| /Linux-v6.1/drivers/media/rc/ |
| D | serial_ir.c | 66 static struct serial_ir_hw hardware[] = { variable
68 .lock = __SPIN_LOCK_UNLOCKED(hardware[IR_HOMEBREW].lock),
82 .lock = __SPIN_LOCK_UNLOCKED(hardware[IR_IRDEO].lock),
93 .lock = __SPIN_LOCK_UNLOCKED(hardware[IR_IRDEO_REMOTE].lock),
104 .lock = __SPIN_LOCK_UNLOCKED(hardware[IR_ANIMAX].lock),
112 .lock = __SPIN_LOCK_UNLOCKED(hardware[IR_IGOR].lock),
163 soutp(UART_MCR, hardware[type].off); in on()
165 soutp(UART_MCR, hardware[type].on); in on()
171 soutp(UART_MCR, hardware[type].on); in off()
173 soutp(UART_MCR, hardware[type].off); in off()
[all …]
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| /Linux-v6.1/sound/isa/sb/ |
| D | sb_common.c | 118 switch (chip->hardware) { in snd_sbdsp_probe()
122 chip->hardware = SB_HW_10; in snd_sbdsp_probe()
127 chip->hardware = SB_HW_201; in snd_sbdsp_probe()
130 chip->hardware = SB_HW_20; in snd_sbdsp_probe()
135 chip->hardware = SB_HW_PRO; in snd_sbdsp_probe()
139 chip->hardware = SB_HW_16; in snd_sbdsp_probe()
177 unsigned short hardware, in snd_sbdsp_create() argument
199 (hardware == SB_HW_ALS4000 || in snd_sbdsp_create()
200 hardware == SB_HW_CS5530) ? in snd_sbdsp_create()
209 if (hardware == SB_HW_ALS4000) in snd_sbdsp_create()
[all …]
|
| /Linux-v6.1/arch/mips/boot/dts/brcm/ |
| D | bcm63268-comtrend-vr-3032u.dts | 29 brcm,hardware-controlled;
35 brcm,hardware-controlled;
66 brcm,hardware-controlled;
71 brcm,hardware-controlled;
76 brcm,hardware-controlled;
81 brcm,hardware-controlled;
86 brcm,hardware-controlled;
91 brcm,hardware-controlled;
96 brcm,hardware-controlled;
|
| /Linux-v6.1/sound/isa/wss/ |
| D | wss_lib.c | 409 if ((timeout & CS4231_MCE) == 0 || !(chip->hardware & hw_mask)) in snd_wss_mce_down()
589 if (!(chip->hardware & WSS_HW_AD1848_MASK)) { in snd_wss_calibrate_mute()
597 if (chip->hardware == WSS_HW_INTERWAVE) { in snd_wss_calibrate_mute()
619 if (chip->hardware == WSS_HW_CS4231A || in snd_wss_playback_format()
620 (chip->hardware & WSS_HW_CS4232_MASK)) { in snd_wss_playback_format()
634 } else if (chip->hardware == WSS_HW_AD1845) { in snd_wss_playback_format()
656 if (chip->hardware != WSS_HW_INTERWAVE && !chip->single_dma) { in snd_wss_playback_format()
665 if (chip->hardware == WSS_HW_OPL3SA2) in snd_wss_playback_format()
680 if (chip->hardware == WSS_HW_CS4231A || in snd_wss_capture_format()
681 (chip->hardware & WSS_HW_CS4232_MASK)) { in snd_wss_capture_format()
[all …]
|
| /Linux-v6.1/drivers/hwmon/pmbus/ |
| D | Kconfig | 21 If you say yes here you get hardware monitoring support for generic
35 If you say yes here you get hardware monitoring support for Analog
44 If you say yes here you get hardware monitoring support for Analog
54 If you say yes here you get hardware monitoring support for BEL
63 If you say yes here you get hardware monitoring support for BluTek
72 If you say yes here you get hardware monitoring support for
82 If you say yes here you get hardware monitoring support for
93 If you say yes here you get hardware monitoring support for the IBM
102 If you say yes here you get hardware monitoring support for Delta
111 If you say yes here you get hardware monitoring support for the INSPUR
[all …]
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| /Linux-v6.1/Documentation/devicetree/bindings/crypto/ |
| D | brcm,spu-crypto.txt | 1 The Broadcom Secure Processing Unit (SPU) hardware supports symmetric
2 cryptographic offload for Broadcom SoCs. A SoC may have multiple SPU hardware
7 brcm,spum-crypto - for devices with SPU-M hardware
8 brcm,spu2-crypto - for devices with SPU2 hardware
9 brcm,spu2-v2-crypto - for devices with enhanced SPU2 hardware features like SHA3
11 brcm,spum-nsp-crypto - for the Northstar Plus variant of the SPU-M hardware
|
| /Linux-v6.1/drivers/tty/ipwireless/ |
| D | tty.c | 49 struct ipw_hardware *hardware; member
216 ret = ipwireless_send_packet(tty->hardware, IPW_CHANNEL_RAS, in ipw_write()
310 ret = ipwireless_set_RTS(tty->hardware, tty->channel_idx, 1); in set_control_lines()
314 ret = ipwireless_set_RTS(tty->hardware, in set_control_lines()
321 ret = ipwireless_set_DTR(tty->hardware, tty->channel_idx, 1); in set_control_lines()
325 ret = ipwireless_set_DTR(tty->hardware, in set_control_lines()
332 ret = ipwireless_set_RTS(tty->hardware, tty->channel_idx, 0); in set_control_lines()
334 ret = ipwireless_set_RTS(tty->hardware, in set_control_lines()
341 ret = ipwireless_set_DTR(tty->hardware, tty->channel_idx, 0); in set_control_lines()
343 ret = ipwireless_set_DTR(tty->hardware, in set_control_lines()
[all …]
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| /Linux-v6.1/Documentation/networking/device_drivers/ethernet/freescale/dpaa2/ |
| D | ethernet-driver.rst | 20 Unlike regular NICs, in the DPAA2 architecture there is no single hardware block
21 representing network interfaces; instead, several separate hardware resources
29 All hardware resources are allocated and configured through the Management
32 hardware resources, like queues, do not have a corresponding MC object and
58 . . . hardware
60 | MC hardware portals |
69 DPBPs represent hardware buffer pools. Packet I/O is performed in the context
71 hardware resources.
90 | | | | | hardware
92 | I/O hardware portals |
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| /Linux-v6.1/drivers/char/hw_random/ |
| D | Kconfig | 15 of possibly several hardware random number generators.
17 These hardware random number generators do feed into the
44 Generator hardware found on Intel i8xx-based motherboards.
57 Generator hardware found on AMD 76x-based motherboards.
70 Generator hardware found on Atmel AT91 devices.
82 Generator hardware based on Silex Insight BA431 IP.
94 Generator hardware found on the Broadcom BCM2835 and BCM63xx SoCs.
107 hardware found on the Broadcom iProc and STB SoCs.
120 Generator hardware found on the AMD Geode LX.
133 Generator hardware found on Niagara2 cpus.
[all …]
|
| /Linux-v6.1/Documentation/driver-api/iio/ |
| D | hw-consumer.rst | 4 An IIO device can be directly connected to another device in hardware. In this
5 case the buffers between IIO provider and IIO consumer are handled by hardware.
12 * :c:func:`iio_hw_consumer_alloc` — Allocate IIO hardware consumer
13 * :c:func:`iio_hw_consumer_free` — Free IIO hardware consumer
14 * :c:func:`iio_hw_consumer_enable` — Enable IIO hardware consumer
15 * :c:func:`iio_hw_consumer_disable` — Disable IIO hardware consumer
|
| /Linux-v6.1/Documentation/networking/devlink/ |
| D | devlink-dpipe.rst | 10 While performing the hardware offloading process, much of the hardware
16 Linux kernel may differ from the hardware implementation. The pipeline debug
20 The hardware offload process is expected to be done in a way that the user
21 should not be able to distinguish between the hardware vs. software
22 implementation. In this process, hardware specifics are neglected. In
28 differences in the hardware and software models some processes cannot be
32 greatly to the hardware implementation. The configuration API is the same,
34 Level Path Compression trie (LPC-trie) in hardware.
38 information about the underlying hardware, this debugging can be made
45 The ``devlink-dpipe`` interface closes this gap. The hardware's pipeline is
[all …]
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| /Linux-v6.1/drivers/isdn/mISDN/ |
| D | dsp_dtmf.c | 52 int hardware = 1; in dsp_dtmf_hardware() local
58 hardware = 0; in dsp_dtmf_hardware()
66 hardware = 0; in dsp_dtmf_hardware()
73 hardware = 0; in dsp_dtmf_hardware()
81 hardware = 0; in dsp_dtmf_hardware()
89 hardware = 0; in dsp_dtmf_hardware()
92 dsp->dtmf.hardware = hardware; in dsp_dtmf_hardware()
93 dsp->dtmf.software = !hardware; in dsp_dtmf_hardware()
|
| /Linux-v6.1/Documentation/ABI/testing/ |
| D | sysfs-class-led-trigger-pattern | 19 Specify a hardware pattern for the LED, for LED hardware that
21 to some preprogrammed hardware patterns. It deactivates any active
24 Since different LED hardware can have different semantics of
25 hardware patterns, each driver is expected to provide its own
26 description for the hardware patterns in their documentation
|
| D | sysfs-platform-dfl-fme | 101 hardware.
108 hardware.
133 Description: Read-Only. It returns hardware threshold1 temperature in
135 threshold, hardware starts 50% or 90% throttling (see
142 Description: Read-Only. It returns hardware threshold2 temperature in
144 threshold, hardware starts 100% throttling.
150 Description: Read-Only. It returns hardware trip threshold temperature in
160 hardware threshold1 (see 'temp1_max'), otherwise 0.
167 hardware threshold2 (see 'temp1_crit'), otherwise 0.
173 Description: Read-Only. Read this file to get the policy of hardware threshold1
[all …]
|
| D | debugfs-pfo-nx-crypto | 33 The total number of AES operations submitted to the hardware.
36 The total number of bytes hashed by the hardware using SHA-256.
39 The total number of SHA-256 operations submitted to the hardware.
42 The total number of bytes hashed by the hardware using SHA-512.
45 The total number of SHA-512 operations submitted to the hardware.
|
| D | sysfs-ptp | 7 features of PTP hardware clocks.
14 hardware clock registered into the PTP class driver
21 This file contains the name of the PTP hardware clock
32 This file contains the PTP hardware clock's maximum
48 alarms offer by the PTP hardware clock.
55 channels offered by the PTP hardware clock.
62 output channels offered by the PTP hardware clock.
69 offered by the PTP hardware clock.
89 pin offered by the PTP hardware clock. The file name
90 is the hardware dependent pin name. Reading from this
[all …]
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| D | sysfs-class-switchtec | 18 Description: Component identifier as stored in the hardware (eg. PM8543)
27 Description: Component revision stored in the hardware (read only)
35 Description: Component vendor as stored in the hardware (eg. MICROSEM)
44 Description: Device version as stored in the hardware (read only)
76 Description: Product identifier as stored in the hardware (eg. PSX 48XG3)
85 Description: Product revision stored in the hardware (eg. RevB)
94 Description: Product vendor as stored in the hardware (eg. MICROSEM)
|
| /Linux-v6.1/Documentation/powerpc/ |
| D | ptrace.rst | 5 GDB intends to support the following hardware debug features of BookE
8 4 hardware breakpoints (IAC)
9 2 hardware watchpoints (read, write and read-write) (DAC)
10 2 value conditions for the hardware watchpoints (DVC)
21 Query for GDB to discover the hardware debug features. The main info to
22 be returned here is the minimum alignment for the hardware watchpoints.
24 an 8-byte alignment restriction for hardware watchpoints. We'd like to avoid
28 GDB: this query will return the number of hardware breakpoints, hardware
53 Sets a hardware breakpoint or watchpoint, according to the provided structure::
86 With this GDB can ask for all kinds of hardware breakpoints and watchpoints
[all …]
|
| /Linux-v6.1/Documentation/process/ |
| D | embargoed-hardware-issues.rst | 3 Embargoed hardware issues
16 hardware vendors and other parties. For some of the issues, software
25 The Linux kernel hardware security team is separate from the regular Linux
28 The team only handles the coordination of embargoed hardware security
34 The team can be contacted by email at <hardware-security@kernel.org>. This
43 - PGP: https://www.kernel.org/static/files/hardware-security.asc
44 - S/MIME: https://www.kernel.org/static/files/hardware-security.crt
46 While hardware security issues are often handled by the affected hardware
48 identified a potential hardware flaw.
53 The current team of hardware security officers:
[all …]
|
| /Linux-v6.1/drivers/acpi/apei/ |
| D | Kconfig | 28 platform hardware errors (such as that from chipset). It
29 works in so called "Firmware First" mode, that is, hardware
31 Linux by firmware. This way, some non-standard hardware
32 error registers or non-standard hardware link can be checked
33 by firmware to produce more valuable hardware error
59 EINJ provides a hardware error injection mechanism, it is
67 ERST is a way provided by APEI to save and retrieve hardware
|
| /Linux-v6.1/drivers/clk/ingenic/ |
| D | Kconfig | 13 Support the clocks provided by the CGU hardware on Ingenic JZ4740
23 Support the clocks provided by the CGU hardware on Ingenic JZ4725B
33 Support the clocks provided by the CGU hardware on Ingenic JZ4760
43 Support the clocks provided by the CGU hardware on Ingenic JZ4770
53 Support the clocks provided by the CGU hardware on Ingenic JZ4780
63 Support the clocks provided by the CGU hardware on Ingenic X1000
73 Support the clocks provided by the CGU hardware on Ingenic X1830
|
| /Linux-v6.1/sound/isa/opti9xx/ |
| D | opti92x-ad1848.c | 112 unsigned short hardware; member
168 unsigned short hardware) in snd_opti9xx_init() argument
172 chip->hardware = hardware; in snd_opti9xx_init()
173 strcpy(chip->name, snd_opti9xx_names[hardware]); in snd_opti9xx_init()
188 chip->mc_base_size = opti9xx_mc_size[hardware]; in snd_opti9xx_init()
191 chip->mc_base_size = opti9xx_mc_size[hardware]; in snd_opti9xx_init()
194 switch (hardware) { in snd_opti9xx_init()
198 chip->password = (hardware == OPTi9XX_HW_82C928) ? 0xe2 : 0xe3; in snd_opti9xx_init()
212 chip->mc_base = (hardware == OPTi9XX_HW_82C930) ? 0xf8f : 0xf8d; in snd_opti9xx_init()
221 snd_printk(KERN_ERR "chip %d not supported\n", hardware); in snd_opti9xx_init()
[all …]
|
| /Linux-v6.1/Documentation/userspace-api/media/dvb/ |
| D | intro.rst | 72 following main hardware components:
75 Here the raw signal reaches the digital TV hardware from a satellite dish or
82 Conditional Access (CA) hardware like CI adapters and smartcard slots
83 The complete TS is passed through the CA hardware. Programs to which
89 Not every digital TV hardware provides conditional access hardware.
104 Modern hardware usually doesn't have a separate decoder hardware, as
106 adapter of the system or by a signal processing hardware embedded on
122 The Linux Digital TV API lets you control these hardware components through
125 control the MPEG2 decoder hardware, the frontend device the tuner and
127 and section filters of the hardware. If the hardware does not support
[all …]
|
| /Linux-v6.1/Documentation/block/ |
| D | blk-mq.rst | 49 blk-mq has two group of queues: software staging queues and hardware dispatch
51 path possible: send it directly to the hardware queue. However, there are two
57 at the hardware queue, a second stage queue where the hardware has direct access
58 to process those requests. However, if the hardware does not have enough
60 queue, to be sent in the future, when the hardware is able.
95 eligible to be sent to the hardware. One of the possible schedulers to be
98 any reordering. When the device starts processing requests in the hardware
99 queue (a.k.a. run the hardware queue), the software queues mapped to that
100 hardware queue will be drained in sequence according to their mapping.
105 The hardware queue (represented by struct blk_mq_hw_ctx) is a struct
[all …]
|
| /Linux-v6.1/Documentation/driver-api/media/ |
| D | cec-core.rst | 7 hardware. It is designed to handle a multiple types of hardware (receivers,
35 The struct cec_adapter represents the CEC adapter hardware. It is created by
61 capabilities of the hardware and which parts are to be handled
126 hardware:
129 To enable/disable the hardware::
133 This callback enables or disables the CEC hardware. Enabling the CEC hardware
137 hardware is enabled. CEC drivers should not set CEC_CAP_NEEDS_HPD unless
138 the hardware design requires that as this will make it impossible to wake
150 that are not for us. Not all hardware supports this and this function is only
152 (some hardware may always be in 'monitor all' mode).
[all …]
|
