numam-dpdk/drivers/net/netvsc/hn_nvs.h

/* SPDX-License-Identifier: BSD-3-Clause
 * Copyright (c) 2018 Microsoft Corp.
 * All rights reserved.
 */

/*
 * The indirection table message is the largest message
 * received from host, and that is 112 bytes.
 */
#define NVS_RESPSIZE_MAX	256

/*
 * NDIS protocol version numbers
 */
#define NDIS_VERSION_6_1		0x00060001
#define NDIS_VERSION_6_20		0x00060014
#define NDIS_VERSION_6_30		0x0006001e
#define NDIS_VERSION_MAJOR(ver)	(((ver) & 0xffff0000) >> 16)
#define NDIS_VERSION_MINOR(ver)	((ver) & 0xffff)

/*
 * NVS versions.
 */
#define NVS_VERSION_1		0x00002
#define NVS_VERSION_2		0x30002
#define NVS_VERSION_4		0x40000
#define NVS_VERSION_5		0x50000
#define NVS_VERSION_6		0x60000
#define NVS_VERSION_61		0x60001

#define NVS_RXBUF_SIG		0xcafe
#define NVS_CHIM_SIG			0xface

#define NVS_CHIM_IDX_INVALID		0xffffffff

#define NVS_RNDIS_MTYPE_DATA		0
#define NVS_RNDIS_MTYPE_CTRL		1

/*
 * NVS message transaction status codes.
 */
#define NVS_STATUS_OK		1
#define NVS_STATUS_FAILED		2

/*
 * NVS request/response message types.
 */
#define NVS_TYPE_INIT		1
#define NVS_TYPE_INIT_RESP	2

#define NVS_TYPE_NDIS_INIT	100
#define NVS_TYPE_RXBUF_CONN	101
#define NVS_TYPE_RXBUF_CONNRESP	102
#define NVS_TYPE_RXBUF_DISCONN	103
#define NVS_TYPE_CHIM_CONN	104
#define NVS_TYPE_CHIM_CONNRESP	105
#define NVS_TYPE_CHIM_DISCONN	106
#define NVS_TYPE_RNDIS		107
#define NVS_TYPE_RNDIS_ACK	108

#define NVS_TYPE_NDIS_CONF	125
#define NVS_TYPE_VFASSOC_NOTE	128	/* notification */
#define NVS_TYPE_SET_DATAPATH	129
#define NVS_TYPE_SUBCH_REQ	133
#define NVS_TYPE_SUBCH_RESP	133	/* same as SUBCH_REQ */
#define NVS_TYPE_TXTBL_NOTE	134	/* notification */


/* NVS message common header */
struct hn_nvs_hdr {
	uint32_t	type;
} __rte_packed;

struct hn_nvs_init {
	uint32_t	type;	/* NVS_TYPE_INIT */
	uint32_t	ver_min;
	uint32_t	ver_max;
	uint8_t		rsvd[28];
} __rte_packed;

struct hn_nvs_init_resp {
	uint32_t	type;	/* NVS_TYPE_INIT_RESP */
	uint32_t	ver;	/* deprecated */
	uint32_t	rsvd;
	uint32_t	status;	/* NVS_STATUS_ */
} __rte_packed;

/* No response */
struct hn_nvs_ndis_conf {
	uint32_t	type;	/* NVS_TYPE_NDIS_CONF */
	uint32_t	mtu;
	uint32_t	rsvd;
	uint64_t	caps;	/* NVS_NDIS_CONF_ */
	uint8_t		rsvd1[20];
} __rte_packed;

#define NVS_NDIS_CONF_SRIOV		0x0004
#define NVS_NDIS_CONF_VLAN		0x0008

/* No response */
struct hn_nvs_ndis_init {
	uint32_t	type;	/* NVS_TYPE_NDIS_INIT */
	uint32_t	ndis_major;	/* NDIS_VERSION_MAJOR_ */
	uint32_t	ndis_minor;	/* NDIS_VERSION_MINOR_ */
	uint8_t		rsvd[28];
} __rte_packed;

struct hn_nvs_vf_association {
	uint32_t	type;	/* NVS_TYPE_VFASSOC_NOTE */
	uint32_t	allocated;
	uint32_t	serial;
} __rte_packed;

#define NVS_DATAPATH_SYNTHETIC	0
#define NVS_DATAPATH_VF		1

/* No response */
struct hn_nvs_datapath {
	uint32_t	type;	/* NVS_TYPE_SET_DATAPATH */
	uint32_t	active_path;/* NVS_DATAPATH_* */
	uint8_t		rsvd[32];
} __rte_packed;

struct hn_nvs_rxbuf_conn {
	uint32_t	type;	/* NVS_TYPE_RXBUF_CONN */
	uint32_t	gpadl;	/* RXBUF vmbus GPADL */
	uint16_t	sig;	/* NVS_RXBUF_SIG */
	uint8_t		rsvd[30];
} __rte_packed;

struct hn_nvs_rxbuf_sect {
	uint32_t	start;
	uint32_t	slotsz;
	uint32_t	slotcnt;
	uint32_t	end;
} __rte_packed;

struct hn_nvs_rxbuf_connresp {
	uint32_t	type;	/* NVS_TYPE_RXBUF_CONNRESP */
	uint32_t	status;	/* NVS_STATUS_ */
	uint32_t	nsect;	/* # of elem in nvs_sect */
	struct hn_nvs_rxbuf_sect nvs_sect[1];
} __rte_packed;

/* No response */
struct hn_nvs_rxbuf_disconn {
	uint32_t	type;	/* NVS_TYPE_RXBUF_DISCONN */
	uint16_t	sig;	/* NVS_RXBUF_SIG */
	uint8_t		rsvd[34];
} __rte_packed;

struct hn_nvs_chim_conn {
	uint32_t	type;	/* NVS_TYPE_CHIM_CONN */
	uint32_t	gpadl;	/* chimney buf vmbus GPADL */
	uint16_t	sig;	/* NDIS_NVS_CHIM_SIG */
	uint8_t		rsvd[30];
} __rte_packed;

struct hn_nvs_chim_connresp {
	uint32_t	type;	/* NVS_TYPE_CHIM_CONNRESP */
	uint32_t	status;	/* NVS_STATUS_ */
	uint32_t	sectsz;	/* section size */
} __rte_packed;

/* No response */
struct hn_nvs_chim_disconn {
	uint32_t	type;	/* NVS_TYPE_CHIM_DISCONN */
	uint16_t	sig;	/* NVS_CHIM_SIG */
	uint8_t		rsvd[34];
} __rte_packed;

#define NVS_SUBCH_OP_ALLOC		1

struct hn_nvs_subch_req {
	uint32_t	type;	/* NVS_TYPE_SUBCH_REQ */
	uint32_t	op;	/* NVS_SUBCH_OP_ */
	uint32_t	nsubch;
	uint8_t		rsvd[28];
} __rte_packed;

struct hn_nvs_subch_resp {
	uint32_t	type;	/* NVS_TYPE_SUBCH_RESP */
	uint32_t	status;	/* NVS_STATUS_ */
	uint32_t	nsubch;
	uint8_t		rsvd[28];
} __rte_packed;

struct hn_nvs_rndis {
	uint32_t	type;	/* NVS_TYPE_RNDIS */
	uint32_t	rndis_mtype;/* NVS_RNDIS_MTYPE_ */
	/*
	 * Chimney sending buffer index and size.
	 *
	 * NOTE:
	 * If nvs_chim_idx is set to NVS_CHIM_IDX_INVALID
	 * and nvs_chim_sz is set to 0, then chimney sending
	 * buffer is _not_ used by this RNDIS message.
	 */
	uint32_t	chim_idx;
	uint32_t	chim_sz;
	uint8_t		rsvd[24];
} __rte_packed;

struct hn_nvs_rndis_ack {
	uint32_t	type;	/* NVS_TYPE_RNDIS_ACK */
	uint32_t	status;	/* NVS_STATUS_ */
	uint8_t		rsvd[32];
} __rte_packed;


int	hn_nvs_attach(struct hn_data *hv, unsigned int mtu);
void	hn_nvs_detach(struct hn_data *hv);
void	hn_nvs_ack_rxbuf(struct vmbus_channel *chan, uint64_t tid);
int	hn_nvs_alloc_subchans(struct hn_data *hv, uint32_t *nsubch);
int	hn_nvs_set_datapath(struct hn_data *hv, uint32_t path);
void	hn_nvs_handle_vfassoc(struct rte_eth_dev *dev,
			      const struct vmbus_chanpkt_hdr *hdr,
			      const void *data);

static inline int
hn_nvs_send(struct vmbus_channel *chan, uint16_t flags,
	    void *nvs_msg, int nvs_msglen, uintptr_t sndc,
	    bool *need_sig)
{
	return rte_vmbus_chan_send(chan, VMBUS_CHANPKT_TYPE_INBAND,
				   nvs_msg, nvs_msglen, (uint64_t)sndc,
				   flags, need_sig);
}

static inline int
hn_nvs_send_sglist(struct vmbus_channel *chan,
		   struct vmbus_gpa sg[], unsigned int sglen,
		   void *nvs_msg, int nvs_msglen,
		   uintptr_t sndc, bool *need_sig)
{
	return rte_vmbus_chan_send_sglist(chan, sg, sglen, nvs_msg, nvs_msglen,
					  (uint64_t)sndc, need_sig);
}
net/netvsc: add Hyper-V network device The driver supports Hyper-V networking directly like virtio for KVM or vmxnet3 for VMware. This code is based off of the FreeBSD driver. The file and variable names are kept the same to help with understanding (with most of the BSD style warts removed). This version supports the latest NetVSP 6.1 version and older versions. Signed-off-by: Haiyang Zhang <haiyangz@microsoft.com> Signed-off-by: Stephen Hemminger <sthemmin@microsoft.com> 2018-07-13 17:06:43 +00:00			`/* SPDX-License-Identifier: BSD-3-Clause`
			`* Copyright (c) 2018 Microsoft Corp.`
			`* All rights reserved.`
			`*/`

			`/*`
			`* The indirection table message is the largest message`
			`* received from host, and that is 112 bytes.`
			`*/`
			`#define NVS_RESPSIZE_MAX 256`

			`/*`
			`* NDIS protocol version numbers`
			`*/`
			`#define NDIS_VERSION_6_1 0x00060001`
			`#define NDIS_VERSION_6_20 0x00060014`
			`#define NDIS_VERSION_6_30 0x0006001e`
			`#define NDIS_VERSION_MAJOR(ver) (((ver) & 0xffff0000) >> 16)`
			`#define NDIS_VERSION_MINOR(ver) ((ver) & 0xffff)`

			`/*`
			`* NVS versions.`
			`*/`
			`#define NVS_VERSION_1 0x00002`
			`#define NVS_VERSION_2 0x30002`
			`#define NVS_VERSION_4 0x40000`
			`#define NVS_VERSION_5 0x50000`
			`#define NVS_VERSION_6 0x60000`
			`#define NVS_VERSION_61 0x60001`

			`#define NVS_RXBUF_SIG 0xcafe`
			`#define NVS_CHIM_SIG 0xface`

			`#define NVS_CHIM_IDX_INVALID 0xffffffff`

			`#define NVS_RNDIS_MTYPE_DATA 0`
			`#define NVS_RNDIS_MTYPE_CTRL 1`

			`/*`
net/netvsc: fix comment spelling No code change here. Signed-off-by: Stephen Hemminger <stephen@networkplumber.org> 2020-04-30 19:08:47 +00:00			`* NVS message transaction status codes.`
net/netvsc: add Hyper-V network device The driver supports Hyper-V networking directly like virtio for KVM or vmxnet3 for VMware. This code is based off of the FreeBSD driver. The file and variable names are kept the same to help with understanding (with most of the BSD style warts removed). This version supports the latest NetVSP 6.1 version and older versions. Signed-off-by: Haiyang Zhang <haiyangz@microsoft.com> Signed-off-by: Stephen Hemminger <sthemmin@microsoft.com> 2018-07-13 17:06:43 +00:00			`*/`
			`#define NVS_STATUS_OK 1`
			`#define NVS_STATUS_FAILED 2`

			`/*`
			`* NVS request/response message types.`
			`*/`
			`#define NVS_TYPE_INIT 1`
			`#define NVS_TYPE_INIT_RESP 2`

			`#define NVS_TYPE_NDIS_INIT 100`
			`#define NVS_TYPE_RXBUF_CONN 101`
			`#define NVS_TYPE_RXBUF_CONNRESP 102`
			`#define NVS_TYPE_RXBUF_DISCONN 103`
			`#define NVS_TYPE_CHIM_CONN 104`
			`#define NVS_TYPE_CHIM_CONNRESP 105`
			`#define NVS_TYPE_CHIM_DISCONN 106`
			`#define NVS_TYPE_RNDIS 107`
			`#define NVS_TYPE_RNDIS_ACK 108`

			`#define NVS_TYPE_NDIS_CONF 125`
			`#define NVS_TYPE_VFASSOC_NOTE 128 /* notification */`
			`#define NVS_TYPE_SET_DATAPATH 129`
			`#define NVS_TYPE_SUBCH_REQ 133`
			`#define NVS_TYPE_SUBCH_RESP 133 /* same as SUBCH_REQ */`
			`#define NVS_TYPE_TXTBL_NOTE 134 /* notification */`


			`/* NVS message common header */`
			`struct hn_nvs_hdr {`
			`uint32_t type;`
			`} __rte_packed;`

			`struct hn_nvs_init {`
			`uint32_t type; /* NVS_TYPE_INIT */`
			`uint32_t ver_min;`
			`uint32_t ver_max;`
			`uint8_t rsvd[28];`
			`} __rte_packed;`

			`struct hn_nvs_init_resp {`
			`uint32_t type; /* NVS_TYPE_INIT_RESP */`
			`uint32_t ver; /* deprecated */`
			`uint32_t rsvd;`
			`uint32_t status; /* NVS_STATUS_ */`
			`} __rte_packed;`

			`/* No response */`
			`struct hn_nvs_ndis_conf {`
			`uint32_t type; /* NVS_TYPE_NDIS_CONF */`
			`uint32_t mtu;`
			`uint32_t rsvd;`
			`uint64_t caps; /* NVS_NDIS_CONF_ */`
			`uint8_t rsvd1[20];`
			`} __rte_packed;`

			`#define NVS_NDIS_CONF_SRIOV 0x0004`
			`#define NVS_NDIS_CONF_VLAN 0x0008`

			`/* No response */`
			`struct hn_nvs_ndis_init {`
			`uint32_t type; /* NVS_TYPE_NDIS_INIT */`
			`uint32_t ndis_major; /* NDIS_VERSION_MAJOR_ */`
			`uint32_t ndis_minor; /* NDIS_VERSION_MINOR_ */`
			`uint8_t rsvd[28];`
			`} __rte_packed;`

net/netvsc: support integrated VF Integrate accelerated networking support into netvsc PMD. This allows netvsc to manage VF without using failsafe or vdev_netvsc. For the exception vswitch path some tests like transmit get a 22% increase in packets/sec. For the VF path, the code is slightly shorter but has no real change in performance. Pro: * using netvsc is more like other DPDK NIC's * the exception packet uses less CPU * much smaller code size * no locking required on VF transmit/receive path * no legacy Linux network device to get mangled by userspace * much simpler (1K vs 9K) LOC * unified extended statistics Con: * using netvsc has more complex startup model * no bifurcated driver support * no flow support (since host does not have flow API). * no tunnel offload support * no receive interrupt support Signed-off-by: Stephen Hemminger <sthemmin@microsoft.com> 2018-08-30 22:35:12 +00:00			`struct hn_nvs_vf_association {`
			`uint32_t type; /* NVS_TYPE_VFASSOC_NOTE */`
			`uint32_t allocated;`
			`uint32_t serial;`
			`} __rte_packed;`

net/netvsc: add Hyper-V network device The driver supports Hyper-V networking directly like virtio for KVM or vmxnet3 for VMware. This code is based off of the FreeBSD driver. The file and variable names are kept the same to help with understanding (with most of the BSD style warts removed). This version supports the latest NetVSP 6.1 version and older versions. Signed-off-by: Haiyang Zhang <haiyangz@microsoft.com> Signed-off-by: Stephen Hemminger <sthemmin@microsoft.com> 2018-07-13 17:06:43 +00:00			`#define NVS_DATAPATH_SYNTHETIC 0`
			`#define NVS_DATAPATH_VF 1`

			`/* No response */`
			`struct hn_nvs_datapath {`
			`uint32_t type; /* NVS_TYPE_SET_DATAPATH */`
			`uint32_t active_path;/* NVS_DATAPATH_* */`
			`uint8_t rsvd[32];`
			`} __rte_packed;`

			`struct hn_nvs_rxbuf_conn {`
			`uint32_t type; /* NVS_TYPE_RXBUF_CONN */`
			`uint32_t gpadl; /* RXBUF vmbus GPADL */`
			`uint16_t sig; /* NVS_RXBUF_SIG */`
			`uint8_t rsvd[30];`
			`} __rte_packed;`

			`struct hn_nvs_rxbuf_sect {`
			`uint32_t start;`
			`uint32_t slotsz;`
			`uint32_t slotcnt;`
			`uint32_t end;`
			`} __rte_packed;`

			`struct hn_nvs_rxbuf_connresp {`
			`uint32_t type; /* NVS_TYPE_RXBUF_CONNRESP */`
			`uint32_t status; /* NVS_STATUS_ */`
			`uint32_t nsect; /* # of elem in nvs_sect */`
			`struct hn_nvs_rxbuf_sect nvs_sect[1];`
			`} __rte_packed;`

			`/* No response */`
			`struct hn_nvs_rxbuf_disconn {`
			`uint32_t type; /* NVS_TYPE_RXBUF_DISCONN */`
			`uint16_t sig; /* NVS_RXBUF_SIG */`
			`uint8_t rsvd[34];`
			`} __rte_packed;`

			`struct hn_nvs_chim_conn {`
			`uint32_t type; /* NVS_TYPE_CHIM_CONN */`
			`uint32_t gpadl; /* chimney buf vmbus GPADL */`
			`uint16_t sig; /* NDIS_NVS_CHIM_SIG */`
			`uint8_t rsvd[30];`
			`} __rte_packed;`

			`struct hn_nvs_chim_connresp {`
			`uint32_t type; /* NVS_TYPE_CHIM_CONNRESP */`
			`uint32_t status; /* NVS_STATUS_ */`
			`uint32_t sectsz; /* section size */`
			`} __rte_packed;`

			`/* No response */`
			`struct hn_nvs_chim_disconn {`
			`uint32_t type; /* NVS_TYPE_CHIM_DISCONN */`
			`uint16_t sig; /* NVS_CHIM_SIG */`
			`uint8_t rsvd[34];`
			`} __rte_packed;`

			`#define NVS_SUBCH_OP_ALLOC 1`

			`struct hn_nvs_subch_req {`
			`uint32_t type; /* NVS_TYPE_SUBCH_REQ */`
			`uint32_t op; /* NVS_SUBCH_OP_ */`
			`uint32_t nsubch;`
			`uint8_t rsvd[28];`
			`} __rte_packed;`

			`struct hn_nvs_subch_resp {`
			`uint32_t type; /* NVS_TYPE_SUBCH_RESP */`
			`uint32_t status; /* NVS_STATUS_ */`
			`uint32_t nsubch;`
			`uint8_t rsvd[28];`
			`} __rte_packed;`

			`struct hn_nvs_rndis {`
			`uint32_t type; /* NVS_TYPE_RNDIS */`
			`uint32_t rndis_mtype;/* NVS_RNDIS_MTYPE_ */`
			`/*`
			`* Chimney sending buffer index and size.`
			`*`
			`* NOTE:`
			`* If nvs_chim_idx is set to NVS_CHIM_IDX_INVALID`
			`* and nvs_chim_sz is set to 0, then chimney sending`
			`* buffer is _not_ used by this RNDIS message.`
			`*/`
			`uint32_t chim_idx;`
			`uint32_t chim_sz;`
			`uint8_t rsvd[24];`
			`} __rte_packed;`

			`struct hn_nvs_rndis_ack {`
			`uint32_t type; /* NVS_TYPE_RNDIS_ACK */`
			`uint32_t status; /* NVS_STATUS_ */`
			`uint8_t rsvd[32];`
			`} __rte_packed;`


			`int hn_nvs_attach(struct hn_data *hv, unsigned int mtu);`
			`void hn_nvs_detach(struct hn_data *hv);`
			`void hn_nvs_ack_rxbuf(struct vmbus_channel *chan, uint64_t tid);`
			`int hn_nvs_alloc_subchans(struct hn_data hv, uint32_t nsubch);`
net/netvsc: support VF device hot add/remove When a VF device is present, netvsc can send or receive packets over the VF device. The VF device driver communicates directly with the PCI device via the PF from the host hypervisor. This is faster than exchanging data with netvsp via vmbus, i.e. syntheic path. In Azure and Hyper-v environments, VF device can be hot added or hot removed at anytime while guest VM is running. This patch improves netvsc to support VF device hot add/remove. 1. netvsc monitors all system hot add activities over the PCI bus. When it detects a VF device is added to the system and is managed under this netvsc device, it asks EAL to probe and start this VF device, then it attaches and switches data path to the VF device. 2. After a VF device is attached to netvsc, netvsc monitors this device on hot remove. When this VF device is hot removed, netvsc switches data path to synthetic, stops this VF device and removes it from EAL. 3. If any failure happens during a VF device hot remove or add, the netvsc falls back to synthetic path for all data traffic. Signed-off-by: Long Li <longli@microsoft.com> 2020-12-21 21:33:22 +00:00			`int hn_nvs_set_datapath(struct hn_data *hv, uint32_t path);`
net/netvsc: support integrated VF Integrate accelerated networking support into netvsc PMD. This allows netvsc to manage VF without using failsafe or vdev_netvsc. For the exception vswitch path some tests like transmit get a 22% increase in packets/sec. For the VF path, the code is slightly shorter but has no real change in performance. Pro: * using netvsc is more like other DPDK NIC's * the exception packet uses less CPU * much smaller code size * no locking required on VF transmit/receive path * no legacy Linux network device to get mangled by userspace * much simpler (1K vs 9K) LOC * unified extended statistics Con: * using netvsc has more complex startup model * no bifurcated driver support * no flow support (since host does not have flow API). * no tunnel offload support * no receive interrupt support Signed-off-by: Stephen Hemminger <sthemmin@microsoft.com> 2018-08-30 22:35:12 +00:00			`void hn_nvs_handle_vfassoc(struct rte_eth_dev *dev,`
			`const struct vmbus_chanpkt_hdr *hdr,`
			`const void *data);`
net/netvsc: add Hyper-V network device The driver supports Hyper-V networking directly like virtio for KVM or vmxnet3 for VMware. This code is based off of the FreeBSD driver. The file and variable names are kept the same to help with understanding (with most of the BSD style warts removed). This version supports the latest NetVSP 6.1 version and older versions. Signed-off-by: Haiyang Zhang <haiyangz@microsoft.com> Signed-off-by: Stephen Hemminger <sthemmin@microsoft.com> 2018-07-13 17:06:43 +00:00
			`static inline int`
			`hn_nvs_send(struct vmbus_channel *chan, uint16_t flags,`
			`void *nvs_msg, int nvs_msglen, uintptr_t sndc,`
			`bool *need_sig)`
			`{`
			`return rte_vmbus_chan_send(chan, VMBUS_CHANPKT_TYPE_INBAND,`
			`nvs_msg, nvs_msglen, (uint64_t)sndc,`
			`flags, need_sig);`
			`}`

			`static inline int`
			`hn_nvs_send_sglist(struct vmbus_channel *chan,`
			`struct vmbus_gpa sg[], unsigned int sglen,`
			`void *nvs_msg, int nvs_msglen,`
			`uintptr_t sndc, bool *need_sig)`
			`{`
			`return rte_vmbus_chan_send_sglist(chan, sg, sglen, nvs_msg, nvs_msglen,`
			`(uint64_t)sndc, need_sig);`
			`}`