arch/arm/mach-msm/smp2p_gpio_test.c - kernel/msm - Git at Google

 /* arch/arm/mach-msm/smp2p_gpio_test.c
  *
  * Copyright (c) 2013, The Linux Foundation. All rights reserved.
  *
  * This program is free software; you can redistribute it and/or modify
  * it under the terms of the GNU General Public License version 2 and
  * only version 2 as published by the Free Software Foundation.
  *
  * This program is distributed in the hope that it will be useful,
  * but WITHOUT ANY WARRANTY; without even the implied warranty of
  * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
  * GNU General Public License for more details.
  */
 #include <linux/module.h>
 #include <linux/platform_device.h>
 #include <linux/of_gpio.h>
 #include <linux/of_irq.h>
 #include <linux/gpio.h>
 #include <linux/debugfs.h>
 #include <linux/completion.h>
 #include <linux/irq.h>
 #include <linux/bitmap.h>
 #include "smp2p_private.h"
 #include "smp2p_test_common.h"

 /* Interrupt callback data */
 struct gpio_info {
 	int gpio_base_id;
 	int irq_base_id;

 	bool initialized;
 	struct completion cb_completion;
 	int cb_count;
 	DECLARE_BITMAP(triggered_irqs, SMP2P_BITS_PER_ENTRY);
 };

 /* GPIO Inbound/Outbound callback info */
 struct gpio_inout {
 	struct gpio_info in;
 	struct gpio_info out;
 };

 static struct gpio_inout gpio_info[SMP2P_NUM_PROCS];

 /**
  * Init/reset the callback data.
  *
  * @info: Pointer to callback data
  */
 static void cb_data_reset(struct gpio_info *info)
 {
 	int n;

 	if (!info)
 		return;

 	if (!info->initialized) {
 		init_completion(&info->cb_completion);
 		info->initialized = true;
 	}
 	info->cb_count = 0;

 	for (n = 0; n < SMP2P_BITS_PER_ENTRY; ++n)
 		clear_bit(n,  info->triggered_irqs);

 	INIT_COMPLETION(info->cb_completion);
 }

 static int __devinit smp2p_gpio_test_probe(struct platform_device *pdev)
 {
 	int id;
 	int cnt;
 	struct device_node *node = pdev->dev.of_node;
 	struct gpio_info *gpio_info_ptr = NULL;

 	/*
 	 * NOTE:  This does a string-lookup of the GPIO pin name and doesn't
 	 * actually directly link to the SMP2P GPIO driver since all
 	 * GPIO/Interrupt access must be through standard
 	 * Linux GPIO / Interrupt APIs.
 	 */
 	if (strcmp("qcom,smp2pgpio_test_smp2p_1_in", node->name) == 0) {
 		gpio_info_ptr = &gpio_info[SMP2P_MODEM_PROC].in;
 	} else if (strcmp("qcom,smp2pgpio_test_smp2p_1_out", node->name) == 0) {
 		gpio_info_ptr = &gpio_info[SMP2P_MODEM_PROC].out;
 	} else if (strcmp("qcom,smp2pgpio_test_smp2p_2_in", node->name) == 0) {
 		gpio_info_ptr = &gpio_info[SMP2P_AUDIO_PROC].in;
 	} else if (strcmp("qcom,smp2pgpio_test_smp2p_2_out", node->name) == 0) {
 		gpio_info_ptr = &gpio_info[SMP2P_AUDIO_PROC].out;
 	} else if (strcmp("qcom,smp2pgpio_test_smp2p_4_in", node->name) == 0) {
 		gpio_info_ptr = &gpio_info[SMP2P_WIRELESS_PROC].in;
 	} else if (strcmp("qcom,smp2pgpio_test_smp2p_4_out", node->name) == 0) {
 		gpio_info_ptr = &gpio_info[SMP2P_WIRELESS_PROC].out;
 	} else if (strcmp("qcom,smp2pgpio_test_smp2p_7_in", node->name) == 0) {
 		gpio_info_ptr = &gpio_info[SMP2P_REMOTE_MOCK_PROC].in;
 	} else if (strcmp("qcom,smp2pgpio_test_smp2p_7_out", node->name) == 0) {
 		gpio_info_ptr = &gpio_info[SMP2P_REMOTE_MOCK_PROC].out;
 	} else {
 		pr_err("%s: unable to match device type '%s'\n",
 				__func__, node->name);
 		return -ENODEV;
 	}

 	/* retrieve the GPIO and interrupt ID's */
 	cnt = of_gpio_count(node);
 	if (cnt && gpio_info_ptr) {
 		/*
 		 * Instead of looping through all 32-bits, we can just get the
 		 * first pin to get the base IDs.  This saves on the verbosity
 		 * of the device tree nodes as well.
 		 */
 		id = of_get_gpio(node, 0);
 		gpio_info_ptr->gpio_base_id = id;
 		gpio_info_ptr->irq_base_id = gpio_to_irq(id);
 	}
 	return 0;
 }

 /*
  * NOTE:  Instead of match table and device driver, you may be able to just
  * call of_find_compatible_node() in your init function.
  */
 static struct of_device_id msm_smp2p_match_table[] __devinitdata = {
 	/* modem */
 	{.compatible = "qcom,smp2pgpio_test_smp2p_1_out", },
 	{.compatible = "qcom,smp2pgpio_test_smp2p_1_in", },

 	/* audio (adsp) */
 	{.compatible = "qcom,smp2pgpio_test_smp2p_2_out", },
 	{.compatible = "qcom,smp2pgpio_test_smp2p_2_in", },

 	/* wcnss */
 	{.compatible = "qcom,smp2pgpio_test_smp2p_4_out", },
 	{.compatible = "qcom,smp2pgpio_test_smp2p_4_in", },

 	/* mock loopback */
 	{.compatible = "qcom,smp2pgpio_test_smp2p_7_out", },
 	{.compatible = "qcom,smp2pgpio_test_smp2p_7_in", },
 	{},
 };

 static struct platform_driver smp2p_gpio_driver = {
 	.probe = smp2p_gpio_test_probe,
 	.driver = {
 		.name = "smp2pgpio_test",
 		.owner = THIS_MODULE,
 		.of_match_table = msm_smp2p_match_table,
 	},
 };

 /**
  * smp2p_ut_local_gpio_out - Verify outbound functionality.
  *
  * @s:   pointer to output file
  */
 static void smp2p_ut_local_gpio_out(struct seq_file *s)
 {
 	int failed = 0;
 	struct gpio_info *cb_info = &gpio_info[SMP2P_REMOTE_MOCK_PROC].out;
 	int ret;
 	int id;
 	struct msm_smp2p_remote_mock *mock;

 	seq_printf(s, "Running %s\n", __func__);
 	do {
 		/* initialize mock edge */
 		ret = smp2p_reset_mock_edge();
 		UT_ASSERT_INT(ret, ==, 0);

 		mock = msm_smp2p_get_remote_mock();
 		UT_ASSERT_PTR(mock, !=, NULL);

 		mock->rx_interrupt_count = 0;
 		memset(&mock->remote_item, 0,
 			sizeof(struct smp2p_smem_item));
 		smp2p_init_header((struct smp2p_smem *)&mock->remote_item,
 			SMP2P_REMOTE_MOCK_PROC, SMP2P_APPS_PROC,
 			0, 1);
 		strlcpy(mock->remote_item.entries[0].name, "smp2p",
 			SMP2P_MAX_ENTRY_NAME);
 		SMP2P_SET_ENT_VALID(
 			mock->remote_item.header.valid_total_ent, 1);
 		msm_smp2p_set_remote_mock_exists(true);
 		mock->tx_interrupt();

 		/* open GPIO entry */
 		smp2p_gpio_open_test_entry("smp2p",
 				SMP2P_REMOTE_MOCK_PROC, true);

 		/* verify set/get functions */
 		UT_ASSERT_INT(0, <, cb_info->gpio_base_id);
 		for (id = 0; id < SMP2P_BITS_PER_ENTRY && !failed; ++id) {
 			int pin = cb_info->gpio_base_id + id;

 			mock->rx_interrupt_count = 0;
 			gpio_set_value(pin, 1);
 			UT_ASSERT_INT(1, ==, mock->rx_interrupt_count);
 			UT_ASSERT_INT(1, ==, gpio_get_value(pin));

 			gpio_set_value(pin, 0);
 			UT_ASSERT_INT(2, ==, mock->rx_interrupt_count);
 			UT_ASSERT_INT(0, ==, gpio_get_value(pin));
 		}
 		if (failed)
 			break;

 		seq_printf(s, "\tOK\n");
 	} while (0);

 	if (failed) {
 		pr_err("%s: Failed\n", __func__);
 		seq_printf(s, "\tFailed\n");
 	}

 	smp2p_gpio_open_test_entry("smp2p",
 			SMP2P_REMOTE_MOCK_PROC, false);
 }

 /**
  * smp2p_gpio_irq - Interrupt handler for inbound entries.
  *
  * @irq:         Virtual IRQ being triggered
  * @data:        Cookie data (struct gpio_info * in this case)
  * @returns:     Number of bytes written
  */
 static irqreturn_t smp2p_gpio_irq(int irq, void *data)
 {
 	struct gpio_info *gpio_ptr = (struct gpio_info *)data;
 	int offset;

 	if (!gpio_ptr) {
 		pr_err("%s: gpio_ptr is NULL for irq %d\n", __func__, irq);
 		return IRQ_HANDLED;
 	}

 	offset = irq - gpio_ptr->irq_base_id;
 	if (offset >= 0 &&  offset < SMP2P_BITS_PER_ENTRY)
 		set_bit(offset, gpio_ptr->triggered_irqs);
 	else
 		pr_err("%s: invalid irq offset base %d; irq %d\n",
 			__func__, gpio_ptr->irq_base_id, irq);

 	++gpio_ptr->cb_count;
 	complete(&gpio_ptr->cb_completion);
 	return IRQ_HANDLED;
 }

 /**
  * smp2p_ut_local_gpio_in - Verify inbound functionality.
  *
  * @s:   pointer to output file
  */
 static void smp2p_ut_local_gpio_in(struct seq_file *s)
 {
 	int failed = 0;
 	struct gpio_info *cb_info = &gpio_info[SMP2P_REMOTE_MOCK_PROC].in;
 	int id;
 	int ret;
 	int virq;
 	struct msm_smp2p_remote_mock *mock;

 	seq_printf(s, "Running %s\n", __func__);

 	cb_data_reset(cb_info);
 	do {
 		/* initialize mock edge */
 		ret = smp2p_reset_mock_edge();
 		UT_ASSERT_INT(ret, ==, 0);

 		mock = msm_smp2p_get_remote_mock();
 		UT_ASSERT_PTR(mock, !=, NULL);

 		mock->rx_interrupt_count = 0;
 		memset(&mock->remote_item, 0,
 			sizeof(struct smp2p_smem_item));
 		smp2p_init_header((struct smp2p_smem *)&mock->remote_item,
 			SMP2P_REMOTE_MOCK_PROC, SMP2P_APPS_PROC,
 			0, 1);
 		strlcpy(mock->remote_item.entries[0].name, "smp2p",
 			SMP2P_MAX_ENTRY_NAME);
 		SMP2P_SET_ENT_VALID(
 			mock->remote_item.header.valid_total_ent, 1);
 		msm_smp2p_set_remote_mock_exists(true);
 		mock->tx_interrupt();

 		smp2p_gpio_open_test_entry("smp2p",
 				SMP2P_REMOTE_MOCK_PROC, true);

 		/* verify set/get functions locally */
 		UT_ASSERT_INT(0, <, cb_info->gpio_base_id);
 		for (id = 0; id < SMP2P_BITS_PER_ENTRY && !failed; ++id) {
 			int pin;
 			int current_value;

 			/* verify pin value cannot be set */
 			pin = cb_info->gpio_base_id + id;
 			current_value = gpio_get_value(pin);

 			gpio_set_value(pin, 0);
 			UT_ASSERT_INT(current_value, ==, gpio_get_value(pin));
 			gpio_set_value(pin, 1);
 			UT_ASSERT_INT(current_value, ==, gpio_get_value(pin));

 			/* verify no interrupts */
 			UT_ASSERT_INT(0, ==, cb_info->cb_count);
 		}
 		if (failed)
 			break;

 		/* register for interrupts */
 		UT_ASSERT_INT(0, <, cb_info->irq_base_id);
 		for (id = 0; id < SMP2P_BITS_PER_ENTRY && !failed; ++id) {
 			virq = cb_info->irq_base_id + id;
 			UT_ASSERT_INT(0, >, (unsigned int)irq_to_desc(virq));
 			ret = request_irq(virq,
 					smp2p_gpio_irq,	IRQF_TRIGGER_RISING,
 					"smp2p_test", cb_info);
 			UT_ASSERT_INT(0, ==, ret);
 		}
 		if (failed)
 			break;

 		/* verify both rising and falling edge interrupts */
 		for (id = 0; id < SMP2P_BITS_PER_ENTRY && !failed; ++id) {
 			virq = cb_info->irq_base_id + id;
 			irq_set_irq_type(virq, IRQ_TYPE_EDGE_BOTH);
 			cb_data_reset(cb_info);

 			/* verify rising-edge interrupt */
 			mock->remote_item.entries[0].entry = 1 << id;
 			mock->tx_interrupt();
 			UT_ASSERT_INT(cb_info->cb_count, ==, 1);
 			UT_ASSERT_INT(0, <,
 				test_bit(id, cb_info->triggered_irqs));
 			test_bit(id, cb_info->triggered_irqs);

 			/* verify falling-edge interrupt */
 			mock->remote_item.entries[0].entry = 0;
 			mock->tx_interrupt();
 			UT_ASSERT_INT(cb_info->cb_count, ==, 2);
 			UT_ASSERT_INT(0, <,
 					test_bit(id, cb_info->triggered_irqs));
 		}
 		if (failed)
 			break;

 		/* verify rising-edge interrupts */
 		for (id = 0; id < SMP2P_BITS_PER_ENTRY && !failed; ++id) {
 			virq = cb_info->irq_base_id + id;
 			irq_set_irq_type(virq, IRQ_TYPE_EDGE_RISING);
 			cb_data_reset(cb_info);

 			/* verify only rising-edge interrupt is triggered */
 			mock->remote_item.entries[0].entry = 1 << id;
 			mock->tx_interrupt();
 			UT_ASSERT_INT(cb_info->cb_count, ==, 1);
 			UT_ASSERT_INT(0, <,
 				test_bit(id, cb_info->triggered_irqs));
 			test_bit(id, cb_info->triggered_irqs);

 			mock->remote_item.entries[0].entry = 0;
 			mock->tx_interrupt();
 			UT_ASSERT_INT(cb_info->cb_count, ==, 1);
 			UT_ASSERT_INT(0, <,
 				test_bit(id, cb_info->triggered_irqs));
 		}
 		if (failed)
 			break;

 		/* verify falling-edge interrupts */
 		for (id = 0; id < SMP2P_BITS_PER_ENTRY && !failed; ++id) {
 			virq = cb_info->irq_base_id + id;
 			irq_set_irq_type(virq, IRQ_TYPE_EDGE_FALLING);
 			cb_data_reset(cb_info);

 			/* verify only rising-edge interrupt is triggered */
 			mock->remote_item.entries[0].entry = 1 << id;
 			mock->tx_interrupt();
 			UT_ASSERT_INT(cb_info->cb_count, ==, 0);
 			UT_ASSERT_INT(0, ==,
 				test_bit(id, cb_info->triggered_irqs));

 			mock->remote_item.entries[0].entry = 0;
 			mock->tx_interrupt();
 			UT_ASSERT_INT(cb_info->cb_count, ==, 1);
 			UT_ASSERT_INT(0, <,
 				test_bit(id, cb_info->triggered_irqs));
 		}
 		if (failed)
 			break;

 		seq_printf(s, "\tOK\n");
 	} while (0);

 	if (failed) {
 		pr_err("%s: Failed\n", __func__);
 		seq_printf(s, "\tFailed\n");
 	}

 	/* unregister for interrupts */
 	if (cb_info->irq_base_id) {
 		for (id = 0; id < SMP2P_BITS_PER_ENTRY; ++id)
 			free_irq(cb_info->irq_base_id + id, cb_info);
 	}

 	smp2p_gpio_open_test_entry("smp2p",
 			SMP2P_REMOTE_MOCK_PROC, false);
 }

 /**
  * smp2p_ut_local_gpio_in_update_open - Verify combined open/update.
  *
  * @s:   pointer to output file
  *
  * If the remote side updates the SMP2P bits and sends before negotiation is
  * complete, then the UPDATE event will have to be delayed until negotiation is
  * complete.  This should result in both the OPEN and UPDATE events coming in
  * right after each other and the behavior should be transparent to the clients
  * of SMP2P GPIO.
  */
 static void smp2p_ut_local_gpio_in_update_open(struct seq_file *s)
 {
 	int failed = 0;
 	struct gpio_info *cb_info = &gpio_info[SMP2P_REMOTE_MOCK_PROC].in;
 	int id;
 	int ret;
 	int virq;
 	struct msm_smp2p_remote_mock *mock;

 	seq_printf(s, "Running %s\n", __func__);

 	cb_data_reset(cb_info);
 	do {
 		/* initialize mock edge */
 		ret = smp2p_reset_mock_edge();
 		UT_ASSERT_INT(ret, ==, 0);

 		mock = msm_smp2p_get_remote_mock();
 		UT_ASSERT_PTR(mock, !=, NULL);

 		mock->rx_interrupt_count = 0;
 		memset(&mock->remote_item, 0,
 			sizeof(struct smp2p_smem_item));
 		smp2p_init_header((struct smp2p_smem *)&mock->remote_item,
 			SMP2P_REMOTE_MOCK_PROC, SMP2P_APPS_PROC,
 			0, 1);
 		strlcpy(mock->remote_item.entries[0].name, "smp2p",
 			SMP2P_MAX_ENTRY_NAME);
 		SMP2P_SET_ENT_VALID(
 			mock->remote_item.header.valid_total_ent, 1);

 		/* register for interrupts */
 		smp2p_gpio_open_test_entry("smp2p",
 				SMP2P_REMOTE_MOCK_PROC, true);

 		UT_ASSERT_INT(0, <, cb_info->irq_base_id);
 		for (id = 0; id < SMP2P_BITS_PER_ENTRY && !failed; ++id) {
 			virq = cb_info->irq_base_id + id;
 			UT_ASSERT_INT(0, >, (unsigned int)irq_to_desc(virq));
 			ret = request_irq(virq,
 					smp2p_gpio_irq,	IRQ_TYPE_EDGE_BOTH,
 					"smp2p_test", cb_info);
 			UT_ASSERT_INT(0, ==, ret);
 		}
 		if (failed)
 			break;

 		/* update the state value and complete negotiation */
 		mock->remote_item.entries[0].entry = 0xDEADDEAD;
 		msm_smp2p_set_remote_mock_exists(true);
 		mock->tx_interrupt();

 		/* verify delayed state updates were processed */
 		for (id = 0; id < SMP2P_BITS_PER_ENTRY && !failed; ++id) {
 			virq = cb_info->irq_base_id + id;

 			UT_ASSERT_INT(cb_info->cb_count, >, 0);
 			if (0x1 & (0xDEADDEAD >> id)) {
 				/* rising edge should have been triggered */
 				if (!test_bit(id, cb_info->triggered_irqs)) {
 					seq_printf(s,
 						"%s:%d bit %d clear, expected set\n",
 						__func__, __LINE__, id);
 					failed = 1;
 					break;
 				}
 			} else {
 				/* edge should not have been triggered */
 				if (test_bit(id, cb_info->triggered_irqs)) {
 					seq_printf(s,
 						"%s:%d bit %d set, expected clear\n",
 						__func__, __LINE__, id);
 					failed = 1;
 					break;
 				}
 			}
 		}
 		if (failed)
 			break;

 		seq_printf(s, "\tOK\n");
 	} while (0);

 	if (failed) {
 		pr_err("%s: Failed\n", __func__);
 		seq_printf(s, "\tFailed\n");
 	}

 	/* unregister for interrupts */
 	if (cb_info->irq_base_id) {
 		for (id = 0; id < SMP2P_BITS_PER_ENTRY; ++id)
 			free_irq(cb_info->irq_base_id + id, cb_info);
 	}

 	smp2p_gpio_open_test_entry("smp2p",
 			SMP2P_REMOTE_MOCK_PROC, false);
 }

 /**
  * smp2p_gpio_write_bits - writes value to each GPIO pin specified in mask.
  *
  * @gpio: gpio test structure
  * @mask: 1 = write gpio_value to this GPIO pin
  * @gpio_value: value to write to GPIO pin
  */
 static void smp2p_gpio_write_bits(struct gpio_info *gpio, uint32_t mask,
 	int gpio_value)
 {
 	int n;

 	for (n = 0; n < SMP2P_BITS_PER_ENTRY; ++n) {
 		if (mask & 0x1)
 			gpio_set_value(gpio->gpio_base_id + n, gpio_value);
 		mask >>= 1;
 	}
 }

 static void smp2p_gpio_set_bits(struct gpio_info *gpio, uint32_t mask)
 {
 	smp2p_gpio_write_bits(gpio, mask, 1);
 }

 static void smp2p_gpio_clr_bits(struct gpio_info *gpio, uint32_t mask)
 {
 	smp2p_gpio_write_bits(gpio, mask, 0);
 }

 /**
  * smp2p_gpio_get_value - reads entire 32-bits of GPIO
  *
  * @gpio: gpio structure
  * @returns: 32 bit value of GPIO pins
  */
 static uint32_t smp2p_gpio_get_value(struct gpio_info *gpio)
 {
 	int n;
 	uint32_t value = 0;

 	for (n = 0; n < SMP2P_BITS_PER_ENTRY; ++n) {
 		if (gpio_get_value(gpio->gpio_base_id + n))
 			value |= 1 << n;
 	}
 	return value;
 }

 /**
  * smp2p_ut_remote_inout_core - Verify inbound/outbound functionality.
  *
  * @s:   pointer to output file
  * @remote_pid:  Remote processor to test
  * @name:        Name of the test for reporting
  *
  * This test verifies inbound/outbound functionality for the remote processor.
  */
 static void smp2p_ut_remote_inout_core(struct seq_file *s, int remote_pid,
 		const char *name)
 {
 	int failed = 0;
 	uint32_t request;
 	uint32_t response;
 	struct gpio_info *cb_in;
 	struct gpio_info *cb_out;
 	int id;
 	int ret;

 	seq_printf(s, "Running %s for '%s' remote pid %d\n",
 		   __func__, smp2p_pid_to_name(remote_pid), remote_pid);

 	cb_in = &gpio_info[remote_pid].in;
 	cb_out = &gpio_info[remote_pid].out;
 	cb_data_reset(cb_in);
 	cb_data_reset(cb_out);
 	do {
 		/* open test entries */
 		msm_smp2p_deinit_rmt_lpb_proc(remote_pid);
 		smp2p_gpio_open_test_entry("smp2p", remote_pid, true);

 		/* register for interrupts */
 		UT_ASSERT_INT(0, <, cb_in->gpio_base_id);
 		UT_ASSERT_INT(0, <, cb_in->irq_base_id);
 		for (id = 0; id < SMP2P_BITS_PER_ENTRY && !failed; ++id) {
 			int virq = cb_in->irq_base_id + id;
 			UT_ASSERT_INT(0, >, (unsigned int)irq_to_desc(virq));
 			ret = request_irq(virq,
 				smp2p_gpio_irq,
 				IRQF_TRIGGER_RISING | IRQF_TRIGGER_FALLING,
 				"smp2p_test", cb_in);
 			UT_ASSERT_INT(0, ==, ret);
 		}
 		if (failed)
 			break;

 		/* write echo of data value 0 */
 		UT_ASSERT_INT(0, <, cb_out->gpio_base_id);
 		request = 0x0;
 		SMP2P_SET_RMT_CMD_TYPE(request, 1);
 		SMP2P_SET_RMT_CMD(request, SMP2P_LB_CMD_ECHO);
 		SMP2P_SET_RMT_DATA(request, 0x0);

 		smp2p_gpio_set_bits(cb_out, SMP2P_RMT_IGNORE_MASK);
 		smp2p_gpio_clr_bits(cb_out, ~SMP2P_RMT_IGNORE_MASK);
 		smp2p_gpio_set_bits(cb_out, request);

 		UT_ASSERT_INT(cb_in->cb_count, ==, 0);
 		smp2p_gpio_clr_bits(cb_out, SMP2P_RMT_IGNORE_MASK);

 		/* verify response */
 		do {
 			/* wait for up to 32 changes */
 			if (wait_for_completion_timeout(
 					&cb_in->cb_completion, HZ / 2) == 0)
 				break;
 			INIT_COMPLETION(cb_in->cb_completion);
 		} while (cb_in->cb_count < 32);
 		UT_ASSERT_INT(cb_in->cb_count, >, 0);
 		response = smp2p_gpio_get_value(cb_in);
 		SMP2P_SET_RMT_CMD_TYPE(request, 0);
 		UT_ASSERT_HEX(request, ==, response);

 		/* write echo of data value of all 1's */
 		request = 0x0;
 		SMP2P_SET_RMT_CMD_TYPE(request, 1);
 		SMP2P_SET_RMT_CMD(request, SMP2P_LB_CMD_ECHO);
 		SMP2P_SET_RMT_DATA(request, ~0);

 		smp2p_gpio_set_bits(cb_out, SMP2P_RMT_IGNORE_MASK);
 		cb_data_reset(cb_in);
 		smp2p_gpio_clr_bits(cb_out, ~SMP2P_RMT_IGNORE_MASK);
 		smp2p_gpio_set_bits(cb_out, request);

 		UT_ASSERT_INT(cb_in->cb_count, ==, 0);
 		smp2p_gpio_clr_bits(cb_out, SMP2P_RMT_IGNORE_MASK);

 		/* verify response including 24 interrupts */
 		do {
 			UT_ASSERT_INT(
 				(int)wait_for_completion_timeout(
 					&cb_in->cb_completion, HZ / 2),
 			   >, 0);
 			INIT_COMPLETION(cb_in->cb_completion);
 		} while (cb_in->cb_count < 24);
 		response = smp2p_gpio_get_value(cb_in);
 		SMP2P_SET_RMT_CMD_TYPE(request, 0);
 		UT_ASSERT_HEX(request, ==, response);
 		UT_ASSERT_INT(24, ==, cb_in->cb_count);

 		seq_printf(s, "\tOK\n");
 	} while (0);

 	if (failed) {
 		pr_err("%s: Failed\n", name);
 		seq_printf(s, "\tFailed\n");
 	}

 	/* unregister for interrupts */
 	if (cb_in->irq_base_id) {
 		for (id = 0; id < SMP2P_BITS_PER_ENTRY; ++id)
 			free_irq(cb_in->irq_base_id + id, cb_in);
 	}

 	smp2p_gpio_open_test_entry("smp2p",	remote_pid, false);
 	msm_smp2p_init_rmt_lpb_proc(remote_pid);
 }

 /**
  * smp2p_ut_remote_inout - Verify inbound/outbound functionality for all.
  *
  * @s:   pointer to output file
  *
  * This test verifies inbound and outbound functionality for all
  * configured remote processor.
  */
 static void smp2p_ut_remote_inout(struct seq_file *s)
 {
 	struct smp2p_interrupt_config *int_cfg;
 	int pid;

 	int_cfg = smp2p_get_interrupt_config();
 	if (!int_cfg) {
 		seq_printf(s, "Remote processor config unavailable\n");
 		return;
 	}

 	for (pid = 0; pid < SMP2P_NUM_PROCS; ++pid) {
 		if (!int_cfg[pid].is_configured)
 			continue;

 		smp2p_ut_remote_inout_core(s, pid, __func__);
 	}
 }

 static int __init smp2p_debugfs_init(void)
 {
 	/* register GPIO pins */
 	(void)platform_driver_register(&smp2p_gpio_driver);

 	/*
 	 * Add Unit Test entries.
 	 *
 	 * The idea with unit tests is that you can run all of them
 	 * from ADB shell by doing:
 	 *  adb shell
 	 *  cat ut*
 	 *
 	 * And if particular tests fail, you can then repeatedly run the
 	 * failing tests as you debug and resolve the failing test.
 	 */
 	smp2p_debug_create("ut_local_gpio_out", smp2p_ut_local_gpio_out);
 	smp2p_debug_create("ut_local_gpio_in", smp2p_ut_local_gpio_in);
 	smp2p_debug_create("ut_local_gpio_in_update_open",
 		smp2p_ut_local_gpio_in_update_open);
 	smp2p_debug_create("ut_remote_gpio_inout", smp2p_ut_remote_inout);
 	return 0;
 }
 late_initcall(smp2p_debugfs_init);
	/* arch/arm/mach-msm/smp2p_gpio_test.c
	*
	* Copyright (c) 2013, The Linux Foundation. All rights reserved.
	*
	* This program is free software; you can redistribute it and/or modify
	* it under the terms of the GNU General Public License version 2 and
	* only version 2 as published by the Free Software Foundation.
	*
	* This program is distributed in the hope that it will be useful,
	* but WITHOUT ANY WARRANTY; without even the implied warranty of
	* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
	* GNU General Public License for more details.
	*/
	#include <linux/module.h>
	#include <linux/platform_device.h>
	#include <linux/of_gpio.h>
	#include <linux/of_irq.h>
	#include <linux/gpio.h>
	#include <linux/debugfs.h>
	#include <linux/completion.h>
	#include <linux/irq.h>
	#include <linux/bitmap.h>
	#include "smp2p_private.h"
	#include "smp2p_test_common.h"

	/* Interrupt callback data */
	struct gpio_info {
	int gpio_base_id;
	int irq_base_id;

	bool initialized;
	struct completion cb_completion;
	int cb_count;
	DECLARE_BITMAP(triggered_irqs, SMP2P_BITS_PER_ENTRY);
	};

	/* GPIO Inbound/Outbound callback info */
	struct gpio_inout {
	struct gpio_info in;
	struct gpio_info out;
	};

	static struct gpio_inout gpio_info[SMP2P_NUM_PROCS];

	/**
	* Init/reset the callback data.
	*
	* @info: Pointer to callback data
	*/
	static void cb_data_reset(struct gpio_info *info)
	{
	int n;

	if (!info)
	return;

	if (!info->initialized) {
	init_completion(&info->cb_completion);
	info->initialized = true;
	}
	info->cb_count = 0;

	for (n = 0; n < SMP2P_BITS_PER_ENTRY; ++n)
	clear_bit(n, info->triggered_irqs);

	INIT_COMPLETION(info->cb_completion);
	}

	static int __devinit smp2p_gpio_test_probe(struct platform_device *pdev)
	{
	int id;
	int cnt;
	struct device_node *node = pdev->dev.of_node;
	struct gpio_info *gpio_info_ptr = NULL;

	/*
	* NOTE: This does a string-lookup of the GPIO pin name and doesn't
	* actually directly link to the SMP2P GPIO driver since all
	* GPIO/Interrupt access must be through standard
	* Linux GPIO / Interrupt APIs.
	*/
	if (strcmp("qcom,smp2pgpio_test_smp2p_1_in", node->name) == 0) {
	gpio_info_ptr = &gpio_info[SMP2P_MODEM_PROC].in;
	} else if (strcmp("qcom,smp2pgpio_test_smp2p_1_out", node->name) == 0) {
	gpio_info_ptr = &gpio_info[SMP2P_MODEM_PROC].out;
	} else if (strcmp("qcom,smp2pgpio_test_smp2p_2_in", node->name) == 0) {
	gpio_info_ptr = &gpio_info[SMP2P_AUDIO_PROC].in;
	} else if (strcmp("qcom,smp2pgpio_test_smp2p_2_out", node->name) == 0) {
	gpio_info_ptr = &gpio_info[SMP2P_AUDIO_PROC].out;
	} else if (strcmp("qcom,smp2pgpio_test_smp2p_4_in", node->name) == 0) {
	gpio_info_ptr = &gpio_info[SMP2P_WIRELESS_PROC].in;
	} else if (strcmp("qcom,smp2pgpio_test_smp2p_4_out", node->name) == 0) {
	gpio_info_ptr = &gpio_info[SMP2P_WIRELESS_PROC].out;
	} else if (strcmp("qcom,smp2pgpio_test_smp2p_7_in", node->name) == 0) {
	gpio_info_ptr = &gpio_info[SMP2P_REMOTE_MOCK_PROC].in;
	} else if (strcmp("qcom,smp2pgpio_test_smp2p_7_out", node->name) == 0) {
	gpio_info_ptr = &gpio_info[SMP2P_REMOTE_MOCK_PROC].out;
	} else {
	pr_err("%s: unable to match device type '%s'\n",
	__func__, node->name);
	return -ENODEV;
	}

	/* retrieve the GPIO and interrupt ID's */
	cnt = of_gpio_count(node);
	if (cnt && gpio_info_ptr) {
	/*
	* Instead of looping through all 32-bits, we can just get the
	* first pin to get the base IDs. This saves on the verbosity
	* of the device tree nodes as well.
	*/
	id = of_get_gpio(node, 0);
	gpio_info_ptr->gpio_base_id = id;
	gpio_info_ptr->irq_base_id = gpio_to_irq(id);
	}
	return 0;
	}

	/*
	* NOTE: Instead of match table and device driver, you may be able to just
	* call of_find_compatible_node() in your init function.
	*/
	static struct of_device_id msm_smp2p_match_table[] __devinitdata = {
	/* modem */
	{.compatible = "qcom,smp2pgpio_test_smp2p_1_out", },
	{.compatible = "qcom,smp2pgpio_test_smp2p_1_in", },

	/* audio (adsp) */
	{.compatible = "qcom,smp2pgpio_test_smp2p_2_out", },
	{.compatible = "qcom,smp2pgpio_test_smp2p_2_in", },

	/* wcnss */
	{.compatible = "qcom,smp2pgpio_test_smp2p_4_out", },
	{.compatible = "qcom,smp2pgpio_test_smp2p_4_in", },

	/* mock loopback */
	{.compatible = "qcom,smp2pgpio_test_smp2p_7_out", },
	{.compatible = "qcom,smp2pgpio_test_smp2p_7_in", },
	{},
	};

	static struct platform_driver smp2p_gpio_driver = {
	.probe = smp2p_gpio_test_probe,
	.driver = {
	.name = "smp2pgpio_test",
	.owner = THIS_MODULE,
	.of_match_table = msm_smp2p_match_table,
	},
	};

	/**
	* smp2p_ut_local_gpio_out - Verify outbound functionality.
	*
	* @s: pointer to output file
	*/
	static void smp2p_ut_local_gpio_out(struct seq_file *s)
	{
	int failed = 0;
	struct gpio_info *cb_info = &gpio_info[SMP2P_REMOTE_MOCK_PROC].out;
	int ret;
	int id;
	struct msm_smp2p_remote_mock *mock;

	seq_printf(s, "Running %s\n", __func__);
	do {
	/* initialize mock edge */
	ret = smp2p_reset_mock_edge();
	UT_ASSERT_INT(ret, ==, 0);

	mock = msm_smp2p_get_remote_mock();
	UT_ASSERT_PTR(mock, !=, NULL);

	mock->rx_interrupt_count = 0;
	memset(&mock->remote_item, 0,
	sizeof(struct smp2p_smem_item));
	smp2p_init_header((struct smp2p_smem *)&mock->remote_item,
	SMP2P_REMOTE_MOCK_PROC, SMP2P_APPS_PROC,
	0, 1);
	strlcpy(mock->remote_item.entries[0].name, "smp2p",
	SMP2P_MAX_ENTRY_NAME);
	SMP2P_SET_ENT_VALID(
	mock->remote_item.header.valid_total_ent, 1);
	msm_smp2p_set_remote_mock_exists(true);
	mock->tx_interrupt();

	/* open GPIO entry */
	smp2p_gpio_open_test_entry("smp2p",
	SMP2P_REMOTE_MOCK_PROC, true);

	/* verify set/get functions */
	UT_ASSERT_INT(0, <, cb_info->gpio_base_id);
	for (id = 0; id < SMP2P_BITS_PER_ENTRY && !failed; ++id) {
	int pin = cb_info->gpio_base_id + id;

	mock->rx_interrupt_count = 0;
	gpio_set_value(pin, 1);
	UT_ASSERT_INT(1, ==, mock->rx_interrupt_count);
	UT_ASSERT_INT(1, ==, gpio_get_value(pin));

	gpio_set_value(pin, 0);
	UT_ASSERT_INT(2, ==, mock->rx_interrupt_count);
	UT_ASSERT_INT(0, ==, gpio_get_value(pin));
	}
	if (failed)
	break;

	seq_printf(s, "\tOK\n");
	} while (0);

	if (failed) {
	pr_err("%s: Failed\n", __func__);
	seq_printf(s, "\tFailed\n");
	}

	smp2p_gpio_open_test_entry("smp2p",
	SMP2P_REMOTE_MOCK_PROC, false);
	}

	/**
	* smp2p_gpio_irq - Interrupt handler for inbound entries.
	*
	* @irq: Virtual IRQ being triggered
	* @data: Cookie data (struct gpio_info * in this case)
	* @returns: Number of bytes written
	*/
	static irqreturn_t smp2p_gpio_irq(int irq, void *data)
	{
	struct gpio_info gpio_ptr = (struct gpio_info )data;
	int offset;

	if (!gpio_ptr) {
	pr_err("%s: gpio_ptr is NULL for irq %d\n", __func__, irq);
	return IRQ_HANDLED;
	}

	offset = irq - gpio_ptr->irq_base_id;
	if (offset >= 0 && offset < SMP2P_BITS_PER_ENTRY)
	set_bit(offset, gpio_ptr->triggered_irqs);
	else
	pr_err("%s: invalid irq offset base %d; irq %d\n",
	__func__, gpio_ptr->irq_base_id, irq);

	++gpio_ptr->cb_count;
	complete(&gpio_ptr->cb_completion);
	return IRQ_HANDLED;
	}

	/**
	* smp2p_ut_local_gpio_in - Verify inbound functionality.
	*
	* @s: pointer to output file
	*/
	static void smp2p_ut_local_gpio_in(struct seq_file *s)
	{
	int failed = 0;
	struct gpio_info *cb_info = &gpio_info[SMP2P_REMOTE_MOCK_PROC].in;
	int id;
	int ret;
	int virq;
	struct msm_smp2p_remote_mock *mock;

	seq_printf(s, "Running %s\n", __func__);

	cb_data_reset(cb_info);
	do {
	/* initialize mock edge */
	ret = smp2p_reset_mock_edge();
	UT_ASSERT_INT(ret, ==, 0);

	mock = msm_smp2p_get_remote_mock();
	UT_ASSERT_PTR(mock, !=, NULL);

	mock->rx_interrupt_count = 0;
	memset(&mock->remote_item, 0,
	sizeof(struct smp2p_smem_item));
	smp2p_init_header((struct smp2p_smem *)&mock->remote_item,
	SMP2P_REMOTE_MOCK_PROC, SMP2P_APPS_PROC,
	0, 1);
	strlcpy(mock->remote_item.entries[0].name, "smp2p",
	SMP2P_MAX_ENTRY_NAME);
	SMP2P_SET_ENT_VALID(
	mock->remote_item.header.valid_total_ent, 1);
	msm_smp2p_set_remote_mock_exists(true);
	mock->tx_interrupt();

	smp2p_gpio_open_test_entry("smp2p",
	SMP2P_REMOTE_MOCK_PROC, true);

	/* verify set/get functions locally */
	UT_ASSERT_INT(0, <, cb_info->gpio_base_id);
	for (id = 0; id < SMP2P_BITS_PER_ENTRY && !failed; ++id) {
	int pin;
	int current_value;

	/* verify pin value cannot be set */
	pin = cb_info->gpio_base_id + id;
	current_value = gpio_get_value(pin);

	gpio_set_value(pin, 0);
	UT_ASSERT_INT(current_value, ==, gpio_get_value(pin));
	gpio_set_value(pin, 1);
	UT_ASSERT_INT(current_value, ==, gpio_get_value(pin));

	/* verify no interrupts */
	UT_ASSERT_INT(0, ==, cb_info->cb_count);
	}
	if (failed)
	break;

	/* register for interrupts */
	UT_ASSERT_INT(0, <, cb_info->irq_base_id);
	for (id = 0; id < SMP2P_BITS_PER_ENTRY && !failed; ++id) {
	virq = cb_info->irq_base_id + id;
	UT_ASSERT_INT(0, >, (unsigned int)irq_to_desc(virq));
	ret = request_irq(virq,
	smp2p_gpio_irq, IRQF_TRIGGER_RISING,
	"smp2p_test", cb_info);
	UT_ASSERT_INT(0, ==, ret);
	}
	if (failed)
	break;

	/* verify both rising and falling edge interrupts */
	for (id = 0; id < SMP2P_BITS_PER_ENTRY && !failed; ++id) {
	virq = cb_info->irq_base_id + id;
	irq_set_irq_type(virq, IRQ_TYPE_EDGE_BOTH);
	cb_data_reset(cb_info);

	/* verify rising-edge interrupt */
	mock->remote_item.entries[0].entry = 1 << id;
	mock->tx_interrupt();
	UT_ASSERT_INT(cb_info->cb_count, ==, 1);
	UT_ASSERT_INT(0, <,
	test_bit(id, cb_info->triggered_irqs));
	test_bit(id, cb_info->triggered_irqs);

	/* verify falling-edge interrupt */
	mock->remote_item.entries[0].entry = 0;
	mock->tx_interrupt();
	UT_ASSERT_INT(cb_info->cb_count, ==, 2);
	UT_ASSERT_INT(0, <,
	test_bit(id, cb_info->triggered_irqs));
	}
	if (failed)
	break;

	/* verify rising-edge interrupts */
	for (id = 0; id < SMP2P_BITS_PER_ENTRY && !failed; ++id) {
	virq = cb_info->irq_base_id + id;
	irq_set_irq_type(virq, IRQ_TYPE_EDGE_RISING);
	cb_data_reset(cb_info);

	/* verify only rising-edge interrupt is triggered */
	mock->remote_item.entries[0].entry = 1 << id;
	mock->tx_interrupt();
	UT_ASSERT_INT(cb_info->cb_count, ==, 1);
	UT_ASSERT_INT(0, <,
	test_bit(id, cb_info->triggered_irqs));
	test_bit(id, cb_info->triggered_irqs);

	mock->remote_item.entries[0].entry = 0;
	mock->tx_interrupt();
	UT_ASSERT_INT(cb_info->cb_count, ==, 1);
	UT_ASSERT_INT(0, <,
	test_bit(id, cb_info->triggered_irqs));
	}
	if (failed)
	break;

	/* verify falling-edge interrupts */
	for (id = 0; id < SMP2P_BITS_PER_ENTRY && !failed; ++id) {
	virq = cb_info->irq_base_id + id;
	irq_set_irq_type(virq, IRQ_TYPE_EDGE_FALLING);
	cb_data_reset(cb_info);

	/* verify only rising-edge interrupt is triggered */
	mock->remote_item.entries[0].entry = 1 << id;
	mock->tx_interrupt();
	UT_ASSERT_INT(cb_info->cb_count, ==, 0);
	UT_ASSERT_INT(0, ==,
	test_bit(id, cb_info->triggered_irqs));

	mock->remote_item.entries[0].entry = 0;
	mock->tx_interrupt();
	UT_ASSERT_INT(cb_info->cb_count, ==, 1);
	UT_ASSERT_INT(0, <,
	test_bit(id, cb_info->triggered_irqs));
	}
	if (failed)
	break;

	seq_printf(s, "\tOK\n");
	} while (0);

	if (failed) {
	pr_err("%s: Failed\n", __func__);
	seq_printf(s, "\tFailed\n");
	}

	/* unregister for interrupts */
	if (cb_info->irq_base_id) {
	for (id = 0; id < SMP2P_BITS_PER_ENTRY; ++id)
	free_irq(cb_info->irq_base_id + id, cb_info);
	}

	smp2p_gpio_open_test_entry("smp2p",
	SMP2P_REMOTE_MOCK_PROC, false);
	}

	/**
	* smp2p_ut_local_gpio_in_update_open - Verify combined open/update.
	*
	* @s: pointer to output file
	*
	* If the remote side updates the SMP2P bits and sends before negotiation is
	* complete, then the UPDATE event will have to be delayed until negotiation is
	* complete. This should result in both the OPEN and UPDATE events coming in
	* right after each other and the behavior should be transparent to the clients
	* of SMP2P GPIO.
	*/
	static void smp2p_ut_local_gpio_in_update_open(struct seq_file *s)
	{
	int failed = 0;
	struct gpio_info *cb_info = &gpio_info[SMP2P_REMOTE_MOCK_PROC].in;
	int id;
	int ret;
	int virq;
	struct msm_smp2p_remote_mock *mock;

	seq_printf(s, "Running %s\n", __func__);

	cb_data_reset(cb_info);
	do {
	/* initialize mock edge */
	ret = smp2p_reset_mock_edge();
	UT_ASSERT_INT(ret, ==, 0);

	mock = msm_smp2p_get_remote_mock();
	UT_ASSERT_PTR(mock, !=, NULL);

	mock->rx_interrupt_count = 0;
	memset(&mock->remote_item, 0,
	sizeof(struct smp2p_smem_item));
	smp2p_init_header((struct smp2p_smem *)&mock->remote_item,
	SMP2P_REMOTE_MOCK_PROC, SMP2P_APPS_PROC,
	0, 1);
	strlcpy(mock->remote_item.entries[0].name, "smp2p",
	SMP2P_MAX_ENTRY_NAME);
	SMP2P_SET_ENT_VALID(
	mock->remote_item.header.valid_total_ent, 1);

	/* register for interrupts */
	smp2p_gpio_open_test_entry("smp2p",
	SMP2P_REMOTE_MOCK_PROC, true);

	UT_ASSERT_INT(0, <, cb_info->irq_base_id);
	for (id = 0; id < SMP2P_BITS_PER_ENTRY && !failed; ++id) {
	virq = cb_info->irq_base_id + id;
	UT_ASSERT_INT(0, >, (unsigned int)irq_to_desc(virq));
	ret = request_irq(virq,
	smp2p_gpio_irq, IRQ_TYPE_EDGE_BOTH,
	"smp2p_test", cb_info);
	UT_ASSERT_INT(0, ==, ret);
	}
	if (failed)
	break;

	/* update the state value and complete negotiation */
	mock->remote_item.entries[0].entry = 0xDEADDEAD;
	msm_smp2p_set_remote_mock_exists(true);
	mock->tx_interrupt();

	/* verify delayed state updates were processed */
	for (id = 0; id < SMP2P_BITS_PER_ENTRY && !failed; ++id) {
	virq = cb_info->irq_base_id + id;

	UT_ASSERT_INT(cb_info->cb_count, >, 0);
	if (0x1 & (0xDEADDEAD >> id)) {
	/* rising edge should have been triggered */
	if (!test_bit(id, cb_info->triggered_irqs)) {
	seq_printf(s,
	"%s:%d bit %d clear, expected set\n",
	__func__, __LINE__, id);
	failed = 1;
	break;
	}
	} else {
	/* edge should not have been triggered */
	if (test_bit(id, cb_info->triggered_irqs)) {
	seq_printf(s,
	"%s:%d bit %d set, expected clear\n",
	__func__, __LINE__, id);
	failed = 1;
	break;
	}
	}
	}
	if (failed)
	break;

	seq_printf(s, "\tOK\n");
	} while (0);

	if (failed) {
	pr_err("%s: Failed\n", __func__);
	seq_printf(s, "\tFailed\n");
	}

	/* unregister for interrupts */
	if (cb_info->irq_base_id) {
	for (id = 0; id < SMP2P_BITS_PER_ENTRY; ++id)
	free_irq(cb_info->irq_base_id + id, cb_info);
	}

	smp2p_gpio_open_test_entry("smp2p",
	SMP2P_REMOTE_MOCK_PROC, false);
	}

	/**
	* smp2p_gpio_write_bits - writes value to each GPIO pin specified in mask.
	*
	* @gpio: gpio test structure
	* @mask: 1 = write gpio_value to this GPIO pin
	* @gpio_value: value to write to GPIO pin
	*/
	static void smp2p_gpio_write_bits(struct gpio_info *gpio, uint32_t mask,
	int gpio_value)
	{
	int n;

	for (n = 0; n < SMP2P_BITS_PER_ENTRY; ++n) {
	if (mask & 0x1)
	gpio_set_value(gpio->gpio_base_id + n, gpio_value);
	mask >>= 1;
	}
	}

	static void smp2p_gpio_set_bits(struct gpio_info *gpio, uint32_t mask)
	{
	smp2p_gpio_write_bits(gpio, mask, 1);
	}

	static void smp2p_gpio_clr_bits(struct gpio_info *gpio, uint32_t mask)
	{
	smp2p_gpio_write_bits(gpio, mask, 0);
	}

	/**
	* smp2p_gpio_get_value - reads entire 32-bits of GPIO
	*
	* @gpio: gpio structure
	* @returns: 32 bit value of GPIO pins
	*/
	static uint32_t smp2p_gpio_get_value(struct gpio_info *gpio)
	{
	int n;
	uint32_t value = 0;

	for (n = 0; n < SMP2P_BITS_PER_ENTRY; ++n) {
	if (gpio_get_value(gpio->gpio_base_id + n))
	value \|= 1 << n;
	}
	return value;
	}

	/**
	* smp2p_ut_remote_inout_core - Verify inbound/outbound functionality.
	*
	* @s: pointer to output file
	* @remote_pid: Remote processor to test
	* @name: Name of the test for reporting
	*
	* This test verifies inbound/outbound functionality for the remote processor.
	*/
	static void smp2p_ut_remote_inout_core(struct seq_file *s, int remote_pid,
	const char *name)
	{
	int failed = 0;
	uint32_t request;
	uint32_t response;
	struct gpio_info *cb_in;
	struct gpio_info *cb_out;
	int id;
	int ret;

	seq_printf(s, "Running %s for '%s' remote pid %d\n",
	__func__, smp2p_pid_to_name(remote_pid), remote_pid);

	cb_in = &gpio_info[remote_pid].in;
	cb_out = &gpio_info[remote_pid].out;
	cb_data_reset(cb_in);
	cb_data_reset(cb_out);
	do {
	/* open test entries */
	msm_smp2p_deinit_rmt_lpb_proc(remote_pid);
	smp2p_gpio_open_test_entry("smp2p", remote_pid, true);

	/* register for interrupts */
	UT_ASSERT_INT(0, <, cb_in->gpio_base_id);
	UT_ASSERT_INT(0, <, cb_in->irq_base_id);
	for (id = 0; id < SMP2P_BITS_PER_ENTRY && !failed; ++id) {
	int virq = cb_in->irq_base_id + id;
	UT_ASSERT_INT(0, >, (unsigned int)irq_to_desc(virq));
	ret = request_irq(virq,
	smp2p_gpio_irq,
	IRQF_TRIGGER_RISING \| IRQF_TRIGGER_FALLING,
	"smp2p_test", cb_in);
	UT_ASSERT_INT(0, ==, ret);
	}
	if (failed)
	break;

	/* write echo of data value 0 */
	UT_ASSERT_INT(0, <, cb_out->gpio_base_id);
	request = 0x0;
	SMP2P_SET_RMT_CMD_TYPE(request, 1);
	SMP2P_SET_RMT_CMD(request, SMP2P_LB_CMD_ECHO);
	SMP2P_SET_RMT_DATA(request, 0x0);

	smp2p_gpio_set_bits(cb_out, SMP2P_RMT_IGNORE_MASK);
	smp2p_gpio_clr_bits(cb_out, ~SMP2P_RMT_IGNORE_MASK);
	smp2p_gpio_set_bits(cb_out, request);

	UT_ASSERT_INT(cb_in->cb_count, ==, 0);
	smp2p_gpio_clr_bits(cb_out, SMP2P_RMT_IGNORE_MASK);

	/* verify response */
	do {
	/* wait for up to 32 changes */
	if (wait_for_completion_timeout(
	&cb_in->cb_completion, HZ / 2) == 0)
	break;
	INIT_COMPLETION(cb_in->cb_completion);
	} while (cb_in->cb_count < 32);
	UT_ASSERT_INT(cb_in->cb_count, >, 0);
	response = smp2p_gpio_get_value(cb_in);
	SMP2P_SET_RMT_CMD_TYPE(request, 0);
	UT_ASSERT_HEX(request, ==, response);

	/* write echo of data value of all 1's */
	request = 0x0;
	SMP2P_SET_RMT_CMD_TYPE(request, 1);
	SMP2P_SET_RMT_CMD(request, SMP2P_LB_CMD_ECHO);
	SMP2P_SET_RMT_DATA(request, ~0);

	smp2p_gpio_set_bits(cb_out, SMP2P_RMT_IGNORE_MASK);
	cb_data_reset(cb_in);
	smp2p_gpio_clr_bits(cb_out, ~SMP2P_RMT_IGNORE_MASK);
	smp2p_gpio_set_bits(cb_out, request);

	UT_ASSERT_INT(cb_in->cb_count, ==, 0);
	smp2p_gpio_clr_bits(cb_out, SMP2P_RMT_IGNORE_MASK);

	/* verify response including 24 interrupts */
	do {
	UT_ASSERT_INT(
	(int)wait_for_completion_timeout(
	&cb_in->cb_completion, HZ / 2),
	>, 0);
	INIT_COMPLETION(cb_in->cb_completion);
	} while (cb_in->cb_count < 24);
	response = smp2p_gpio_get_value(cb_in);
	SMP2P_SET_RMT_CMD_TYPE(request, 0);
	UT_ASSERT_HEX(request, ==, response);
	UT_ASSERT_INT(24, ==, cb_in->cb_count);

	seq_printf(s, "\tOK\n");
	} while (0);

	if (failed) {
	pr_err("%s: Failed\n", name);
	seq_printf(s, "\tFailed\n");
	}

	/* unregister for interrupts */
	if (cb_in->irq_base_id) {
	for (id = 0; id < SMP2P_BITS_PER_ENTRY; ++id)
	free_irq(cb_in->irq_base_id + id, cb_in);
	}

	smp2p_gpio_open_test_entry("smp2p", remote_pid, false);
	msm_smp2p_init_rmt_lpb_proc(remote_pid);
	}

	/**
	* smp2p_ut_remote_inout - Verify inbound/outbound functionality for all.
	*
	* @s: pointer to output file
	*
	* This test verifies inbound and outbound functionality for all
	* configured remote processor.
	*/
	static void smp2p_ut_remote_inout(struct seq_file *s)
	{
	struct smp2p_interrupt_config *int_cfg;
	int pid;

	int_cfg = smp2p_get_interrupt_config();
	if (!int_cfg) {
	seq_printf(s, "Remote processor config unavailable\n");
	return;
	}

	for (pid = 0; pid < SMP2P_NUM_PROCS; ++pid) {
	if (!int_cfg[pid].is_configured)
	continue;

	smp2p_ut_remote_inout_core(s, pid, __func__);
	}
	}

	static int __init smp2p_debugfs_init(void)
	{
	/* register GPIO pins */
	(void)platform_driver_register(&smp2p_gpio_driver);

	/*
	* Add Unit Test entries.
	*
	* The idea with unit tests is that you can run all of them
	* from ADB shell by doing:
	* adb shell
	* cat ut*
	*
	* And if particular tests fail, you can then repeatedly run the
	* failing tests as you debug and resolve the failing test.
	*/
	smp2p_debug_create("ut_local_gpio_out", smp2p_ut_local_gpio_out);
	smp2p_debug_create("ut_local_gpio_in", smp2p_ut_local_gpio_in);
	smp2p_debug_create("ut_local_gpio_in_update_open",
	smp2p_ut_local_gpio_in_update_open);
	smp2p_debug_create("ut_remote_gpio_inout", smp2p_ut_remote_inout);
	return 0;
	}
	late_initcall(smp2p_debugfs_init);