13f3a1675SAlvaro Karsz // SPDX-License-Identifier: GPL-2.0-only
23f3a1675SAlvaro Karsz /*
33f3a1675SAlvaro Karsz * SolidRun DPU driver for control plane
43f3a1675SAlvaro Karsz *
53f3a1675SAlvaro Karsz * Copyright (C) 2022-2023 SolidRun
63f3a1675SAlvaro Karsz *
73f3a1675SAlvaro Karsz * Author: Alvaro Karsz <alvaro.karsz@solid-run.com>
83f3a1675SAlvaro Karsz *
93f3a1675SAlvaro Karsz */
103f3a1675SAlvaro Karsz
113f3a1675SAlvaro Karsz #include <linux/iopoll.h>
123f3a1675SAlvaro Karsz
133f3a1675SAlvaro Karsz #include "snet_vdpa.h"
143f3a1675SAlvaro Karsz
153f3a1675SAlvaro Karsz enum snet_ctrl_opcodes {
163f3a1675SAlvaro Karsz SNET_CTRL_OP_DESTROY = 1,
173f3a1675SAlvaro Karsz SNET_CTRL_OP_READ_VQ_STATE,
183616bf37SAlvaro Karsz SNET_CTRL_OP_SUSPEND,
19*ef9da01cSAlvaro Karsz SNET_CTRL_OP_RESUME,
203f3a1675SAlvaro Karsz };
213f3a1675SAlvaro Karsz
223f3a1675SAlvaro Karsz #define SNET_CTRL_TIMEOUT 2000000
233f3a1675SAlvaro Karsz
243f3a1675SAlvaro Karsz #define SNET_CTRL_DATA_SIZE_MASK 0x0000FFFF
253f3a1675SAlvaro Karsz #define SNET_CTRL_IN_PROCESS_MASK 0x00010000
263f3a1675SAlvaro Karsz #define SNET_CTRL_CHUNK_RDY_MASK 0x00020000
273f3a1675SAlvaro Karsz #define SNET_CTRL_ERROR_MASK 0x0FFC0000
283f3a1675SAlvaro Karsz
293f3a1675SAlvaro Karsz #define SNET_VAL_TO_ERR(val) (-(((val) & SNET_CTRL_ERROR_MASK) >> 18))
303f3a1675SAlvaro Karsz #define SNET_EMPTY_CTRL(val) (((val) & SNET_CTRL_ERROR_MASK) || \
313f3a1675SAlvaro Karsz !((val) & SNET_CTRL_IN_PROCESS_MASK))
323f3a1675SAlvaro Karsz #define SNET_DATA_READY(val) ((val) & (SNET_CTRL_ERROR_MASK | SNET_CTRL_CHUNK_RDY_MASK))
333f3a1675SAlvaro Karsz
343f3a1675SAlvaro Karsz /* Control register used to read data from the DPU */
353f3a1675SAlvaro Karsz struct snet_ctrl_reg_ctrl {
363f3a1675SAlvaro Karsz /* Chunk size in 4B words */
373f3a1675SAlvaro Karsz u16 data_size;
383f3a1675SAlvaro Karsz /* We are in the middle of a command */
393f3a1675SAlvaro Karsz u16 in_process:1;
403f3a1675SAlvaro Karsz /* A data chunk is ready and can be consumed */
413f3a1675SAlvaro Karsz u16 chunk_ready:1;
423f3a1675SAlvaro Karsz /* Error code */
433f3a1675SAlvaro Karsz u16 error:10;
443f3a1675SAlvaro Karsz /* Saved for future usage */
453f3a1675SAlvaro Karsz u16 rsvd:4;
463f3a1675SAlvaro Karsz };
473f3a1675SAlvaro Karsz
483f3a1675SAlvaro Karsz /* Opcode register */
493f3a1675SAlvaro Karsz struct snet_ctrl_reg_op {
503f3a1675SAlvaro Karsz u16 opcode;
513f3a1675SAlvaro Karsz /* Only if VQ index is relevant for the command */
523f3a1675SAlvaro Karsz u16 vq_idx;
533f3a1675SAlvaro Karsz };
543f3a1675SAlvaro Karsz
553f3a1675SAlvaro Karsz struct snet_ctrl_regs {
563f3a1675SAlvaro Karsz struct snet_ctrl_reg_op op;
573f3a1675SAlvaro Karsz struct snet_ctrl_reg_ctrl ctrl;
583f3a1675SAlvaro Karsz u32 rsvd;
593f3a1675SAlvaro Karsz u32 data[];
603f3a1675SAlvaro Karsz };
613f3a1675SAlvaro Karsz
snet_get_ctrl(struct snet * snet)623f3a1675SAlvaro Karsz static struct snet_ctrl_regs __iomem *snet_get_ctrl(struct snet *snet)
633f3a1675SAlvaro Karsz {
643f3a1675SAlvaro Karsz return snet->bar + snet->psnet->cfg.ctrl_off;
653f3a1675SAlvaro Karsz }
663f3a1675SAlvaro Karsz
snet_wait_for_empty_ctrl(struct snet_ctrl_regs __iomem * regs)673f3a1675SAlvaro Karsz static int snet_wait_for_empty_ctrl(struct snet_ctrl_regs __iomem *regs)
683f3a1675SAlvaro Karsz {
693f3a1675SAlvaro Karsz u32 val;
703f3a1675SAlvaro Karsz
713f3a1675SAlvaro Karsz return readx_poll_timeout(ioread32, ®s->ctrl, val, SNET_EMPTY_CTRL(val), 10,
723f3a1675SAlvaro Karsz SNET_CTRL_TIMEOUT);
733f3a1675SAlvaro Karsz }
743f3a1675SAlvaro Karsz
snet_wait_for_empty_op(struct snet_ctrl_regs __iomem * regs)753f3a1675SAlvaro Karsz static int snet_wait_for_empty_op(struct snet_ctrl_regs __iomem *regs)
763f3a1675SAlvaro Karsz {
773f3a1675SAlvaro Karsz u32 val;
783f3a1675SAlvaro Karsz
793f3a1675SAlvaro Karsz return readx_poll_timeout(ioread32, ®s->op, val, !val, 10, SNET_CTRL_TIMEOUT);
803f3a1675SAlvaro Karsz }
813f3a1675SAlvaro Karsz
snet_wait_for_data(struct snet_ctrl_regs __iomem * regs)823f3a1675SAlvaro Karsz static int snet_wait_for_data(struct snet_ctrl_regs __iomem *regs)
833f3a1675SAlvaro Karsz {
843f3a1675SAlvaro Karsz u32 val;
853f3a1675SAlvaro Karsz
863f3a1675SAlvaro Karsz return readx_poll_timeout(ioread32, ®s->ctrl, val, SNET_DATA_READY(val), 10,
873f3a1675SAlvaro Karsz SNET_CTRL_TIMEOUT);
883f3a1675SAlvaro Karsz }
893f3a1675SAlvaro Karsz
snet_read32_word(struct snet_ctrl_regs __iomem * ctrl_regs,u16 word_idx)903f3a1675SAlvaro Karsz static u32 snet_read32_word(struct snet_ctrl_regs __iomem *ctrl_regs, u16 word_idx)
913f3a1675SAlvaro Karsz {
923f3a1675SAlvaro Karsz return ioread32(&ctrl_regs->data[word_idx]);
933f3a1675SAlvaro Karsz }
943f3a1675SAlvaro Karsz
snet_read_ctrl(struct snet_ctrl_regs __iomem * ctrl_regs)953f3a1675SAlvaro Karsz static u32 snet_read_ctrl(struct snet_ctrl_regs __iomem *ctrl_regs)
963f3a1675SAlvaro Karsz {
973f3a1675SAlvaro Karsz return ioread32(&ctrl_regs->ctrl);
983f3a1675SAlvaro Karsz }
993f3a1675SAlvaro Karsz
snet_write_ctrl(struct snet_ctrl_regs __iomem * ctrl_regs,u32 val)1003f3a1675SAlvaro Karsz static void snet_write_ctrl(struct snet_ctrl_regs __iomem *ctrl_regs, u32 val)
1013f3a1675SAlvaro Karsz {
1023f3a1675SAlvaro Karsz iowrite32(val, &ctrl_regs->ctrl);
1033f3a1675SAlvaro Karsz }
1043f3a1675SAlvaro Karsz
snet_write_op(struct snet_ctrl_regs __iomem * ctrl_regs,u32 val)1053f3a1675SAlvaro Karsz static void snet_write_op(struct snet_ctrl_regs __iomem *ctrl_regs, u32 val)
1063f3a1675SAlvaro Karsz {
1073f3a1675SAlvaro Karsz iowrite32(val, &ctrl_regs->op);
1083f3a1675SAlvaro Karsz }
1093f3a1675SAlvaro Karsz
snet_wait_for_dpu_completion(struct snet_ctrl_regs __iomem * ctrl_regs)1103f3a1675SAlvaro Karsz static int snet_wait_for_dpu_completion(struct snet_ctrl_regs __iomem *ctrl_regs)
1113f3a1675SAlvaro Karsz {
1123f3a1675SAlvaro Karsz /* Wait until the DPU finishes completely.
1133f3a1675SAlvaro Karsz * It will clear the opcode register.
1143f3a1675SAlvaro Karsz */
1153f3a1675SAlvaro Karsz return snet_wait_for_empty_op(ctrl_regs);
1163f3a1675SAlvaro Karsz }
1173f3a1675SAlvaro Karsz
1183f3a1675SAlvaro Karsz /* Reading ctrl from the DPU:
1193f3a1675SAlvaro Karsz * buf_size must be 4B aligned
1203f3a1675SAlvaro Karsz *
1213f3a1675SAlvaro Karsz * Steps:
1223f3a1675SAlvaro Karsz *
1233f3a1675SAlvaro Karsz * (1) Verify that the DPU is not in the middle of another operation by
1243f3a1675SAlvaro Karsz * reading the in_process and error bits in the control register.
1253f3a1675SAlvaro Karsz * (2) Write the request opcode and the VQ idx in the opcode register
1263f3a1675SAlvaro Karsz * and write the buffer size in the control register.
1273f3a1675SAlvaro Karsz * (3) Start readind chunks of data, chunk_ready bit indicates that a
1283f3a1675SAlvaro Karsz * data chunk is available, we signal that we read the data by clearing the bit.
1293f3a1675SAlvaro Karsz * (4) Detect that the transfer is completed when the in_process bit
1303f3a1675SAlvaro Karsz * in the control register is cleared or when the an error appears.
1313f3a1675SAlvaro Karsz */
snet_ctrl_read_from_dpu(struct snet * snet,u16 opcode,u16 vq_idx,void * buffer,u32 buf_size)1323f3a1675SAlvaro Karsz static int snet_ctrl_read_from_dpu(struct snet *snet, u16 opcode, u16 vq_idx, void *buffer,
1333f3a1675SAlvaro Karsz u32 buf_size)
1343f3a1675SAlvaro Karsz {
1353f3a1675SAlvaro Karsz struct pci_dev *pdev = snet->pdev;
1363f3a1675SAlvaro Karsz struct snet_ctrl_regs __iomem *regs = snet_get_ctrl(snet);
1373f3a1675SAlvaro Karsz u32 *bfr_ptr = (u32 *)buffer;
1383f3a1675SAlvaro Karsz u32 val;
1393f3a1675SAlvaro Karsz u16 buf_words;
1403f3a1675SAlvaro Karsz int ret;
1413f3a1675SAlvaro Karsz u16 words, i, tot_words = 0;
1423f3a1675SAlvaro Karsz
1433f3a1675SAlvaro Karsz /* Supported for config 2+ */
1443f3a1675SAlvaro Karsz if (!SNET_CFG_VER(snet, 2))
1453f3a1675SAlvaro Karsz return -EOPNOTSUPP;
1463f3a1675SAlvaro Karsz
1473f3a1675SAlvaro Karsz if (!IS_ALIGNED(buf_size, 4))
1483f3a1675SAlvaro Karsz return -EINVAL;
1493f3a1675SAlvaro Karsz
1503f3a1675SAlvaro Karsz mutex_lock(&snet->ctrl_lock);
1513f3a1675SAlvaro Karsz
1523f3a1675SAlvaro Karsz buf_words = buf_size / 4;
1533f3a1675SAlvaro Karsz
1543f3a1675SAlvaro Karsz /* Make sure control register is empty */
1553f3a1675SAlvaro Karsz ret = snet_wait_for_empty_ctrl(regs);
1563f3a1675SAlvaro Karsz if (ret) {
1573f3a1675SAlvaro Karsz SNET_WARN(pdev, "Timeout waiting for previous control data to be consumed\n");
1583f3a1675SAlvaro Karsz goto exit;
1593f3a1675SAlvaro Karsz }
1603f3a1675SAlvaro Karsz
1613f3a1675SAlvaro Karsz /* We need to write the buffer size in the control register, and the opcode + vq index in
1623f3a1675SAlvaro Karsz * the opcode register.
1633f3a1675SAlvaro Karsz * We use a spinlock to serialize the writes.
1643f3a1675SAlvaro Karsz */
1653f3a1675SAlvaro Karsz spin_lock(&snet->ctrl_spinlock);
1663f3a1675SAlvaro Karsz
1673f3a1675SAlvaro Karsz snet_write_ctrl(regs, buf_words);
1683f3a1675SAlvaro Karsz snet_write_op(regs, opcode | (vq_idx << 16));
1693f3a1675SAlvaro Karsz
1703f3a1675SAlvaro Karsz spin_unlock(&snet->ctrl_spinlock);
1713f3a1675SAlvaro Karsz
1723f3a1675SAlvaro Karsz while (buf_words != tot_words) {
1733f3a1675SAlvaro Karsz ret = snet_wait_for_data(regs);
1743f3a1675SAlvaro Karsz if (ret) {
1753f3a1675SAlvaro Karsz SNET_WARN(pdev, "Timeout waiting for control data\n");
1763f3a1675SAlvaro Karsz goto exit;
1773f3a1675SAlvaro Karsz }
1783f3a1675SAlvaro Karsz
1793f3a1675SAlvaro Karsz val = snet_read_ctrl(regs);
1803f3a1675SAlvaro Karsz
1813f3a1675SAlvaro Karsz /* Error? */
1823f3a1675SAlvaro Karsz if (val & SNET_CTRL_ERROR_MASK) {
1833f3a1675SAlvaro Karsz ret = SNET_VAL_TO_ERR(val);
1843f3a1675SAlvaro Karsz SNET_WARN(pdev, "Error while reading control data from DPU, err %d\n", ret);
1853f3a1675SAlvaro Karsz goto exit;
1863f3a1675SAlvaro Karsz }
1873f3a1675SAlvaro Karsz
1883f3a1675SAlvaro Karsz words = min_t(u16, val & SNET_CTRL_DATA_SIZE_MASK, buf_words - tot_words);
1893f3a1675SAlvaro Karsz
1903f3a1675SAlvaro Karsz for (i = 0; i < words; i++) {
1913f3a1675SAlvaro Karsz *bfr_ptr = snet_read32_word(regs, i);
1923f3a1675SAlvaro Karsz bfr_ptr++;
1933f3a1675SAlvaro Karsz }
1943f3a1675SAlvaro Karsz
1953f3a1675SAlvaro Karsz tot_words += words;
1963f3a1675SAlvaro Karsz
1973f3a1675SAlvaro Karsz /* Is the job completed? */
1983f3a1675SAlvaro Karsz if (!(val & SNET_CTRL_IN_PROCESS_MASK))
1993f3a1675SAlvaro Karsz break;
2003f3a1675SAlvaro Karsz
2013f3a1675SAlvaro Karsz /* Clear the chunk ready bit and continue */
2023f3a1675SAlvaro Karsz val &= ~SNET_CTRL_CHUNK_RDY_MASK;
2033f3a1675SAlvaro Karsz snet_write_ctrl(regs, val);
2043f3a1675SAlvaro Karsz }
2053f3a1675SAlvaro Karsz
2063f3a1675SAlvaro Karsz ret = snet_wait_for_dpu_completion(regs);
2073f3a1675SAlvaro Karsz if (ret)
2083f3a1675SAlvaro Karsz SNET_WARN(pdev, "Timeout waiting for the DPU to complete a control command\n");
2093f3a1675SAlvaro Karsz
2103f3a1675SAlvaro Karsz exit:
2113f3a1675SAlvaro Karsz mutex_unlock(&snet->ctrl_lock);
2123f3a1675SAlvaro Karsz return ret;
2133f3a1675SAlvaro Karsz }
2143f3a1675SAlvaro Karsz
2153f3a1675SAlvaro Karsz /* Send a control message to the DPU using the old mechanism
2163f3a1675SAlvaro Karsz * used with config version 1.
2173f3a1675SAlvaro Karsz */
snet_send_ctrl_msg_old(struct snet * snet,u32 opcode)2183f3a1675SAlvaro Karsz static int snet_send_ctrl_msg_old(struct snet *snet, u32 opcode)
2193f3a1675SAlvaro Karsz {
2203f3a1675SAlvaro Karsz struct pci_dev *pdev = snet->pdev;
2213f3a1675SAlvaro Karsz struct snet_ctrl_regs __iomem *regs = snet_get_ctrl(snet);
2223f3a1675SAlvaro Karsz int ret;
2233f3a1675SAlvaro Karsz
2243f3a1675SAlvaro Karsz mutex_lock(&snet->ctrl_lock);
2253f3a1675SAlvaro Karsz
2263f3a1675SAlvaro Karsz /* Old mechanism uses just 1 register, the opcode register.
2273f3a1675SAlvaro Karsz * Make sure that the opcode register is empty, and that the DPU isn't
2283f3a1675SAlvaro Karsz * processing an old message.
2293f3a1675SAlvaro Karsz */
2303f3a1675SAlvaro Karsz ret = snet_wait_for_empty_op(regs);
2313f3a1675SAlvaro Karsz if (ret) {
2323f3a1675SAlvaro Karsz SNET_WARN(pdev, "Timeout waiting for previous control message to be ACKed\n");
2333f3a1675SAlvaro Karsz goto exit;
2343f3a1675SAlvaro Karsz }
2353f3a1675SAlvaro Karsz
2363f3a1675SAlvaro Karsz /* Write the message */
2373f3a1675SAlvaro Karsz snet_write_op(regs, opcode);
2383f3a1675SAlvaro Karsz
2393f3a1675SAlvaro Karsz /* DPU ACKs the message by clearing the opcode register */
2403f3a1675SAlvaro Karsz ret = snet_wait_for_empty_op(regs);
2413f3a1675SAlvaro Karsz if (ret)
2423f3a1675SAlvaro Karsz SNET_WARN(pdev, "Timeout waiting for a control message to be ACKed\n");
2433f3a1675SAlvaro Karsz
2443f3a1675SAlvaro Karsz exit:
2453f3a1675SAlvaro Karsz mutex_unlock(&snet->ctrl_lock);
2463f3a1675SAlvaro Karsz return ret;
2473f3a1675SAlvaro Karsz }
2483f3a1675SAlvaro Karsz
2493f3a1675SAlvaro Karsz /* Send a control message to the DPU.
2503f3a1675SAlvaro Karsz * A control message is a message without payload.
2513f3a1675SAlvaro Karsz */
snet_send_ctrl_msg(struct snet * snet,u16 opcode,u16 vq_idx)2523f3a1675SAlvaro Karsz static int snet_send_ctrl_msg(struct snet *snet, u16 opcode, u16 vq_idx)
2533f3a1675SAlvaro Karsz {
2543f3a1675SAlvaro Karsz struct pci_dev *pdev = snet->pdev;
2553f3a1675SAlvaro Karsz struct snet_ctrl_regs __iomem *regs = snet_get_ctrl(snet);
2563f3a1675SAlvaro Karsz u32 val;
2573f3a1675SAlvaro Karsz int ret;
2583f3a1675SAlvaro Karsz
2593f3a1675SAlvaro Karsz /* If config version is not 2+, use the old mechanism */
2603f3a1675SAlvaro Karsz if (!SNET_CFG_VER(snet, 2))
2613f3a1675SAlvaro Karsz return snet_send_ctrl_msg_old(snet, opcode);
2623f3a1675SAlvaro Karsz
2633f3a1675SAlvaro Karsz mutex_lock(&snet->ctrl_lock);
2643f3a1675SAlvaro Karsz
2653f3a1675SAlvaro Karsz /* Make sure control register is empty */
2663f3a1675SAlvaro Karsz ret = snet_wait_for_empty_ctrl(regs);
2673f3a1675SAlvaro Karsz if (ret) {
2683f3a1675SAlvaro Karsz SNET_WARN(pdev, "Timeout waiting for previous control data to be consumed\n");
2693f3a1675SAlvaro Karsz goto exit;
2703f3a1675SAlvaro Karsz }
2713f3a1675SAlvaro Karsz
2723f3a1675SAlvaro Karsz /* We need to clear the control register and write the opcode + vq index in the opcode
2733f3a1675SAlvaro Karsz * register.
2743f3a1675SAlvaro Karsz * We use a spinlock to serialize the writes.
2753f3a1675SAlvaro Karsz */
2763f3a1675SAlvaro Karsz spin_lock(&snet->ctrl_spinlock);
2773f3a1675SAlvaro Karsz
2783f3a1675SAlvaro Karsz snet_write_ctrl(regs, 0);
2793f3a1675SAlvaro Karsz snet_write_op(regs, opcode | (vq_idx << 16));
2803f3a1675SAlvaro Karsz
2813f3a1675SAlvaro Karsz spin_unlock(&snet->ctrl_spinlock);
2823f3a1675SAlvaro Karsz
2833f3a1675SAlvaro Karsz /* The DPU ACKs control messages by setting the chunk ready bit
2843f3a1675SAlvaro Karsz * without data.
2853f3a1675SAlvaro Karsz */
2863f3a1675SAlvaro Karsz ret = snet_wait_for_data(regs);
2873f3a1675SAlvaro Karsz if (ret) {
2883f3a1675SAlvaro Karsz SNET_WARN(pdev, "Timeout waiting for control message to be ACKed\n");
2893f3a1675SAlvaro Karsz goto exit;
2903f3a1675SAlvaro Karsz }
2913f3a1675SAlvaro Karsz
2923f3a1675SAlvaro Karsz /* Check for errors */
2933f3a1675SAlvaro Karsz val = snet_read_ctrl(regs);
2943f3a1675SAlvaro Karsz ret = SNET_VAL_TO_ERR(val);
2953f3a1675SAlvaro Karsz
2963f3a1675SAlvaro Karsz /* Clear the chunk ready bit */
2973f3a1675SAlvaro Karsz val &= ~SNET_CTRL_CHUNK_RDY_MASK;
2983f3a1675SAlvaro Karsz snet_write_ctrl(regs, val);
2993f3a1675SAlvaro Karsz
3003f3a1675SAlvaro Karsz ret = snet_wait_for_dpu_completion(regs);
3013f3a1675SAlvaro Karsz if (ret)
3023f3a1675SAlvaro Karsz SNET_WARN(pdev, "Timeout waiting for DPU to complete a control command, err %d\n",
3033f3a1675SAlvaro Karsz ret);
3043f3a1675SAlvaro Karsz
3053f3a1675SAlvaro Karsz exit:
3063f3a1675SAlvaro Karsz mutex_unlock(&snet->ctrl_lock);
3073f3a1675SAlvaro Karsz return ret;
3083f3a1675SAlvaro Karsz }
3093f3a1675SAlvaro Karsz
snet_ctrl_clear(struct snet * snet)3103f3a1675SAlvaro Karsz void snet_ctrl_clear(struct snet *snet)
3113f3a1675SAlvaro Karsz {
3123f3a1675SAlvaro Karsz struct snet_ctrl_regs __iomem *regs = snet_get_ctrl(snet);
3133f3a1675SAlvaro Karsz
3143f3a1675SAlvaro Karsz snet_write_op(regs, 0);
3153f3a1675SAlvaro Karsz }
3163f3a1675SAlvaro Karsz
snet_destroy_dev(struct snet * snet)3173f3a1675SAlvaro Karsz int snet_destroy_dev(struct snet *snet)
3183f3a1675SAlvaro Karsz {
3193f3a1675SAlvaro Karsz return snet_send_ctrl_msg(snet, SNET_CTRL_OP_DESTROY, 0);
3203f3a1675SAlvaro Karsz }
3213f3a1675SAlvaro Karsz
snet_read_vq_state(struct snet * snet,u16 idx,struct vdpa_vq_state * state)3223f3a1675SAlvaro Karsz int snet_read_vq_state(struct snet *snet, u16 idx, struct vdpa_vq_state *state)
3233f3a1675SAlvaro Karsz {
3243f3a1675SAlvaro Karsz return snet_ctrl_read_from_dpu(snet, SNET_CTRL_OP_READ_VQ_STATE, idx, state,
3253f3a1675SAlvaro Karsz sizeof(*state));
3263f3a1675SAlvaro Karsz }
3273616bf37SAlvaro Karsz
snet_suspend_dev(struct snet * snet)3283616bf37SAlvaro Karsz int snet_suspend_dev(struct snet *snet)
3293616bf37SAlvaro Karsz {
3303616bf37SAlvaro Karsz return snet_send_ctrl_msg(snet, SNET_CTRL_OP_SUSPEND, 0);
3313616bf37SAlvaro Karsz }
332*ef9da01cSAlvaro Karsz
snet_resume_dev(struct snet * snet)333*ef9da01cSAlvaro Karsz int snet_resume_dev(struct snet *snet)
334*ef9da01cSAlvaro Karsz {
335*ef9da01cSAlvaro Karsz return snet_send_ctrl_msg(snet, SNET_CTRL_OP_RESUME, 0);
336*ef9da01cSAlvaro Karsz }
337