tests/test_astlpc.c - openbmc/libmctp - Gitiles

 /* SPDX-License-Identifier: Apache-2.0 OR GPL-2.0-or-later */

 #ifdef HAVE_CONFIG_H
 #include "config.h"
 #endif

 #include "astlpc.c"

 #ifdef pr_fmt
 #undef pr_fmt
 #define pr_fmt(x) "test: " x
 #endif

 #include "libmctp-astlpc.h"
 #include "libmctp-log.h"
 #include "container_of.h"

 #ifdef NDEBUG
 #undef NDEBUG
 #endif

 #define RX_BUFFER_DATA	0x100 + 4 + 4

 #include <assert.h>
 #include <stdint.h>
 #include <stdio.h>
 #include <stdlib.h>
 #include <string.h>

 struct mctp_binding_astlpc_mmio {
 	struct mctp_binding_astlpc astlpc;

 	uint8_t kcs[2];

 	size_t lpc_size;
 	uint8_t *lpc;
 };

 #define binding_to_mmio(b) \
 	container_of(b, struct mctp_binding_astlpc_mmio, astlpc)

 static int mctp_astlpc_mmio_kcs_read(void *data,
 				     enum mctp_binding_astlpc_kcs_reg reg,
 				     uint8_t *val)
 {
 	struct mctp_binding_astlpc_mmio *mmio = binding_to_mmio(data);

 	*val = mmio->kcs[reg];

 	mctp_prdebug("%s: 0x%hhx from %s", __func__, *val, reg ? "status" : "data");

 	if (reg == MCTP_ASTLPC_KCS_REG_DATA)
 		mmio->kcs[MCTP_ASTLPC_KCS_REG_STATUS] &= ~KCS_STATUS_IBF;

 	return 0;
 }

 static int mctp_astlpc_mmio_kcs_write(void *data,
 				      enum mctp_binding_astlpc_kcs_reg reg,
 				      uint8_t val)
 {
 	struct mctp_binding_astlpc_mmio *mmio = binding_to_mmio(data);

 	if (reg == MCTP_ASTLPC_KCS_REG_DATA)
 		mmio->kcs[MCTP_ASTLPC_KCS_REG_STATUS] |= KCS_STATUS_OBF;

 	if (reg == MCTP_ASTLPC_KCS_REG_STATUS)
 		mmio->kcs[reg] = val & ~0xaU;
 	else
 		mmio->kcs[reg] = val;

 	mctp_prdebug("%s: 0x%hhx to %s", __func__, val, reg ? "status" : "data");

 	return 0;
 }
 int mctp_astlpc_mmio_lpc_read(void *data, void *buf, long offset, size_t len)
 {
 	struct mctp_binding_astlpc_mmio *mmio = binding_to_mmio(data);

 	mctp_prdebug("%s: %zu bytes from 0x%lx", __func__, len, offset);

 	assert(offset >= 0L);
 	assert(offset + len < mmio->lpc_size);

 	memcpy(buf, mmio->lpc + offset, len);

 	return 0;
 }

 int mctp_astlpc_mmio_lpc_write(void *data, void *buf, long offset, size_t len)
 {
 	struct mctp_binding_astlpc_mmio *mmio = binding_to_mmio(data);

 	mctp_prdebug("%s: %zu bytes to 0x%lx", __func__, len, offset);

 	assert(offset >= 0L);
 	assert(offset + len < mmio->lpc_size);

 	memcpy(mmio->lpc + offset, buf, len);

 	return 0;
 }

 #define __unused __attribute__((unused))

 static void rx_message(uint8_t eid __unused, void *data __unused, void *msg,
 		       size_t len)
 {
 	uint8_t type;

 	type = *(uint8_t *)msg;

 	mctp_prdebug("MCTP message received: len %zd, type %d",
 			len, type);
 }

 static const struct mctp_binding_astlpc_ops mctp_binding_astlpc_mmio_ops = {
 	.kcs_read = mctp_astlpc_mmio_kcs_read,
 	.kcs_write = mctp_astlpc_mmio_kcs_write,
 	.lpc_read = mctp_astlpc_mmio_lpc_read,
 	.lpc_write = mctp_astlpc_mmio_lpc_write,
 };

 int main(void)
 {
 	struct mctp_binding_astlpc_mmio mmio;
 	struct mctp_binding_astlpc *astlpc;
 	uint8_t msg[2 * MCTP_BTU];
 	struct mctp *mctp;
 	int rc;

 	memset(&msg[0], 0x5a, MCTP_BTU);
 	memset(&msg[MCTP_BTU], 0xa5, MCTP_BTU);

 	mmio.lpc_size = 1 * 1024 * 1024;
 	mmio.lpc = calloc(1, mmio.lpc_size);

 	mctp_set_log_stdio(MCTP_LOG_DEBUG);

 	mctp = mctp_init();
 	assert(mctp);

 	mctp_set_rx_all(mctp, rx_message, NULL);

 	astlpc = mctp_astlpc_init_ops(&mctp_binding_astlpc_mmio_ops, &mmio, NULL);

 	mctp_register_bus(mctp, &astlpc->binding, 8);

 	/* Verify the binding was initialised */
 	assert(mmio.kcs[MCTP_ASTLPC_KCS_REG_STATUS] & KCS_STATUS_BMC_READY);

 	/* Host sends channel init command */
 	mmio.kcs[MCTP_ASTLPC_KCS_REG_STATUS] |= KCS_STATUS_IBF;
 	mmio.kcs[MCTP_ASTLPC_KCS_REG_DATA] = 0x00;

 	/* Receive host init */
 	mctp_astlpc_poll(astlpc);

 	/* Host receives init response */
 	assert(mmio.kcs[MCTP_ASTLPC_KCS_REG_STATUS] & KCS_STATUS_OBF);
 	assert(mmio.kcs[MCTP_ASTLPC_KCS_REG_STATUS] & KCS_STATUS_CHANNEL_ACTIVE);

 	/* Host dequeues data */
 	assert(mmio.kcs[MCTP_ASTLPC_KCS_REG_DATA] == 0xff);
 	mmio.kcs[MCTP_ASTLPC_KCS_REG_STATUS] &= ~KCS_STATUS_OBF;

 	/* BMC sends a message */
 	rc = mctp_message_tx(mctp, 9, msg, sizeof(msg));
 	assert(rc == 0);

 	/* Host receives a message */
 	assert(mmio.kcs[MCTP_ASTLPC_KCS_REG_STATUS] & KCS_STATUS_OBF);
 	assert(mmio.kcs[MCTP_ASTLPC_KCS_REG_DATA] == 0x01);

 	/* Verify it's the packet we expect */
 	assert(!memcmp(mmio.lpc + RX_BUFFER_DATA, &msg[0], MCTP_BTU));

 	/* Host returns Rx area ownership to BMC */
 	mmio.kcs[MCTP_ASTLPC_KCS_REG_STATUS] &= ~KCS_STATUS_OBF;
 	mmio.kcs[MCTP_ASTLPC_KCS_REG_DATA] = 0x02;
 	mmio.kcs[MCTP_ASTLPC_KCS_REG_STATUS] |= KCS_STATUS_IBF;

 	/* BMC dequeues ownership hand-over and sends the queued packet */
 	rc = mctp_astlpc_poll(astlpc);
 	assert(rc == 0);

 	/* Host receives a message */
 	assert(mmio.kcs[MCTP_ASTLPC_KCS_REG_STATUS] & KCS_STATUS_OBF);
 	assert(mmio.kcs[MCTP_ASTLPC_KCS_REG_DATA] == 0x01);

 	/* Verify it's the packet we expect */
 	assert(!memcmp(mmio.lpc + RX_BUFFER_DATA, &msg[MCTP_BTU], MCTP_BTU));

 	mctp_astlpc_destroy(astlpc);
 	mctp_destroy(mctp);
 	free(mmio.lpc);

 	return 0;
 }
	/* SPDX-License-Identifier: Apache-2.0 OR GPL-2.0-or-later */

	#ifdef HAVE_CONFIG_H
	#include "config.h"
	#endif

	#include "astlpc.c"

	#ifdef pr_fmt
	#undef pr_fmt
	#define pr_fmt(x) "test: " x
	#endif

	#include "libmctp-astlpc.h"
	#include "libmctp-log.h"
	#include "container_of.h"

	#ifdef NDEBUG
	#undef NDEBUG
	#endif

	#define RX_BUFFER_DATA 0x100 + 4 + 4

	#include <assert.h>
	#include <stdint.h>
	#include <stdio.h>
	#include <stdlib.h>
	#include <string.h>

	struct mctp_binding_astlpc_mmio {
	struct mctp_binding_astlpc astlpc;

	uint8_t kcs[2];

	size_t lpc_size;
	uint8_t *lpc;
	};

	#define binding_to_mmio(b) \
	container_of(b, struct mctp_binding_astlpc_mmio, astlpc)

	static int mctp_astlpc_mmio_kcs_read(void *data,
	enum mctp_binding_astlpc_kcs_reg reg,
	uint8_t *val)
	{
	struct mctp_binding_astlpc_mmio *mmio = binding_to_mmio(data);

	*val = mmio->kcs[reg];

	mctp_prdebug("%s: 0x%hhx from %s", __func__, *val, reg ? "status" : "data");

	if (reg == MCTP_ASTLPC_KCS_REG_DATA)
	mmio->kcs[MCTP_ASTLPC_KCS_REG_STATUS] &= ~KCS_STATUS_IBF;

	return 0;
	}

	static int mctp_astlpc_mmio_kcs_write(void *data,
	enum mctp_binding_astlpc_kcs_reg reg,
	uint8_t val)
	{
	struct mctp_binding_astlpc_mmio *mmio = binding_to_mmio(data);

	if (reg == MCTP_ASTLPC_KCS_REG_DATA)
	mmio->kcs[MCTP_ASTLPC_KCS_REG_STATUS] \|= KCS_STATUS_OBF;

	if (reg == MCTP_ASTLPC_KCS_REG_STATUS)
	mmio->kcs[reg] = val & ~0xaU;
	else
	mmio->kcs[reg] = val;

	mctp_prdebug("%s: 0x%hhx to %s", __func__, val, reg ? "status" : "data");

	return 0;
	}
	int mctp_astlpc_mmio_lpc_read(void data, void buf, long offset, size_t len)
	{
	struct mctp_binding_astlpc_mmio *mmio = binding_to_mmio(data);

	mctp_prdebug("%s: %zu bytes from 0x%lx", __func__, len, offset);

	assert(offset >= 0L);
	assert(offset + len < mmio->lpc_size);

	memcpy(buf, mmio->lpc + offset, len);

	return 0;
	}

	int mctp_astlpc_mmio_lpc_write(void data, void buf, long offset, size_t len)
	{
	struct mctp_binding_astlpc_mmio *mmio = binding_to_mmio(data);

	mctp_prdebug("%s: %zu bytes to 0x%lx", __func__, len, offset);

	assert(offset >= 0L);
	assert(offset + len < mmio->lpc_size);

	memcpy(mmio->lpc + offset, buf, len);

	return 0;
	}

	#define __unused __attribute__((unused))

	static void rx_message(uint8_t eid __unused, void data __unused, void msg,
	size_t len)
	{
	uint8_t type;

	type = (uint8_t )msg;

	mctp_prdebug("MCTP message received: len %zd, type %d",
	len, type);
	}

	static const struct mctp_binding_astlpc_ops mctp_binding_astlpc_mmio_ops = {
	.kcs_read = mctp_astlpc_mmio_kcs_read,
	.kcs_write = mctp_astlpc_mmio_kcs_write,
	.lpc_read = mctp_astlpc_mmio_lpc_read,
	.lpc_write = mctp_astlpc_mmio_lpc_write,
	};

	int main(void)
	{
	struct mctp_binding_astlpc_mmio mmio;
	struct mctp_binding_astlpc *astlpc;
	uint8_t msg[2 * MCTP_BTU];
	struct mctp *mctp;
	int rc;

	memset(&msg[0], 0x5a, MCTP_BTU);
	memset(&msg[MCTP_BTU], 0xa5, MCTP_BTU);

	mmio.lpc_size = 1 * 1024 * 1024;
	mmio.lpc = calloc(1, mmio.lpc_size);

	mctp_set_log_stdio(MCTP_LOG_DEBUG);

	mctp = mctp_init();
	assert(mctp);

	mctp_set_rx_all(mctp, rx_message, NULL);

	astlpc = mctp_astlpc_init_ops(&mctp_binding_astlpc_mmio_ops, &mmio, NULL);

	mctp_register_bus(mctp, &astlpc->binding, 8);

	/* Verify the binding was initialised */
	assert(mmio.kcs[MCTP_ASTLPC_KCS_REG_STATUS] & KCS_STATUS_BMC_READY);

	/* Host sends channel init command */
	mmio.kcs[MCTP_ASTLPC_KCS_REG_STATUS] \|= KCS_STATUS_IBF;
	mmio.kcs[MCTP_ASTLPC_KCS_REG_DATA] = 0x00;

	/* Receive host init */
	mctp_astlpc_poll(astlpc);

	/* Host receives init response */
	assert(mmio.kcs[MCTP_ASTLPC_KCS_REG_STATUS] & KCS_STATUS_OBF);
	assert(mmio.kcs[MCTP_ASTLPC_KCS_REG_STATUS] & KCS_STATUS_CHANNEL_ACTIVE);

	/* Host dequeues data */
	assert(mmio.kcs[MCTP_ASTLPC_KCS_REG_DATA] == 0xff);
	mmio.kcs[MCTP_ASTLPC_KCS_REG_STATUS] &= ~KCS_STATUS_OBF;

	/* BMC sends a message */
	rc = mctp_message_tx(mctp, 9, msg, sizeof(msg));
	assert(rc == 0);

	/* Host receives a message */
	assert(mmio.kcs[MCTP_ASTLPC_KCS_REG_STATUS] & KCS_STATUS_OBF);
	assert(mmio.kcs[MCTP_ASTLPC_KCS_REG_DATA] == 0x01);

	/* Verify it's the packet we expect */
	assert(!memcmp(mmio.lpc + RX_BUFFER_DATA, &msg[0], MCTP_BTU));

	/* Host returns Rx area ownership to BMC */
	mmio.kcs[MCTP_ASTLPC_KCS_REG_STATUS] &= ~KCS_STATUS_OBF;
	mmio.kcs[MCTP_ASTLPC_KCS_REG_DATA] = 0x02;
	mmio.kcs[MCTP_ASTLPC_KCS_REG_STATUS] \|= KCS_STATUS_IBF;

	/* BMC dequeues ownership hand-over and sends the queued packet */
	rc = mctp_astlpc_poll(astlpc);
	assert(rc == 0);

	/* Host receives a message */
	assert(mmio.kcs[MCTP_ASTLPC_KCS_REG_STATUS] & KCS_STATUS_OBF);
	assert(mmio.kcs[MCTP_ASTLPC_KCS_REG_DATA] == 0x01);

	/* Verify it's the packet we expect */
	assert(!memcmp(mmio.lpc + RX_BUFFER_DATA, &msg[MCTP_BTU], MCTP_BTU));

	mctp_astlpc_destroy(astlpc);
	mctp_destroy(mctp);
	free(mmio.lpc);

	return 0;
	}