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https://github.com/edk2-porting/linux-next.git
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[PATCH] zd1211rw: Add LED support
This patch includes a big cleanup of the existing unused LED code, and adds support for controlling the LED. The link LED will blink if the device is not associated. The LED switches between 2 seconds on and 1 second off. If the device is associated the LED is switched on. The link LED also indicates packet TX. I do a little bit more led resetting than the vendor driver, but the device works now as expected for single LED and double LED devices. Signed-off-by: Ulrich Kunitz <kune@deine-taler.de> Signed-off-by: Daniel Drake <dsd@gentoo.org> Signed-off-by: John W. Linville <linville@tuxdriver.com>
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@ -325,13 +325,22 @@ static int read_pod(struct zd_chip *chip, u8 *rf_type)
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chip->patch_cr157 = (value >> 13) & 0x1;
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chip->patch_6m_band_edge = (value >> 21) & 0x1;
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chip->new_phy_layout = (value >> 31) & 0x1;
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chip->link_led = ((value >> 4) & 1) ? LED1 : LED2;
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chip->supports_tx_led = 1;
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if (value & (1 << 24)) { /* LED scenario */
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if (value & (1 << 29))
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chip->supports_tx_led = 0;
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}
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dev_dbg_f(zd_chip_dev(chip),
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"RF %s %#01x PA type %#01x patch CCK %d patch CR157 %d "
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"patch 6M %d new PHY %d\n",
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"patch 6M %d new PHY %d link LED%d tx led %d\n",
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zd_rf_name(*rf_type), *rf_type,
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chip->pa_type, chip->patch_cck_gain,
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chip->patch_cr157, chip->patch_6m_band_edge, chip->new_phy_layout);
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chip->patch_cr157, chip->patch_6m_band_edge,
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chip->new_phy_layout,
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chip->link_led == LED1 ? 1 : 2,
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chip->supports_tx_led);
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return 0;
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error:
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*rf_type = 0;
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@ -1289,92 +1298,63 @@ u8 zd_chip_get_channel(struct zd_chip *chip)
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return channel;
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}
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static u16 led_mask(int led)
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int zd_chip_control_leds(struct zd_chip *chip, enum led_status status)
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{
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switch (led) {
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case 1:
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return LED1;
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case 2:
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return LED2;
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default:
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return 0;
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}
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}
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static const zd_addr_t a[] = {
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FW_LINK_STATUS,
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CR_LED,
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};
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static int read_led_reg(struct zd_chip *chip, u16 *status)
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{
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ZD_ASSERT(mutex_is_locked(&chip->mutex));
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return zd_ioread16_locked(chip, status, CR_LED);
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}
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int r;
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u16 v[ARRAY_SIZE(a)];
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struct zd_ioreq16 ioreqs[ARRAY_SIZE(a)] = {
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[0] = { FW_LINK_STATUS },
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[1] = { CR_LED },
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};
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u16 other_led;
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static int write_led_reg(struct zd_chip *chip, u16 status)
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{
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ZD_ASSERT(mutex_is_locked(&chip->mutex));
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return zd_iowrite16_locked(chip, status, CR_LED);
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}
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int zd_chip_led_status(struct zd_chip *chip, int led, enum led_status status)
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{
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int r, ret;
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u16 mask = led_mask(led);
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u16 reg;
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if (!mask)
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return -EINVAL;
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mutex_lock(&chip->mutex);
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r = read_led_reg(chip, ®);
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r = zd_ioread16v_locked(chip, v, (const zd_addr_t *)a, ARRAY_SIZE(a));
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if (r)
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return r;
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goto out;
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other_led = chip->link_led == LED1 ? LED2 : LED1;
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switch (status) {
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case LED_STATUS:
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return (reg & mask) ? LED_ON : LED_OFF;
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case LED_OFF:
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reg &= ~mask;
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ret = LED_OFF;
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ioreqs[0].value = FW_LINK_OFF;
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ioreqs[1].value = v[1] & ~(LED1|LED2);
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break;
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case LED_FLIP:
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reg ^= mask;
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ret = (reg&mask) ? LED_ON : LED_OFF;
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case LED_SCANNING:
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ioreqs[0].value = FW_LINK_OFF;
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ioreqs[1].value = v[1] & ~other_led;
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if (get_seconds() % 3 == 0) {
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ioreqs[1].value &= ~chip->link_led;
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} else {
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ioreqs[1].value |= chip->link_led;
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}
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break;
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case LED_ON:
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reg |= mask;
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ret = LED_ON;
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case LED_ASSOCIATED:
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ioreqs[0].value = FW_LINK_TX;
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ioreqs[1].value = v[1] & ~other_led;
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ioreqs[1].value |= chip->link_led;
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break;
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default:
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return -EINVAL;
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}
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r = write_led_reg(chip, reg);
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if (r) {
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ret = r;
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r = -EINVAL;
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goto out;
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}
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if (v[0] != ioreqs[0].value || v[1] != ioreqs[1].value) {
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r = zd_iowrite16a_locked(chip, ioreqs, ARRAY_SIZE(ioreqs));
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if (r)
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goto out;
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}
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r = 0;
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out:
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mutex_unlock(&chip->mutex);
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return r;
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}
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int zd_chip_led_flip(struct zd_chip *chip, int led,
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const unsigned int *phases_msecs, unsigned int count)
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{
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int i, r;
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enum led_status status;
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r = zd_chip_led_status(chip, led, LED_STATUS);
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if (r)
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return r;
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status = r;
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for (i = 0; i < count; i++) {
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r = zd_chip_led_status(chip, led, LED_FLIP);
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if (r < 0)
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goto out;
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msleep(phases_msecs[i]);
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}
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out:
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zd_chip_led_status(chip, led, status);
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return r;
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}
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int zd_chip_set_basic_rates(struct zd_chip *chip, u16 cr_rates)
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{
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int r;
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@ -1673,4 +1653,3 @@ int zd_rfwritev_cr_locked(struct zd_chip *chip,
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return 0;
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}
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@ -428,6 +428,7 @@
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/* masks for controlling LEDs */
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#define LED1 0x0100
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#define LED2 0x0200
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#define LED_SW 0x0400
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/* Seems to indicate that the configuration is over.
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*/
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@ -629,6 +630,10 @@
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#define FW_SOFT_RESET FW_REG(4)
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#define FW_FLASH_CHK FW_REG(5)
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#define FW_LINK_OFF 0x0
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#define FW_LINK_TX 0x1
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/* 0x2 - link led on? */
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enum {
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CR_BASE_OFFSET = 0x9000,
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FW_START_OFFSET = 0xee00,
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@ -663,8 +668,11 @@ struct zd_chip {
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u8 pwr_int_values[E2P_CHANNEL_COUNT];
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/* SetPointOFDM in the vendor driver */
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u8 ofdm_cal_values[3][E2P_CHANNEL_COUNT];
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u8 pa_type:4, patch_cck_gain:1, patch_cr157:1, patch_6m_band_edge:1,
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new_phy_layout:1, is_zd1211b:1;
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u16 link_led;
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unsigned int pa_type:4,
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patch_cck_gain:1, patch_cr157:1, patch_6m_band_edge:1,
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new_phy_layout:1,
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is_zd1211b:1, supports_tx_led:1;
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};
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static inline struct zd_chip *zd_usb_to_chip(struct zd_usb *usb)
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@ -812,15 +820,12 @@ int zd_chip_lock_phy_regs(struct zd_chip *chip);
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int zd_chip_unlock_phy_regs(struct zd_chip *chip);
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enum led_status {
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LED_OFF = 0,
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LED_ON = 1,
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LED_FLIP = 2,
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LED_STATUS = 3,
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LED_OFF = 0,
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LED_SCANNING = 1,
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LED_ASSOCIATED = 2,
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};
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int zd_chip_led_status(struct zd_chip *chip, int led, enum led_status status);
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int zd_chip_led_flip(struct zd_chip *chip, int led,
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const unsigned int *phases_msecs, unsigned int count);
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int zd_chip_control_leds(struct zd_chip *chip, enum led_status status);
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int zd_set_beacon_interval(struct zd_chip *chip, u32 interval);
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@ -33,6 +33,10 @@
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static void ieee_init(struct ieee80211_device *ieee);
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static void softmac_init(struct ieee80211softmac_device *sm);
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static void housekeeping_init(struct zd_mac *mac);
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static void housekeeping_enable(struct zd_mac *mac);
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static void housekeeping_disable(struct zd_mac *mac);
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int zd_mac_init(struct zd_mac *mac,
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struct net_device *netdev,
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struct usb_interface *intf)
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@ -46,6 +50,7 @@ int zd_mac_init(struct zd_mac *mac,
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ieee_init(ieee);
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softmac_init(ieee80211_priv(netdev));
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zd_chip_init(&mac->chip, netdev, intf);
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housekeeping_init(mac);
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return 0;
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}
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@ -178,6 +183,7 @@ int zd_mac_open(struct net_device *netdev)
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if (r < 0)
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goto disable_rx;
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housekeeping_enable(mac);
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ieee80211softmac_start(netdev);
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return 0;
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disable_rx:
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@ -204,6 +210,7 @@ int zd_mac_stop(struct net_device *netdev)
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*/
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zd_chip_disable_rx(chip);
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housekeeping_disable(mac);
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ieee80211softmac_stop(netdev);
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zd_chip_disable_hwint(chip);
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@ -1080,3 +1087,46 @@ void zd_dump_rx_status(const struct rx_status *status)
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}
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}
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#endif /* DEBUG */
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#define LINK_LED_WORK_DELAY HZ
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static void link_led_handler(void *p)
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{
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struct zd_mac *mac = p;
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struct zd_chip *chip = &mac->chip;
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struct ieee80211softmac_device *sm = ieee80211_priv(mac->netdev);
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int is_associated;
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int r;
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spin_lock_irq(&mac->lock);
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is_associated = sm->associated != 0;
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spin_unlock_irq(&mac->lock);
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r = zd_chip_control_leds(chip,
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is_associated ? LED_ASSOCIATED : LED_SCANNING);
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if (r)
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dev_err(zd_mac_dev(mac), "zd_chip_control_leds error %d\n", r);
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queue_delayed_work(zd_workqueue, &mac->housekeeping.link_led_work,
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LINK_LED_WORK_DELAY);
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}
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static void housekeeping_init(struct zd_mac *mac)
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{
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INIT_WORK(&mac->housekeeping.link_led_work, link_led_handler, mac);
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}
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static void housekeeping_enable(struct zd_mac *mac)
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{
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dev_dbg_f(zd_mac_dev(mac), "\n");
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queue_delayed_work(zd_workqueue, &mac->housekeeping.link_led_work,
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0);
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}
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static void housekeeping_disable(struct zd_mac *mac)
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{
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dev_dbg_f(zd_mac_dev(mac), "\n");
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cancel_rearming_delayed_workqueue(zd_workqueue,
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&mac->housekeeping.link_led_work);
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zd_chip_control_leds(&mac->chip, LED_OFF);
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}
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MAC_FIXED_CHANNEL = 0x01,
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};
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struct housekeeping {
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struct work_struct link_led_work;
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};
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#define ZD_MAC_STATS_BUFFER_SIZE 16
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struct zd_mac {
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@ -128,6 +132,7 @@ struct zd_mac {
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struct net_device *netdev;
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/* Unlocked reading possible */
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struct iw_statistics iw_stats;
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struct housekeeping housekeeping;
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unsigned int stats_count;
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u8 qual_buffer[ZD_MAC_STATS_BUFFER_SIZE];
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u8 rssi_buffer[ZD_MAC_STATS_BUFFER_SIZE];
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