| /linux/drivers/spi/ |
| H A D | spi-hisi-kunpeng.c | 161 static int hisi_spi_debugfs_init(struct hisi_spi *hs) in hisi_spi_debugfs_init() argument
167 host = container_of(hs->dev, struct spi_controller, dev); in hisi_spi_debugfs_init()
169 hs->debugfs = debugfs_create_dir(name, NULL); in hisi_spi_debugfs_init()
170 if (IS_ERR(hs->debugfs)) in hisi_spi_debugfs_init()
173 hs->regset.regs = hisi_spi_regs; in hisi_spi_debugfs_init()
174 hs->regset.nregs = ARRAY_SIZE(hisi_spi_regs); in hisi_spi_debugfs_init()
175 hs->regset.base = hs->regs; in hisi_spi_debugfs_init()
176 debugfs_create_regset32("registers", 0400, hs->debugfs, &hs->regset); in hisi_spi_debugfs_init()
181 static u32 hisi_spi_busy(struct hisi_spi *hs) in hisi_spi_busy() argument
183 return readl(hs->regs + HISI_SPI_SR) & SR_BUSY; in hisi_spi_busy()
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| /linux/Documentation/devicetree/bindings/phy/ |
| H A D | phy-stm32-usbphyc.yaml | 7 title: STMicroelectronics STM32 USB HS PHY controller
91 # all optional parameters to tune the interface of the PHY (HS for High-Speed, FS for Full-
102 st,decrease-hs-slew-rate:
103 description: Decreases the HS driver slew rate by 10%
106 st,tune-hs-dc-level:
108 Tunes the HS driver DC level
122 st,enable-hs-rftime-reduction:
123 description: Enables the HS rise/fall reduction feature
126 st,trim-hs-current:
128 Controls HS driver current trimming for choke compensation
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| H A D | qcom,usb-hs-phy.yaml | 4 $id: http://devicetree.org/schemas/phy/qcom,usb-hs-phy.yaml#
7 title: Qualcomm's USB HS PHY
17 - qcom,usb-hs-phy-apq8064
18 - qcom,usb-hs-phy-msm8660
19 - qcom,usb-hs-phy-msm8960
43 - qcom,usb-hs-phy-apq8064
44 - qcom,usb-hs-phy-msm8226
45 - qcom,usb-hs-phy-msm8660
46 - qcom,usb-hs-phy-msm8916
47 - qcom,usb-hs-phy-msm8960
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| H A D | brcm,stingray-usb-phy.txt | 5 - "brcm,sr-usb-combo-phy" is combo PHY has two PHYs, one SS and one HS.
6 - "brcm,sr-usb-hs-phy" is a single HS PHY.
10 the PHY number of two PHYs. 0 for HS PHY and 1 for SS PHY.
11 - Must be 0 for brcm,sr-usb-hs-phy.
29 compatible = "brcm,sr-usb-hs-phy";
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| H A D | transmit-amplitude.yaml | 65 - usb-hs
72 - ufs-hs
73 - ufs-hs-a
74 - ufs-hs-b
102 tx-p2p-microvolt-names = "2500base-x", "usb-hs", "usb-ss";
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| /linux/tools/testing/selftests/net/ |
| H A D | srv6_hencap_red_l3vpn_test.sh | 11 # In this example, hosts hs-1 and hs-2 are connected through an IPv4/IPv6 VPN
12 # service, while hs-3 and hs-4 are connected using an IPv6 only VPN.
38 # | hs-1 | | hs-2 |
66 # | hs-4 | | hs-3 |
101 # IPv4/IPv6 VPN between hs-1 and hs-2
104 # Hosts hs-1 and hs-2 are connected using dedicated IPv4/IPv6 VPNs.
105 # Specifically, packets generated from hs-1 and directed towards hs-2 are
120 # On the reverse path (i.e. from hs-2 to hs-1), rt-2 applies the following
135 # hs-1->hs-2 |IPv6 DA=fcff:3::e|SRH SIDs=fcff:4::e,fcff:2::d46|IPv6|...| (i.a)
136 # hs-1->hs-2 |IPv6 DA=fcff:2::d46|IPv4|...| (ii.a)
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| H A D | srv6_hl2encap_red_l2vpn_test.sh | 10 # In this example, hosts hs-1 and hs-2 are connected through an L2 VPN service.
11 # Currently, the SRv6 subsystem in Linux allows hosts hs-1 and hs-2 to exchange
37 # | hs-1 | | hs-2 |
91 # L2 VPN between hs-1 and hs-2
94 # Hosts hs-1 and hs-2 are connected using a dedicated L2 VPN.
95 # Specifically, packets generated from hs-1 and directed towards hs-2 are
105 # On the reverse path (i.e. from hs-2 to hs-1), rt-2 applies the following
115 # hs-1->hs-2 |IPv6 DA=fcff:2::d2|eth|...| (i.a)
116 # hs-2->hs-1 |IPv6 DA=fcff:4::e|SRH SIDs=fcff:3::e,fcff:1::d2|eth|...| (i.b)
124 readonly RT2HS_DEVNAME="veth-hs"
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| H A D | srv6_end_flavors_test.sh | 56 # two hosts (hs-1, hs-2) and four routers (rt-1, rt-2, rt-3, rt-4).
57 # Hosts hs-1 and hs-2 are connected to routers rt-1 and rt-2, respectively,
59 # Traffic exchanged between hs-1 and hs-2 can follow different network paths.
78 # | hs-1 | | hs-2 |
144 # Traffic from hs-1 to hs-2
147 # Packets generated from hs-1 and directed towards hs-2 are
154 # Policy steers the traffic from hs-1 across rt-3, rt-4, rt-2 and finally to the
155 # destination hs-2.
173 # Once the PSP processing is completed, the packet is forwarded to the host hs-2
176 # Traffic from hs-2 to hs-1
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| H A D | srv6_end_next_csid_l3vpn_test.sh | 12 # two hosts and four routers. Hosts hs-1 and hs-2 are connected through an
44 # | hs-1 | | hs-2 |
127 # For the single SID test case, we use the IPv4 addresses of hs-1 and hs-2, for
132 # Traffic from hs-1 to hs-2
135 # Packets generated from hs-1 and directed towards hs-2 are handled by rt-1
188 # host hs-2.
195 # fcff:2::d46. Hence, the packet sent by hs-1 to hs-2 is encapsulated in an
229 # and sends it to the host hs-2.
231 # Traffic from hs-2 to hs-1
234 # Packets generated from hs-2 and directed towards hs-1 are handled by rt-2
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| H A D | srv6_end_dx6_netfilter_test.sh | 20 # example where, within the same domain of tenant 100, the host hs-1 pings
21 # the host hs-2.
23 # First of all, L2 reachability of the host hs-2 is taken into account by
26 # When the host hs-1 sends an IPv6 packet destined to hs-2, the router rt-1
36 # the host hs-2 through the veth-t100 interface.
48 # | hs-1 netns | | hs-2 netns |
170 # destroy routers rt-* and hosts hs-*
171 for ns in $(ip netns show | grep -E 'rt-*|hs-*'); do
208 local hs=$1
211 local hsname=hs-${hs}
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| H A D | srv6_end_dx4_netfilter_test.sh | 20 # example where, within the same domain of tenant 100, the host hs-1 pings
21 # the host hs-2.
23 # First of all, L2 reachability of the host hs-2 is taken into account by
26 # When the host hs-1 sends an IPv4 packet destined to hs-2, the router rt-1
36 # the host hs-2 through the veth-t100 interface.
48 # | hs-1 netns | | hs-2 netns |
170 # destroy routers rt-* and hosts hs-*
171 for ns in $(ip netns show | grep -E 'rt-*|hs-*'); do
209 local hs=$1
212 local hsname=hs-${hs}
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| H A D | srv6_end_x_next_csid_l3vpn_test.sh | 13 # two hosts and four routers. Hosts hs-1 and hs-2 are connected through an
47 # | hs-1 | | hs-2 |
130 # For the single SID test case, we use the IPv6 addresses of hs-1 and hs-2, for
135 # Traffic from hs-1 to hs-2
138 # Packets generated from hs-1 and directed towards hs-2 are handled by rt-1
188 # At the end of the decap operation, the packet is sent to the host hs-2.
195 # fcff:2::d46. Hence, the packet sent by hs-1 to hs-2 is encapsulated in an
233 # and sends it to the host hs-2.
235 # Traffic from hs-2 to hs-1
238 # Packets generated from hs-2 and directed towards hs-1 are handled by rt-2
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| H A D | srv6_end_dt46_l3vpn_test.sh | 26 # In other words, hosts hs-t100-1 and hs-t100-2 are connected through the
27 # IPv4/IPv6 L3 VPN of tenant 100 while hs-t200-3 and hs-t200-4 are connected
29 # and tenant 200 is forbidden and thus, for example, hs-t100-1 cannot reach
30 # hs-t200-3 and vice versa.
38 # hs-t100-1 pings the host hs-t100-2.
40 # First of all, L2 reachability of the host hs-t100-2 is taken into account by
43 # When the host hs-t100-1 sends an IPv6 or IPv4 packet destined to hs-t100-2,
55 # host hs-t100-2 through the veth-t100 interface.
61 # L3 VPN for tenant 100. In this case, only hosts hs-t200-3 and hs-t200-4 are
67 # | hs-t100-1 netns | | hs-t100-2 netns |
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| H A D | srv6_end_dt4_l3vpn_test.sh | 16 # In other words, hosts hs-t100-1 and hs-t100-2 are connected through the IPv4
17 # L3 VPN of tenant 100 while hs-t200-3 and hs-t200-4 are connected using the
19 # is forbidden and thus, for example, hs-t100-1 cannot reach hs-t200-3 and vice
27 # example where, within the same domain of tenant 100, the host hs-t100-1 pings
28 # the host hs-t100-2.
30 # First of all, L2 reachability of the host hs-t100-2 is taken into account by
33 # When the host hs-t100-1 sends an IPv4 packet destined to hs-t100-2, the
45 # hs-t100-2 through the veth-t100 interface.
51 # for tenant 100. In this case, only hosts hs-t200-3 and hs-t200-4 are able to
57 # | hs-t100-1 netns | | hs-t100-2 netns |
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| H A D | srv6_end_dt6_l3vpn_test.sh | 17 # In other words, hosts hs-t100-1 and hs-t100-2 are connected through the IPv6
18 # L3 VPN of tenant 100 while hs-t200-3 and hs-t200-4 are connected using the
20 # is forbidden and thus, for example, hs-t100-1 cannot reach hs-t200-3 and vice
28 # example where, within the same domain of tenant 100, the host hs-t100-1 pings
29 # the host hs-t100-2.
31 # First of all, L2 reachability of the host hs-t100-2 is taken into account by
34 # When the host hs-t100-1 sends an IPv6 packet destined to hs-t100-2, the
46 # hs-t100-2 through the veth-t100 interface.
52 # for tenant 100. In this case, only hosts hs-t200-3 and hs-t200-4 are able to
58 # | hs-t100-1 netns | | hs-t100-2 netns |
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| /linux/include/linux/phy/ |
| H A D | phy-mipi-dphy.h | 20 * Clock transitions and disable the Clock Lane HS-RX.
30 * send HS clock after the last associated Data Lane has
41 * Time, in UI, that the HS clock shall be driven by
43 * the transition from LP to HS mode.
53 * Lane LP-00 Line state immediately before the HS-0 Line
54 * state starting the HS transmission.
64 * Time interval, in picoseconds, during which the HS receiver
65 * should ignore any Clock Lane HS transitions, starting from
77 * the HS line termination.
86 * Time, in picoseconds, that the transmitter drives the HS-0
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| /linux/drivers/net/can/usb/ |
| H A D | Kconfig | 75 - Kvaser Leaf Professional HS
76 - Kvaser Leaf SemiPro HS
82 - Kvaser Memorator II HS/HS
83 - Kvaser USBcan Professional HS/HS
85 - Kvaser Leaf Professional HS (OBD-II connector)
86 - Kvaser Memorator Professional HS/LS
93 - Kvaser Mini PCI Express HS
97 - Kvaser USBcan II HS/HS
98 - Kvaser USBcan II HS/LS
100 - Kvaser Memorator HS/HS
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| /linux/drivers/clk/socfpga/ |
| H A D | clk-agilex.c | 17 { .fw_name = "cb-intosc-hs-div2-clk",
18 .name = "cb-intosc-hs-div2-clk", },
26 { .fw_name = "cb-intosc-hs-div2-clk",
27 .name = "cb-intosc-hs-div2-clk", },
37 { .fw_name = "cb-intosc-hs-div2-clk",
38 .name = "cb-intosc-hs-div2-clk", },
50 { .fw_name = "cb-intosc-hs-div2-clk",
51 .name = "cb-intosc-hs-div2-clk", },
63 { .fw_name = "cb-intosc-hs-div2-clk",
64 .name = "cb-intosc-hs-div2-clk", },
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| /linux/arch/sparc/kernel/ |
| H A D | viohs.c | 60 viodbg(HS, "SEND VERSION INFO maj[%u] min[%u] devclass[%u]\n", in send_version()
70 viodbg(HS, "START HANDSHAKE\n"); in start_handshake()
144 viodbg(HS, "HANDSHAKE FAILURE\n"); in handshake_failure()
165 viodbg(HS, "UNKNOWN CONTROL [%02x:%02x:%04x:%08x]\n", in process_unknown()
201 viodbg(HS, "SEND DRING_REG INFO ndesc[%u] dsz[%u] opt[0x%x] " in send_dreg()
209 viodbg(HS, "DRING COOKIE(%d) [%016llx:%016llx]\n", in send_dreg()
226 viodbg(HS, "SEND RDX INFO\n"); in send_rdx()
261 viodbg(HS, "GOT VERSION INFO maj[%u] min[%u] devclass[%u]\n", in process_ver_info()
278 viodbg(HS, "SEND VERSION NACK maj[0] min[0]\n"); in process_ver_info()
284 viodbg(HS, "SEND VERSION NACK maj[%u] min[%u]\n", in process_ver_info()
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| /linux/arch/powerpc/platforms/pseries/ |
| H A D | hvCall_inst.c | 56 struct hcall_stats *hs = m->private; in hc_show() local
58 if (hs[h_num].num_calls) { in hc_show()
61 hs[h_num].num_calls, in hc_show()
62 hs[h_num].tb_total, in hc_show()
63 hs[h_num].purr_total); in hc_show()
66 hs[h_num].num_calls, in hc_show()
67 hs[h_num].tb_total); in hc_show()
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| /linux/arch/x86/crypto/ |
| H A D | poly1305_glue.c | 43 u64 hs[3]; member
71 state->hs[0] = ((u64)state->h[2] << 52) | ((u64)state->h[1] << 26) | state->h[0]; in convert_to_base2_64()
72 state->hs[1] = ((u64)state->h[4] << 40) | ((u64)state->h[3] << 14) | (state->h[2] >> 12); in convert_to_base2_64()
73 state->hs[2] = state->h[4] >> 24; in convert_to_base2_64()
75 cy = (state->hs[2] >> 2) + (state->hs[2] & ~3ULL); in convert_to_base2_64()
76 state->hs[2] &= 3; in convert_to_base2_64()
77 state->hs[0] += cy; in convert_to_base2_64()
78 state->hs[1] += (cy = ULT(state->hs[0], cy)); in convert_to_base2_64()
79 state->hs[2] += ULT(state->hs[1], cy); in convert_to_base2_64()
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| /linux/drivers/ufs/host/ |
| H A D | ufshcd-pltfrm.h | 16 u32 hs_rx_gear; /* hs rx gear to work in */
17 u32 hs_tx_gear; /* hs tx gear to work in */
22 u32 rx_pwr_hs; /* rx hs working pwr */
23 u32 tx_pwr_hs; /* tx hs working pwr */
24 u32 hs_rate; /* rate A/B to work in HS */
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| /linux/arch/arm/boot/dts/st/ |
| H A D | stm32mp135f-dk.dts | 528 st,decrease-hs-slew-rate;
529 st,tune-hs-dc-level = <2>;
530 st,enable-hs-rftime-reduction;
531 st,trim-hs-current = <11>;
532 st,trim-hs-impedance = <2>;
534 st,enable-hs-rx-gain-eq;
535 st,no-hs-ftime-ctrl;
542 st,decrease-hs-slew-rate;
543 st,tune-hs-dc-level = <2>;
544 st,enable-hs-rftime-reduction;
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| H A D | stm32mp157c-ev1.dts | 389 st,tune-hs-dc-level = <2>;
391 st,enable-hs-rftime-reduction;
392 st,trim-hs-current = <15>;
393 st,trim-hs-impedance = <1>;
395 st,tune-hs-rx-offset = <2>;
405 st,tune-hs-dc-level = <2>;
407 st,enable-hs-rftime-reduction;
408 st,trim-hs-current = <15>;
409 st,trim-hs-impedance = <1>;
411 st,tune-hs-rx-offset = <2>;
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| /linux/drivers/phy/qualcomm/ |
| H A D | phy-qcom-snps-femto-v2.c | 110 * struct qcom_snps_hsphy - snps hs phy attributes
115 * @base: iomapped memory space for snps hs phy
321 "qcom,hs-disconnect-bp",
335 "qcom,hs-amplitude-bp",
356 "qcom,hs-rise-fall-time-bp",
363 "qcom,hs-crossover-voltage-microvolt",
370 "qcom,hs-output-impedance-micro-ohms",
391 dev_vdbg(&phy->dev, "%s(): Initializing SNPS HS phy\n", __func__); in qcom_snps_hsphy_init()
499 { .compatible = "qcom,sm8150-usb-hs-phy", },
500 { .compatible = "qcom,usb-snps-hs-5nm-phy", },
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