IR_rx *rx; - struct lirc_buffer *rbuf = ir->l->buf; - int ret = 0, written = 0, retries = 0; - unsigned int m; - DECLARE_WAITQUEUE(wait, current); - - dev_dbg(ir->dev, "read called\n"); - if (n % rbuf->chunk_size) { - dev_dbg(ir->dev, "read result = -EINVAL\n"); - return -EINVAL; - } - - rx = get_ir_rx(ir); - if (!rx) - return -ENXIO; - - /* - * we add ourselves to the task queue before buffer check - * to avoid losing scan code (in case when queue is awaken somewhere - * between while condition checking and scheduling) - */ - add_wait_queue(&rbuf->wait_poll, &wait); - set_current_state(TASK_INTERRUPTIBLE); - - /* - * while we didn't provide 'length' bytes, device is opened in blocking - * mode and 'copy_to_user' is happy, wait for data. - */ - while (written < n && ret == 0) { - if (lirc_buffer_empty(rbuf)) { - /* - * According to the read(2) man page, 'written' can be - * returned as less than 'n', instead of blocking - * again, returning -EWOULDBLOCK, or returning - * -ERESTARTSYS - */ - if (written) - break; - if (filep->f_flags & O_NONBLOCK) { - ret = -EWOULDBLOCK; - break; - } - if (signal_pending(current)) { - ret = -ERESTARTSYS; - break; - } - schedule(); - set_current_state(TASK_INTERRUPTIBLE); - } else { - unsigned char buf[MAX_XFER_SIZE]; - - if (rbuf->chunk_size > sizeof(buf)) { - dev_err(ir->dev, - "chunk_size is too big (%d)!\n", - rbuf->chunk_size); - ret = -EINVAL; - break; - } - m = lirc_buffer_read(rbuf, buf); - if (m == rbuf->chunk_size) { - ret = copy_to_user(outbuf + written, buf, - rbuf->chunk_size); - written += rbuf->chunk_size; - } else { - retries++; - } - if (retries >= 5) { - dev_err(ir->dev, "Buffer read failed!\n"); - ret = -EIO; - } - } - } - - remove_wait_queue(&rbuf->wait_poll, &wait); - put_ir_rx(rx, false); - set_current_state(TASK_RUNNING); - - dev_dbg(ir->dev, "read result = %d (%s)\n", ret, - ret ? "Error" : "OK"); - - return ret ? ret : written; -} - -/* send a keypress to the IR TX device */ -static int send_code(struct IR_tx *tx, unsigned int code, unsigned int key) -{ - unsigned char data_block[TX_BLOCK_SIZE]; - unsigned char buf[2]; - int i, ret; - - /* Get data for the codeset/key */ - ret = get_key_data(data_block, code, key); - - if (ret == -EPROTO) { - dev_err(tx->ir->dev, - "failed to get data for code %u, key %u -- check lircd.conf entries\n", - code, key); - return ret; - } else if (ret != 0) { - return ret; - } - - /* Send the data block */ - ret = send_data_block(tx, data_block); - if (ret != 0) - return ret; - - /* Send data block length? */ - buf[0] = 0x00; - buf[1] = 0x40; - ret = i2c_master_send(tx->c, buf, 2); - if (ret != 2) { - dev_err(tx->ir->dev, "i2c_master_send failed with %d\n", ret); - return ret < 0 ? ret : -EFAULT; - } - - /* Give the z8 a moment to process data block */ - for (i = 0; i < 10; i++) { - ret = i2c_master_send(tx->c, buf, 1); - if (ret == 1) - break; - udelay(100); - } - - if (ret != 1) { - dev_err(tx->ir->dev, "i2c_master_send failed with %d\n", ret); - return ret < 0 ? ret : -EFAULT; - } - - /* Send finished download? */ - ret = i2c_master_recv(tx->c, buf, 1); - if (ret != 1) { - dev_err(tx->ir->dev, "i2c_master_recv failed with %d\n", ret); - return ret < 0 ? ret : -EFAULT; - } - if (buf[0] != 0xA0) { - dev_err(tx->ir->dev, "unexpected IR TX response #1: %02x\n", - buf[0]); - return -EFAULT; - } - - /* Send prepare command? */ - buf[0] = 0x00; - buf[1] = 0x80; - ret = i2c_master_send(tx->c, buf, 2); - if (ret != 2) { - dev_err(tx->ir->dev, "i2c_master_send failed with %d\n", ret); - return ret < 0 ? ret : -EFAULT; - } - - /* - * The sleep bits aren't necessary on the HD PVR, and in fact, the - * last i2c_master_recv always fails with a -5, so for now, we're - * going to skip this whole mess and say we're done on the HD PVR - */ - if (!tx->post_tx_ready_poll) { - dev_dbg(tx->ir->dev, "sent code %u, key %u\n", code, key); - return 0; - } - - /* - * This bit NAKs until the device is ready, so we retry it - * sleeping a bit each time. This seems to be what the windows - * driver does, approximately. - * Try for up to 1s. - */ - for (i = 0; i < 20; ++i) { - set_current_state(TASK_UNINTERRUPTIBLE); - schedule_timeout((50 * HZ + 999) / 1000); - ret = i2c_master_send(tx->c, buf, 1); - if (ret == 1) - break; - dev_dbg(tx->ir->dev, - "NAK expected: i2c_master_send failed with %d (try %d)\n", - ret, i + 1); - } - if (ret != 1) { - dev_err(tx->ir->dev, - "IR TX chip never got ready: last i2c_master_send failed with %d\n", - ret); - return ret < 0 ? ret : -EFAULT; - } - - /* Seems to be an 'ok' response */ - i = i2c_master_recv(tx->c, buf, 1); - if (i != 1) { - dev_err(tx->ir->dev, "i2c_master_recv failed with %d\n", ret); - return -EFAULT; - } - if (buf[0] != 0x80) { - dev_err(tx->ir->dev, "unexpected IR TX response #2: %02x\n", - buf[0]); - return -EFAULT; - } - - /* Oh good, it worked */ - dev_dbg(tx->ir->dev, "sent code %u, key %u\n", code, key); - return 0; -} - -/* - * Write a code to the device. We take in a 32-bit number (an int) and then - * decode this to a codeset/key index. The key data is then decompressed and - * sent to the device. We have a spin lock as per i2c documentation to prevent - * multiple concurrent sends which would probably cause the device to explode. - */ -static ssize_t write(struct file *filep, const char __user *buf, size_t n, - loff_t *ppos) -{ - struct IR *ir = lirc_get_pdata(filep); - struct IR_tx *tx; - size_t i; - int failures = 0; - - /* Validate user parameters */ - if (n % sizeof(int)) - return -EINVAL; - - /* Get a struct IR_tx reference */ - tx = get_ir_tx(ir); - if (!tx) - return -ENXIO; - - /* Ensure our tx->c i2c_client remains valid for the duration */ - mutex_lock(&tx->client_lock); - if (!tx->c) { - mutex_unlock(&tx->client_lock); - put_ir_tx(tx, false); - return -ENXIO; - } - - /* Lock i2c bus for the duration */ - mutex_lock(&ir->ir_lock); - - /* Send each keypress */ - for (i = 0; i < n;) { - int ret = 0; - int command; - - if (copy_from_user(&command, buf + i, sizeof(command))) { - mutex_unlock(&ir->ir_lock); - mutex_unlock(&tx->client_lock); - put_ir_tx(tx, false); - return -EFAULT; - } - - /* Send boot data first if required */ - if (tx->need_boot == 1) { - /* Make sure we have the 'firmware' loaded, first */ - ret = fw_load(tx); - if (ret != 0) { - mutex_unlock(&ir->ir_lock); - mutex_unlock(&tx->client_lock); - put_ir_tx(tx, false); - if (ret != -ENOMEM) - ret = -EIO; - return ret; - } - /* Prep the chip for transmitting codes */ - ret = send_boot_data(tx); - if (ret == 0) - tx->need_boot = 0; - } - - /* Send the code */ - if (ret == 0) { - ret = send_code(tx, (unsigned int)command >> 16, - (unsigned int)command & 0xFFFF); - if (ret == -EPROTO) { - mutex_unlock(&ir->ir_lock); - mutex_unlock(&tx->client_lock); - put_ir_tx(tx, false); - return ret; - } - } - - /* - * Hmm, a failure. If we've had a few then give up, otherwise - * try a reset - */ - if (ret != 0) { - /* Looks like the chip crashed, reset it */ - dev_err(tx->ir->dev, - "sending to the IR transmitter chip failed, trying reset\n"); - - if (failures >= 3) { - dev_err(tx->ir->dev, - "unable to send to the IR chip after 3 resets, giving up\n"); - mutex_unlock(&ir->ir_lock); - mutex_unlock(&tx->client_lock); - put_ir_tx(tx, false); - return ret; - } - set_current_state(TASK_UNINTERRUPTIBLE); - schedule_timeout((100 * HZ + 999) / 1000); - tx->need_boot = 1; - ++failures; - } else { - i += sizeof(int); - } - } - - /* Release i2c bus */ - mutex_unlock(&ir->ir_lock); - - mutex_unlock(&tx->client_lock); - - /* Give back our struct IR_tx reference */ - put_ir_tx(tx, false); - - /* All looks good */ - return n; -} - -/* copied from lirc_dev */ -static unsigned int poll(struct file *filep, poll_table *wait) -{ - struct IR *ir = lirc_get_pdata(filep); - struct IR_rx *rx; - struct lirc_buffer *rbuf = ir->l->buf; - unsigned int ret; - - dev_dbg(ir->dev, "%s called\n", __func__); - - rx = get_ir_rx(ir); - if (!rx) { - /* - * Revisit this, if our poll function ever reports writeable - * status for Tx - */ - dev_dbg(ir->dev, "%s result = POLLERR\n", __func__); - return POLLERR; - } - - /* - * Add our lirc_buffer's wait_queue to the poll_table. A wake up on - * that buffer's wait queue indicates we may have a new poll status. - */ - poll_wait(filep, &rbuf->wait_poll, wait); - - /* Indicate what ops could happen immediately without blocking */ - ret = lirc_buffer_empty(rbuf) ? 0 : (POLLIN | POLLRDNORM); - - dev_dbg(ir->dev, "%s result = %s\n", __func__, - ret ? "POLLIN|POLLRDNORM" : "none"); - return ret; -} - -static long ioctl(struct file *filep, unsigned int cmd, unsigned long arg) -{ - struct IR *ir = lirc_get_pdata(filep); - unsigned long __user *uptr = (unsigned long __user *)arg; - int result; - unsigned long mode, features; - - features = ir->l->features; - - switch (cmd) { - case LIRC_GET_LENGTH: - result = put_user(13UL, uptr); - break; - case LIRC_GET_FEATURES: - result = put_user(features, uptr); - break; - case LIRC_GET_REC_MODE: - if (!(features & LIRC_CAN_REC_MASK)) - return -ENOTTY; - - result = put_user(LIRC_REC2MODE - (features & LIRC_CAN_REC_MASK), - uptr); - break; - case LIRC_SET_REC_MODE: - if (!(features & LIRC_CAN_REC_MASK)) - return -ENOTTY; - - result = get_user(mode, uptr); - if (!result && !(LIRC_MODE2REC(mode) & features)) - result = -ENOTTY; - break; - case LIRC_GET_SEND_MODE: - if (!(features & LIRC_CAN_SEND_MASK)) - return -ENOTTY; - - result = put_user(LIRC_MODE_LIRCCODE, uptr); - break; - case LIRC_SET_SEND_MODE: - if (!(features & LIRC_CAN_SEND_MASK)) - return -ENOTTY; - - result = get_user(mode, uptr); - if (!result && mode != LIRC_MODE_LIRCCODE) - return -EINVAL; - break; - default: - return -EINVAL; - } - return result; -} - -/* - * Open the IR device. - */ -static int open(struct inode *node, struct file *filep) -{ - struct IR *ir; - - lirc_init_pdata(node, filep); - ir = lirc_get_pdata(filep); - - atomic_inc(&ir->open_count); - - nonseekable_open(node, filep); - return 0; -} - -/* Close the IR device */ -static int close(struct inode *node, struct file *filep) -{ - struct IR *ir = lirc_get_pdata(filep); - - atomic_dec(&ir->open_count); - - put_ir_device(ir, false); - return 0; -} - -static int ir_remove(struct i2c_client *client); -static int ir_probe(struct i2c_client *client, const struct i2c_device_id *id); - -#define ID_FLAG_TX 0x01 -#define ID_FLAG_HDPVR 0x02 - -static const struct i2c_device_id ir_transceiver_id[] = { - { "ir_tx_z8f0811_haup", ID_FLAG_TX }, - { "ir_rx_z8f0811_haup", 0 }, - { "ir_tx_z8f0811_hdpvr", ID_FLAG_HDPVR | ID_FLAG_TX }, - { "ir_rx_z8f0811_hdpvr", ID_FLAG_HDPVR }, - { } -}; -MODULE_DEVICE_TABLE(i2c, ir_transceiver_id); - -static struct i2c_driver driver = { - .driver = { - .name = "Zilog/Hauppauge i2c IR", - }, - .probe = ir_probe, - .remove = ir_remove, - .id_table = ir_transceiver_id, -}; - -static const struct file_operations lirc_fops = { - .owner = THIS_MODULE, - .llseek = no_llseek, - .read = read, - .write = write, - .poll = poll, - .unlocked_ioctl = ioctl, -#ifdef CONFIG_COMPAT - .compat_ioctl = ioctl, -#endif - .open = open, - .release = close -}; - -static int ir_remove(struct i2c_client *client) -{ - if (strncmp("ir_tx_z8", client->name, 8) == 0) { - struct IR_tx *tx = i2c_get_clientdata(client); - - if (tx) { - mutex_lock(&tx->client_lock); - tx->c = NULL; - mutex_unlock(&tx->client_lock); - put_ir_tx(tx, false); - } - } else if (strncmp("ir_rx_z8", client->name, 8) == 0) { - struct IR_rx *rx = i2c_get_clientdata(client); - - if (rx) { - mutex_lock(&rx->client_lock); - rx->c = NULL; - mutex_unlock(&rx->client_lock); - put_ir_rx(rx, false); - } - } - return 0; -} - -/* ir_devices_lock must be held */ -static struct IR *get_ir_device_by_adapter(struct i2c_adapter *adapter) -{ - struct IR *ir; - - if (list_empty(&ir_devices_list)) - return NULL; - - list_for_each_entry(ir, &ir_devices_list, list) - if (ir->adapter == adapter) { - get_ir_device(ir, true); - return ir; - } - - return NULL; -} - -static int ir_probe(struct i2c_client *client, const struct i2c_device_id *id) -{ - struct IR *ir; - struct IR_tx *tx; - struct IR_rx *rx; - struct i2c_adapter *adap = client->adapter; - int ret; - bool tx_probe = false; - - dev_dbg(&client->dev, "%s: %s on i2c-%d (%s), client addr=0x%02x\n", - __func__, id->name, adap->nr, adap->name, client->addr); - - /* - * The IR receiver is at i2c address 0x71. - * The IR transmitter is at i2c address 0x70. - */ - - if (id->driver_data & ID_FLAG_TX) - tx_probe = true; - else if (tx_only) /* module option */ - return -ENXIO; - - pr_info("probing IR %s on %s (i2c-%d)\n", - tx_probe ? "Tx" : "Rx", adap->name, adap->nr); - - mutex_lock(&ir_devices_lock); - - /* Use a single struct IR instance for both the Rx and Tx functions */ - ir = get_ir_device_by_adapter(adap); - if (!ir) { - ir = kzalloc(sizeof(*ir), GFP_KERNEL); - if (!ir) { - ret = -ENOMEM; - goto out_no_ir; - } - kref_init(&ir->ref); - - /* store for use in ir_probe() again, and open() later on */ - INIT_LIST_HEAD(&ir->list); - list_add_tail(&ir->list, &ir_devices_list); - - ir->adapter = adap; - ir->dev = &adap->dev; - mutex_init(&ir->ir_lock); - atomic_set(&ir->open_count, 0); - spin_lock_init(&ir->tx_ref_lock); - spin_lock_init(&ir->rx_ref_lock); - - /* set lirc_dev stuff */ - ir->l = lirc_allocate_device(); - if (!ir->l) { - ret = -ENOMEM; - goto out_put_ir; - } - - snprintf(ir->l->name, sizeof(ir->l->name), "lirc_zilog"); - ir->l->code_length = 13; - ir->l->fops = &lirc_fops; - ir->l->owner = THIS_MODULE; - ir->l->dev.parent = &adap->dev; - - /* - * FIXME this is a pointer reference to us, but no refcount. - * - * This OK for now, since lirc_dev currently won't touch this - * buffer as we provide our own lirc_fops. - * - * Currently our own lirc_fops rely on this ir->l->buf pointer - */ - ir->l->buf = &ir->rbuf; - /* This will be returned by lirc_get_pdata() */ - ir->l->data = ir; - ret = lirc_buffer_init(ir->l->buf, 2, BUFLEN / 2); - if (ret) { - lirc_free_device(ir->l); - ir->l = NULL; - goto out_put_ir; - } - } - - if (tx_probe) { - /* Get the IR_rx instance for later, if already allocated */ - rx = get_ir_rx(ir); - - /* Set up a struct IR_tx instance */ - tx = kzalloc(sizeof(*tx), GFP_KERNEL); - if (!tx) { - ret = -ENOMEM; - goto out_put_xx; - } - kref_init(&tx->ref); - ir->tx = tx; - - ir->l->features |= LIRC_CAN_SEND_LIRCCODE; - mutex_init(&tx->client_lock); - tx->c = client; - tx->need_boot = 1; - tx->post_tx_ready_poll = - (id->driver_data & ID_FLAG_HDPVR) ? false : true; - - /* An ir ref goes to the struct IR_tx instance */ - tx->ir = get_ir_device(ir, true); - - /* A tx ref goes to the i2c_client */ - i2c_set_clientdata(client, get_ir_tx(ir)); - - /* - * Load the 'firmware'. We do this before registering with - * lirc_dev, so the first firmware load attempt does not happen - * after a open() or write() call on the device. - * - * Failure here is not deemed catastrophic, so the receiver will - * still be usable. Firmware load will be retried in write(), - * if it is needed. - */ - fw_load(tx); - - /* Proceed only if the Rx client is also ready or not needed */ - if (!rx && !tx_only) { - dev_info(tx->ir->dev, - "probe of IR Tx on %s (i2c-%d) done. Waiting on IR Rx.\n", - adap->name, adap->nr); - goto out_ok; - } - } else { - /* Get the IR_tx instance for later, if already allocated */ - tx = get_ir_tx(ir); - - /* Set up a struct IR_rx instance */ - rx = kzalloc(sizeof(*rx), GFP_KERNEL); - if (!rx) { - ret = -ENOMEM; - goto out_put_xx; - } - kref_init(&rx->ref); - ir->rx = rx; - - ir->l->features |= LIRC_CAN_REC_LIRCCODE; - mutex_init(&rx->client_lock); - rx->c = client; - rx->hdpvr_data_fmt = - (id->driver_data & ID_FLAG_HDPVR) ? true : false; - - /* An ir ref goes to the struct IR_rx instance */ - rx->ir = get_ir_device(ir, true); - - /* An rx ref goes to the i2c_client */ - i2c_set_clientdata(client, get_ir_rx(ir)); - - /* - * Start the polling thread. - * It will only perform an empty loop around schedule_timeout() - * until we register with lirc_dev and the first user open() - */ - /* An ir ref goes to the new rx polling kthread */ - rx->task = kthread_run(lirc_thread, get_ir_device(ir, true), - "zilog-rx-i2c-%d", adap->nr); - if (IS_ERR(rx->task)) { - ret = PTR_ERR(rx->task); - dev_err(tx->ir->dev, - "%s: could not start IR Rx polling thread\n", - __func__); - /* Failed kthread, so put back the ir ref */ - put_ir_device(ir, true); - /* Failure exit, so put back rx ref from i2c_client */ - i2c_set_clientdata(client, NULL); - put_ir_rx(rx, true); - ir->l->features &= ~LIRC_CAN_REC_LIRCCODE; - goto out_put_tx; - } - - /* Proceed only if the Tx client is also ready */ - if (!tx) { - pr_info("probe of IR Rx on %s (i2c-%d) done. Waiting on IR Tx.\n", - adap->name, adap->nr); - goto out_ok; - } - } - - /* register with lirc */ - ret = lirc_register_device(ir->l); - if (ret < 0) { - dev_err(tx->ir->dev, - "%s: lirc_register_device() failed: %i\n", - __func__, ret); - lirc_free_device(ir->l); - ir->l = NULL; - goto out_put_xx; - } - - dev_info(ir->dev, - "IR unit on %s (i2c-%d) registered as lirc%d and ready\n", - adap->name, adap->nr, ir->l->minor); - -out_ok: - if (rx) - put_ir_rx(rx, true); - if (tx) - put_ir_tx(tx, true); - put_ir_device(ir, true); - dev_info(ir->dev, - "probe of IR %s on %s (i2c-%d) done\n", - tx_probe ? "Tx" : "Rx", adap->name, adap->nr); - mutex_unlock(&ir_devices_lock); - return 0; - -out_put_xx: - if (rx) - put_ir_rx(rx, true); -out_put_tx: - if (tx) - put_ir_tx(tx, true); -out_put_ir: - put_ir_device(ir, true); -out_no_ir: - dev_err(&client->dev, - "%s: probing IR %s on %s (i2c-%d) failed with %d\n", - __func__, tx_probe ? "Tx" : "Rx", adap->name, adap->nr, ret); - mutex_unlock(&ir_devices_lock); - return ret; -} - -static int __init zilog_init(void) -{ - int ret; - - pr_notice("Zilog/Hauppauge IR driver initializing\n"); - - mutex_init(&tx_data_lock); - - request_module("firmware_class"); - - ret = i2c_add_driver(&driver); - if (ret) - pr_err("initialization failed\n"); - else - pr_notice("initialization complete\n"); - - return ret; -} - -static void __exit zilog_exit(void) -{ - i2c_del_driver(&driver); - /* if loaded */ - fw_unload(); - pr_notice("Zilog/Hauppauge IR driver unloaded\n"); -} - -module_init(zilog_init); -module_exit(zilog_exit); - -MODULE_DESCRIPTION("Zilog/Hauppauge infrared transmitter driver (i2c stack)"); -MODULE_AUTHOR("Gerd Knorr, Michal Kochanowicz, Christoph Bartelmus, Ulrich Mueller, Stefan Jahn, Jerome Brock, Mark Weaver, Andy Walls"); -MODULE_LICENSE("GPL"); -/* for compat with old name, which isn't all that accurate anymore */ -MODULE_ALIAS("lirc_pvr150"); - -module_param(debug, bool, 0644); -MODULE_PARM_DESC(debug, "Enable debugging messages"); - -module_param(tx_only, bool, 0644); -MODULE_PARM_DESC(tx_only, "Only handle the IR transmit function");