| /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/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)
122 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
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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 |
133 # For the single SID test case, we use the IPv6 addresses of hs-1 and hs-2, for
138 # Traffic from hs-1 to hs-2
141 # Packets generated from hs-1 and directed towards hs-2 are handled by rt-1
191 # At the end of the decap operation, the packet is sent to the host hs-2.
198 # fcff:2::d46. Hence, the packet sent by hs-1 to hs-2 is encapsulated in an
236 # and sends it to the host hs-2.
238 # Traffic from hs-2 to hs-1
241 # 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
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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
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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/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 | 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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| H A D | qcom,ipq806x-usb-phy-hs.yaml | 4 $id: http://devicetree.org/schemas/phy/qcom,ipq806x-usb-phy-hs.yaml#
7 title: Qualcomm ipq806x usb DWC3 HS PHY CONTROLLER
19 const: qcom,ipq806x-usb-phy-hs
51 compatible = "qcom,ipq806x-usb-phy-hs";
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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/Documentation/gpu/nova/core/ |
| H A D | falcon.rst | 28 Falcons can run in Non-secure (NS), Light Secure (LS), or Heavy Secure (HS)
31 Heavy Secured (HS) also known as Privilege Level 3 (PL3)
33 HS ucode is the most trusted code and has access to pretty much everything on
34 the chip. The HS binary includes a signature in it which is verified at boot.
37 GSP in HS mode. FRTS, which involves setting up and loading content into the WPR
38 (Write Protect Region), has to be done by the HS ucode and cannot be done by the
43 These modes are less secure than HS. Like HS, the LS or NS ucode binary also
45 Falcon, another Falcon needs to be running in HS mode, which also establishes the
47 ucode in HS mode on the SEC2 Falcon, which then authenticates and runs the
61 BROM and DMA registers to trigger the Falcon to load the HS ucode from the system
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| /linux/lib/crypto/x86/ |
| H A D | poly1305.h | 18 u64 hs[3]; member
47 state->hs[0] = ((u64)state->h[2] << 52) | ((u64)state->h[1] << 26) | state->h[0]; in convert_to_base2_64()
48 state->hs[1] = ((u64)state->h[4] << 40) | ((u64)state->h[3] << 14) | (state->h[2] >> 12); in convert_to_base2_64()
49 state->hs[2] = state->h[4] >> 24; in convert_to_base2_64()
52 cy = (state->hs[2] >> 2) + (state->hs[2] & ~3ULL); in convert_to_base2_64()
53 state->hs[2] &= 3; in convert_to_base2_64()
54 state->hs[0] += cy; in convert_to_base2_64()
55 state->hs[1] += (cy = ULT(state->hs[0], cy)); in convert_to_base2_64()
56 state->hs[2] += ULT(state->hs[1], cy); in convert_to_base2_64()
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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/arm/boot/dts/st/ |
| H A D | stm32mp135f-dhcor-dhsbc.dts | 397 st,decrease-hs-slew-rate;
398 st,tune-hs-dc-level = <2>;
399 st,enable-hs-rftime-reduction;
400 st,trim-hs-current = <11>;
401 st,trim-hs-impedance = <2>;
403 st,enable-hs-rx-gain-eq;
404 st,no-hs-ftime-ctrl;
415 st,decrease-hs-slew-rate;
416 st,tune-hs-dc-level = <2>;
417 st,enable-hs-rftime-reduction;
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| H A D | stm32mp135f-dk.dts | 592 st,decrease-hs-slew-rate;
593 st,tune-hs-dc-level = <2>;
594 st,enable-hs-rftime-reduction;
595 st,trim-hs-current = <11>;
596 st,trim-hs-impedance = <2>;
598 st,enable-hs-rx-gain-eq;
599 st,no-hs-ftime-ctrl;
606 st,decrease-hs-slew-rate;
607 st,tune-hs-dc-level = <2>;
608 st,enable-hs-rftime-reduction;
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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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| /linux/arch/sh/lib/ |
| H A D | memmove.S | 64 cmp/hs r5,r0
98 cmp/hs r5,r0
142 cmp/hs r5,r0
154 cmp/hs r5,r0
184 cmp/hs r5,r0
230 cmp/hs r5,r0
243 cmp/hs r5,r0
|