drivers/serial/uart_hostlink.c - third_party/github/zephyrproject-rtos/zephyr - Git at Google

 /*
  * Copyright (c) 2023 Synopsys Inc. All rights reserved.
  *
  * SPDX-License-Identifier: Apache-2.0
  */

 #include <zephyr/drivers/uart.h>
 #include <zephyr/kernel.h>
 #include <string.h>

 #define DT_DRV_COMPAT snps_hostlink_uart

 /* Only supported by HW and nSIM targets */
 BUILD_ASSERT(!IS_ENABLED(CONFIG_QEMU_TARGET));
 /* Only supported by ARC targets */
 BUILD_ASSERT(IS_ENABLED(CONFIG_ARC));

 #define HL_SYSCALL_OPEN		0
 #define HL_SYSCALL_CLOSE	1
 #define HL_SYSCALL_READ		2
 #define HL_SYSCALL_WRITE	3
 #define HL_SYSCALL_LSEEK	4
 #define HL_SYSCALL_UNLINK	5
 #define HL_SYSCALL_ISATTY	6
 #define HL_SYSCALL_TMPNAM	7
 #define HL_SYSCALL_GETENV	8
 #define HL_SYSCALL_CLOCK	9
 #define HL_SYSCALL_TIME		10
 #define HL_SYSCALL_RENAME	11
 #define HL_SYSCALL_ARGC		12
 #define HL_SYSCALL_ARGV		13
 #define HL_SYSCALL_RETCODE	14
 #define HL_SYSCALL_ACCESS	15
 #define HL_SYSCALL_GETPID	16
 #define HL_SYSCALL_GETCWD	17
 #define HL_SYSCALL_USER		18

 #ifndef __noinline
 #define __noinline __attribute__((noinline))
 #endif /* __noinline */

 #define HL_VERSION 1

 /* "No message here" mark.  */
 #define HL_NOADDRESS 0xFFFFFFFF

 /* TODO: if we want to carve some additional space we can use the actual maximum processor cache
  * line size here (i.e 128)
  */
 #define HL_MAX_DCACHE_LINE 256

 /* Hostlink gateway structure.  */
 struct hl_hdr {
 	uint32_t version;		/* Current version is 1.  */
 	uint32_t target2host_addr;	/* Packet address from target to host.  */
 	uint32_t host2target_addr;	/* Packet address from host to target.  */
 	uint32_t buf_addr;		/* Address for host to write answer.  */
 	uint32_t payload_size;		/* Buffer size without packet header.  */
 	uint32_t options;		/* For future use.  */
 	uint32_t break_to_mon_addr;	/* For future use.  */
 } __packed;

 /* Hostlink packet header.  */
 struct hl_pkt_hdr {
 	uint32_t packet_id;	/* Packet id.  Always set to 1 here.  */
 	uint32_t total_size;	/* Size of packet including header.  */
 	uint32_t priority;	/* For future use.  */
 	uint32_t type;		/* For future use.  */
 	uint32_t checksum;	/* For future use.  */
 } __packed;

 struct hl_packed_int {
 	volatile uint16_t type;
 	volatile uint16_t size;
 	volatile int32_t value;
 } __packed;

 struct hl_packed_short_buff {
 	volatile uint16_t type;
 	volatile uint16_t size;
 	volatile uint8_t payload_short[4];
 } __packed;

 BUILD_ASSERT(sizeof(struct hl_packed_int) == sizeof(struct hl_packed_short_buff));

 struct hl_pkt_write_char_put {
 	struct hl_packed_int syscall_nr;
 	struct hl_packed_int fd;
 	struct hl_packed_short_buff buff;
 	struct hl_packed_int nbyte;
 } __packed;

 struct hl_pkt_write_char_get {
 	struct hl_packed_int byte_written;
 	struct hl_packed_int host_errno;
 } __packed;

 #define MAX_PKT_SZ MAX(sizeof(struct hl_pkt_write_char_put), sizeof(struct hl_pkt_write_char_get))
 #define HL_HEADERS_SZ (sizeof(struct hl_hdr) + sizeof(struct hl_pkt_hdr))
 BUILD_ASSERT(HL_HEADERS_SZ + MAX_PKT_SZ < HL_MAX_DCACHE_LINE);

 union payload_u {
 	struct hl_pkt_write_char_put pkt_write_char_put;
 	struct hl_pkt_write_char_get pkt_write_char_get;
 	char reserved[HL_MAX_DCACHE_LINE - HL_HEADERS_SZ];
 } __packed;

 BUILD_ASSERT(sizeof(union payload_u) % 4 == 0);

 /* Main hostlink structure.  */
 struct hl {
 	/* General hostlink information.  */
 	volatile struct hl_hdr hdr;
 	/* Start of the hostlink buffer.  */
 	volatile struct hl_pkt_hdr pkt_hdr;
 	/* Payload buffer */
 	volatile union payload_u payload;
 } __aligned(HL_MAX_DCACHE_LINE) __packed;

 /* In general we must exactly fit into one or multiple cache lines as we shouldn't share hostlink
  * buffer (which is uncached) with any cached data
  */
 BUILD_ASSERT(sizeof(struct hl) % HL_MAX_DCACHE_LINE == 0);
 /* However, with current supported functionality we fit into one MAX cache line. If we add
  * some features which require bigger payload buffer this might become not true.
  */
 BUILD_ASSERT(sizeof(struct hl) == HL_MAX_DCACHE_LINE);

 /* Main structure. Do not rename as nSIM simulator / MDB debugger looks for the '__HOSTLINK__'
  * symbol. We need to keep it initialized so it won't be put into BSS (so we won't write with
  * regular cached access in it).
  */
 volatile struct hl __HOSTLINK__ = {
 	.hdr = {
 		.version = HL_VERSION,
 		.target2host_addr = HL_NOADDRESS
 	}
 };

 BUILD_ASSERT(sizeof(__HOSTLINK__) % HL_MAX_DCACHE_LINE == 0);

 #if defined(__CCAC__)
 #define HL_HAS_C_ACCESSORS 0
 #elif defined(CONFIG_ISA_ARCV3)
 #define HL_HAS_C_ACCESSORS 0
 #else
 #define HL_HAS_C_ACCESSORS 1
 #endif

 #if HL_HAS_C_ACCESSORS

 #ifndef __uncached
 #define __uncached __attribute__((uncached))
 #endif /* __uncached */

 static inline void hl_write32(volatile void *addr, uint32_t val)
 {
 	*(volatile __uncached uint32_t *)addr = val;
 }

 static inline void hl_write16(volatile void *addr, uint16_t val)
 {
 	*(volatile __uncached uint16_t *)addr = val;
 }

 static inline void hl_write8(volatile void *addr, uint8_t val)
 {
 	*(volatile __uncached uint8_t *)addr = val;
 }

 static inline uint32_t hl_read32(volatile void *addr)
 {
 	return *(volatile __uncached uint32_t *)addr;
 }

 static inline uint16_t hl_read16(volatile void *addr)
 {
 	return *(volatile __uncached uint16_t *)addr;
 }
 #else
 static inline void hl_write32(volatile void *addr, uint32_t val)
 {
 	__asm__ __volatile__("st.di %0, [%1]" :: "r" (val), "r" (addr) : "memory");
 }

 static inline void hl_write16(volatile void *addr, uint16_t val)
 {
 	__asm__ __volatile__("stb.di %0, [%1]" :: "r" (val), "r" (addr) : "memory");
 }

 static inline void hl_write8(volatile void *addr, uint8_t val)
 {
 	__asm__ __volatile__("sth.di %0, [%1]" :: "r" (val), "r" (addr) : "memory");
 }

 static inline uint32_t hl_read32(volatile void *addr)
 {
 	uint32_t w;

 	__asm__ __volatile__("ld.di %0, [%1]" : "=r" (w) : "r" (addr) : "memory");

 	return w;
 }

 static inline uint16_t hl_read16(volatile void *addr)
 {
 	uint16_t w;

 	__asm__ __volatile__("ld.di %0, [%1]" : "=r" (w) : "r" (addr) : "memory");

 	return w;
 }
 #endif /* HL_HAS_C_ACCESSORS */

 /* Get hostlink payload size (iochunk + reserved space).  */
 static uint32_t hl_payload_size(void)
 {
 	return sizeof(__HOSTLINK__.payload);
 }

 #define ALIGN(x, y) (((x) + ((y) - 1)) & ~((y) - 1))

 /* Fill hostlink packet header.  */
 static void hl_pkt_init(volatile struct hl_pkt_hdr *pkt, int size)
 {
 	hl_write32(&pkt->packet_id, 1);
 	hl_write32(&pkt->total_size, ALIGN(size, 4) + sizeof(struct hl_pkt_hdr));
 	hl_write32(&pkt->priority, 0);
 	hl_write32(&pkt->type, 0);
 	hl_write32(&pkt->checksum, 0);
 }

 /* Send hostlink packet to the host.  */
 static void hl_static_send(size_t payload_used)
 {
 	/* We are OK to cast pointer to uint32_t even on 64bit platforms as we support to build
 	 * Zephyr on ARCv3 64bit only to lower 4GiB. Still we need to cast via uintptr_t to avoid
 	 * compiler warnings.
 	 */
 	uint32_t buf_addr = (uint32_t)(uintptr_t)(&__HOSTLINK__.pkt_hdr);

 	hl_pkt_init(&__HOSTLINK__.pkt_hdr, payload_used);

 	hl_write32(&__HOSTLINK__.hdr.buf_addr, buf_addr);
 	hl_write32(&__HOSTLINK__.hdr.payload_size, hl_payload_size());
 	hl_write32(&__HOSTLINK__.hdr.host2target_addr, HL_NOADDRESS);
 	hl_write32(&__HOSTLINK__.hdr.version, HL_VERSION);
 	hl_write32(&__HOSTLINK__.hdr.options, 0);
 	hl_write32(&__HOSTLINK__.hdr.break_to_mon_addr, 0);

 	compiler_barrier();

 	/* This tells the debugger we have a command.
 	 * It is responsibility of debugger to set this back to HL_NOADDRESS
 	 * after receiving the packet.
 	 * Please note that we don't wait here because some implementations
 	 * use hl_blockedPeek() function as a signal that we send a messege.
 	 */
 	hl_write32(&__HOSTLINK__.hdr.target2host_addr, buf_addr);

 	compiler_barrier();
 }

 /*
  * Wait for host response and return pointer to hostlink payload.
  * Symbol hl_blockedPeek() is used by the simulator as message signal.
  */
 static void __noinline _hl_blockedPeek(void)
 {
 	while (hl_read32(&__HOSTLINK__.hdr.host2target_addr) == HL_NOADDRESS) {
 		/* TODO: Timeout.  */
 	}
 }

 static void hl_static_recv(void)
 {
 	compiler_barrier();
 	_hl_blockedPeek();
 	compiler_barrier();
 }

 /* Mark hostlink buffer as "No message here".  */
 static void hl_delete(void)
 {
 	hl_write32(&__HOSTLINK__.hdr.target2host_addr, HL_NOADDRESS);
 }

 /* Parameter types.  */
 #define PAT_CHAR	1
 #define PAT_SHORT	2
 #define PAT_INT		3
 #define PAT_STRING	4
 /* For future use.  */
 #define PAT_INT64	5

 static void hl_static_pack_int(volatile struct hl_packed_int *pack, int32_t value)
 {
 	hl_write16(&pack->type, PAT_INT);
 	hl_write16(&pack->size, 4);
 	hl_write32(&pack->value, value);
 }

 static void hl_static_pack_char(volatile struct hl_packed_short_buff *pack, unsigned char c)
 {
 	hl_write16(&pack->type, PAT_STRING);
 	hl_write16(&pack->size, 1);
 	hl_write8(&pack->payload_short, c);
 }

 static int hl_static_unpack_int(volatile struct hl_packed_int *pack, int32_t *value)
 {
 	uint16_t type = hl_read16(&pack->type);
 	uint16_t size = hl_read16(&pack->size);

 	if (type != PAT_INT) {
 		return -1;
 	}

 	if (size != 4)  {
 		return -1;
 	}

 	*value = hl_read32(&pack->value);

 	return 0;
 }

 static inline int32_t hl_write_char(int fd, const char c)
 {
 	/*
 	 * Format:
 	 * in, int -> syscall (HL_SYSCALL_WRITE)
 	 * in, int -> file descriptor
 	 * in, ptr -> buffer
 	 * in, int -> bytes number
 	 * out, int -> bytes written
 	 * out, int, host errno
 	 */

 	hl_static_pack_int(&__HOSTLINK__.payload.pkt_write_char_put.syscall_nr, HL_SYSCALL_WRITE);

 	hl_static_pack_int(&__HOSTLINK__.payload.pkt_write_char_put.fd, fd);

 	hl_static_pack_char(&__HOSTLINK__.payload.pkt_write_char_put.buff, c);

 	hl_static_pack_int(&__HOSTLINK__.payload.pkt_write_char_put.nbyte, 1);

 	hl_static_send(sizeof(struct hl_pkt_write_char_put));
 	hl_static_recv();

 	int32_t bwr = 0;
 	int ret = hl_static_unpack_int(&__HOSTLINK__.payload.pkt_write_char_get.byte_written, &bwr);

 	/* we can get host errno here with:
 	 * hl_static_unpack_int(&__HOSTLINK__.pkt_write_char_get.host_errno, &host_errno);
 	 * but we don't need it for UART emulation.
 	 */

 	if (bwr <= 0) {
 		ret = -1;
 	}

 	hl_delete();

 	return ret;
 }

 /**
  * @brief Poll the device for input.
  *
  * @param dev UART device struct
  * @param c Pointer to character
  *
  * @return 0 if a character arrived, -1 if the input buffer if empty.
  */
 static int uart_hostlink_poll_in(const struct device *dev, unsigned char *c)
 {
 	ARG_UNUSED(dev);

 	/* We plan to use hostlink for logging, so no much sense in poll_in implementation */
 	return -1;
 }

 /**
  * @brief Output a character in polled mode.
  *
  * @param dev UART device struct
  * @param c Character to send
  */
 static void uart_hostlink_poll_out(const struct device *dev, unsigned char c)
 {
 	ARG_UNUSED(dev);

 	hl_write_char(1, c);
 }

 static const struct uart_driver_api uart_hostlink_driver_api = {
 	.poll_in = uart_hostlink_poll_in,
 	.poll_out = uart_hostlink_poll_out,
 };

 DEVICE_DT_DEFINE(DT_NODELABEL(hostlink), NULL, NULL, NULL, NULL, PRE_KERNEL_1,
 		 CONFIG_SERIAL_INIT_PRIORITY, &uart_hostlink_driver_api);
	/*
	* Copyright (c) 2023 Synopsys Inc. All rights reserved.
	*
	* SPDX-License-Identifier: Apache-2.0
	*/

	#include <zephyr/drivers/uart.h>
	#include <zephyr/kernel.h>
	#include <string.h>

	#define DT_DRV_COMPAT snps_hostlink_uart

	/* Only supported by HW and nSIM targets */
	BUILD_ASSERT(!IS_ENABLED(CONFIG_QEMU_TARGET));
	/* Only supported by ARC targets */
	BUILD_ASSERT(IS_ENABLED(CONFIG_ARC));

	#define HL_SYSCALL_OPEN 0
	#define HL_SYSCALL_CLOSE 1
	#define HL_SYSCALL_READ 2
	#define HL_SYSCALL_WRITE 3
	#define HL_SYSCALL_LSEEK 4
	#define HL_SYSCALL_UNLINK 5
	#define HL_SYSCALL_ISATTY 6
	#define HL_SYSCALL_TMPNAM 7
	#define HL_SYSCALL_GETENV 8
	#define HL_SYSCALL_CLOCK 9
	#define HL_SYSCALL_TIME 10
	#define HL_SYSCALL_RENAME 11
	#define HL_SYSCALL_ARGC 12
	#define HL_SYSCALL_ARGV 13
	#define HL_SYSCALL_RETCODE 14
	#define HL_SYSCALL_ACCESS 15
	#define HL_SYSCALL_GETPID 16
	#define HL_SYSCALL_GETCWD 17
	#define HL_SYSCALL_USER 18

	#ifndef __noinline
	#define __noinline __attribute__((noinline))
	#endif /* __noinline */

	#define HL_VERSION 1

	/* "No message here" mark. */
	#define HL_NOADDRESS 0xFFFFFFFF

	/* TODO: if we want to carve some additional space we can use the actual maximum processor cache
	* line size here (i.e 128)
	*/
	#define HL_MAX_DCACHE_LINE 256

	/* Hostlink gateway structure. */
	struct hl_hdr {
	uint32_t version; /* Current version is 1. */
	uint32_t target2host_addr; /* Packet address from target to host. */
	uint32_t host2target_addr; /* Packet address from host to target. */
	uint32_t buf_addr; /* Address for host to write answer. */
	uint32_t payload_size; /* Buffer size without packet header. */
	uint32_t options; /* For future use. */
	uint32_t break_to_mon_addr; /* For future use. */
	} __packed;

	/* Hostlink packet header. */
	struct hl_pkt_hdr {
	uint32_t packet_id; /* Packet id. Always set to 1 here. */
	uint32_t total_size; /* Size of packet including header. */
	uint32_t priority; /* For future use. */
	uint32_t type; /* For future use. */
	uint32_t checksum; /* For future use. */
	} __packed;

	struct hl_packed_int {
	volatile uint16_t type;
	volatile uint16_t size;
	volatile int32_t value;
	} __packed;

	struct hl_packed_short_buff {
	volatile uint16_t type;
	volatile uint16_t size;
	volatile uint8_t payload_short[4];
	} __packed;

	BUILD_ASSERT(sizeof(struct hl_packed_int) == sizeof(struct hl_packed_short_buff));

	struct hl_pkt_write_char_put {
	struct hl_packed_int syscall_nr;
	struct hl_packed_int fd;
	struct hl_packed_short_buff buff;
	struct hl_packed_int nbyte;
	} __packed;

	struct hl_pkt_write_char_get {
	struct hl_packed_int byte_written;
	struct hl_packed_int host_errno;
	} __packed;

	#define MAX_PKT_SZ MAX(sizeof(struct hl_pkt_write_char_put), sizeof(struct hl_pkt_write_char_get))
	#define HL_HEADERS_SZ (sizeof(struct hl_hdr) + sizeof(struct hl_pkt_hdr))
	BUILD_ASSERT(HL_HEADERS_SZ + MAX_PKT_SZ < HL_MAX_DCACHE_LINE);

	union payload_u {
	struct hl_pkt_write_char_put pkt_write_char_put;
	struct hl_pkt_write_char_get pkt_write_char_get;
	char reserved[HL_MAX_DCACHE_LINE - HL_HEADERS_SZ];
	} __packed;

	BUILD_ASSERT(sizeof(union payload_u) % 4 == 0);

	/* Main hostlink structure. */
	struct hl {
	/* General hostlink information. */
	volatile struct hl_hdr hdr;
	/* Start of the hostlink buffer. */
	volatile struct hl_pkt_hdr pkt_hdr;
	/* Payload buffer */
	volatile union payload_u payload;
	} __aligned(HL_MAX_DCACHE_LINE) __packed;

	/* In general we must exactly fit into one or multiple cache lines as we shouldn't share hostlink
	* buffer (which is uncached) with any cached data
	*/
	BUILD_ASSERT(sizeof(struct hl) % HL_MAX_DCACHE_LINE == 0);
	/* However, with current supported functionality we fit into one MAX cache line. If we add
	* some features which require bigger payload buffer this might become not true.
	*/
	BUILD_ASSERT(sizeof(struct hl) == HL_MAX_DCACHE_LINE);

	/* Main structure. Do not rename as nSIM simulator / MDB debugger looks for the '__HOSTLINK__'
	* symbol. We need to keep it initialized so it won't be put into BSS (so we won't write with
	* regular cached access in it).
	*/
	volatile struct hl __HOSTLINK__ = {
	.hdr = {
	.version = HL_VERSION,
	.target2host_addr = HL_NOADDRESS
	}
	};

	BUILD_ASSERT(sizeof(__HOSTLINK__) % HL_MAX_DCACHE_LINE == 0);

	#if defined(__CCAC__)
	#define HL_HAS_C_ACCESSORS 0
	#elif defined(CONFIG_ISA_ARCV3)
	#define HL_HAS_C_ACCESSORS 0
	#else
	#define HL_HAS_C_ACCESSORS 1
	#endif

	#if HL_HAS_C_ACCESSORS

	#ifndef __uncached
	#define __uncached __attribute__((uncached))
	#endif /* __uncached */

	static inline void hl_write32(volatile void *addr, uint32_t val)
	{
	(volatile __uncached uint32_t )addr = val;
	}

	static inline void hl_write16(volatile void *addr, uint16_t val)
	{
	(volatile __uncached uint16_t )addr = val;
	}

	static inline void hl_write8(volatile void *addr, uint8_t val)
	{
	(volatile __uncached uint8_t )addr = val;
	}

	static inline uint32_t hl_read32(volatile void *addr)
	{
	return (volatile __uncached uint32_t )addr;
	}

	static inline uint16_t hl_read16(volatile void *addr)
	{
	return (volatile __uncached uint16_t )addr;
	}
	#else
	static inline void hl_write32(volatile void *addr, uint32_t val)
	{
	__asm__ __volatile__("st.di %0, [%1]" :: "r" (val), "r" (addr) : "memory");
	}

	static inline void hl_write16(volatile void *addr, uint16_t val)
	{
	__asm__ __volatile__("stb.di %0, [%1]" :: "r" (val), "r" (addr) : "memory");
	}

	static inline void hl_write8(volatile void *addr, uint8_t val)
	{
	__asm__ __volatile__("sth.di %0, [%1]" :: "r" (val), "r" (addr) : "memory");
	}

	static inline uint32_t hl_read32(volatile void *addr)
	{
	uint32_t w;

	__asm__ __volatile__("ld.di %0, [%1]" : "=r" (w) : "r" (addr) : "memory");

	return w;
	}

	static inline uint16_t hl_read16(volatile void *addr)
	{
	uint16_t w;

	__asm__ __volatile__("ld.di %0, [%1]" : "=r" (w) : "r" (addr) : "memory");

	return w;
	}
	#endif /* HL_HAS_C_ACCESSORS */

	/* Get hostlink payload size (iochunk + reserved space). */
	static uint32_t hl_payload_size(void)
	{
	return sizeof(__HOSTLINK__.payload);
	}

	#define ALIGN(x, y) (((x) + ((y) - 1)) & ~((y) - 1))

	/* Fill hostlink packet header. */
	static void hl_pkt_init(volatile struct hl_pkt_hdr *pkt, int size)
	{
	hl_write32(&pkt->packet_id, 1);
	hl_write32(&pkt->total_size, ALIGN(size, 4) + sizeof(struct hl_pkt_hdr));
	hl_write32(&pkt->priority, 0);
	hl_write32(&pkt->type, 0);
	hl_write32(&pkt->checksum, 0);
	}

	/* Send hostlink packet to the host. */
	static void hl_static_send(size_t payload_used)
	{
	/* We are OK to cast pointer to uint32_t even on 64bit platforms as we support to build
	* Zephyr on ARCv3 64bit only to lower 4GiB. Still we need to cast via uintptr_t to avoid
	* compiler warnings.
	*/
	uint32_t buf_addr = (uint32_t)(uintptr_t)(&__HOSTLINK__.pkt_hdr);

	hl_pkt_init(&__HOSTLINK__.pkt_hdr, payload_used);

	hl_write32(&__HOSTLINK__.hdr.buf_addr, buf_addr);
	hl_write32(&__HOSTLINK__.hdr.payload_size, hl_payload_size());
	hl_write32(&__HOSTLINK__.hdr.host2target_addr, HL_NOADDRESS);
	hl_write32(&__HOSTLINK__.hdr.version, HL_VERSION);
	hl_write32(&__HOSTLINK__.hdr.options, 0);
	hl_write32(&__HOSTLINK__.hdr.break_to_mon_addr, 0);

	compiler_barrier();

	/* This tells the debugger we have a command.
	* It is responsibility of debugger to set this back to HL_NOADDRESS
	* after receiving the packet.
	* Please note that we don't wait here because some implementations
	* use hl_blockedPeek() function as a signal that we send a messege.
	*/
	hl_write32(&__HOSTLINK__.hdr.target2host_addr, buf_addr);

	compiler_barrier();
	}

	/*
	* Wait for host response and return pointer to hostlink payload.
	* Symbol hl_blockedPeek() is used by the simulator as message signal.
	*/
	static void __noinline _hl_blockedPeek(void)
	{
	while (hl_read32(&__HOSTLINK__.hdr.host2target_addr) == HL_NOADDRESS) {
	/* TODO: Timeout. */
	}
	}

	static void hl_static_recv(void)
	{
	compiler_barrier();
	_hl_blockedPeek();
	compiler_barrier();
	}

	/* Mark hostlink buffer as "No message here". */
	static void hl_delete(void)
	{
	hl_write32(&__HOSTLINK__.hdr.target2host_addr, HL_NOADDRESS);
	}

	/* Parameter types. */
	#define PAT_CHAR 1
	#define PAT_SHORT 2
	#define PAT_INT 3
	#define PAT_STRING 4
	/* For future use. */
	#define PAT_INT64 5

	static void hl_static_pack_int(volatile struct hl_packed_int *pack, int32_t value)
	{
	hl_write16(&pack->type, PAT_INT);
	hl_write16(&pack->size, 4);
	hl_write32(&pack->value, value);
	}

	static void hl_static_pack_char(volatile struct hl_packed_short_buff *pack, unsigned char c)
	{
	hl_write16(&pack->type, PAT_STRING);
	hl_write16(&pack->size, 1);
	hl_write8(&pack->payload_short, c);
	}

	static int hl_static_unpack_int(volatile struct hl_packed_int pack, int32_t value)
	{
	uint16_t type = hl_read16(&pack->type);
	uint16_t size = hl_read16(&pack->size);

	if (type != PAT_INT) {
	return -1;
	}

	if (size != 4) {
	return -1;
	}

	*value = hl_read32(&pack->value);

	return 0;
	}

	static inline int32_t hl_write_char(int fd, const char c)
	{
	/*
	* Format:
	* in, int -> syscall (HL_SYSCALL_WRITE)
	* in, int -> file descriptor
	* in, ptr -> buffer
	* in, int -> bytes number
	* out, int -> bytes written
	* out, int, host errno
	*/

	hl_static_pack_int(&__HOSTLINK__.payload.pkt_write_char_put.syscall_nr, HL_SYSCALL_WRITE);

	hl_static_pack_int(&__HOSTLINK__.payload.pkt_write_char_put.fd, fd);

	hl_static_pack_char(&__HOSTLINK__.payload.pkt_write_char_put.buff, c);

	hl_static_pack_int(&__HOSTLINK__.payload.pkt_write_char_put.nbyte, 1);

	hl_static_send(sizeof(struct hl_pkt_write_char_put));
	hl_static_recv();

	int32_t bwr = 0;
	int ret = hl_static_unpack_int(&__HOSTLINK__.payload.pkt_write_char_get.byte_written, &bwr);

	/* we can get host errno here with:
	* hl_static_unpack_int(&__HOSTLINK__.pkt_write_char_get.host_errno, &host_errno);
	* but we don't need it for UART emulation.
	*/

	if (bwr <= 0) {
	ret = -1;
	}

	hl_delete();

	return ret;
	}

	/**
	* @brief Poll the device for input.
	*
	* @param dev UART device struct
	* @param c Pointer to character
	*
	* @return 0 if a character arrived, -1 if the input buffer if empty.
	*/
	static int uart_hostlink_poll_in(const struct device dev, unsigned char c)
	{
	ARG_UNUSED(dev);

	/* We plan to use hostlink for logging, so no much sense in poll_in implementation */
	return -1;
	}

	/**
	* @brief Output a character in polled mode.
	*
	* @param dev UART device struct
	* @param c Character to send
	*/
	static void uart_hostlink_poll_out(const struct device *dev, unsigned char c)
	{
	ARG_UNUSED(dev);

	hl_write_char(1, c);
	}

	static const struct uart_driver_api uart_hostlink_driver_api = {
	.poll_in = uart_hostlink_poll_in,
	.poll_out = uart_hostlink_poll_out,
	};

	DEVICE_DT_DEFINE(DT_NODELABEL(hostlink), NULL, NULL, NULL, NULL, PRE_KERNEL_1,
	CONFIG_SERIAL_INIT_PRIORITY, &uart_hostlink_driver_api);