[libam7xxx.git] / src / am7xxx.c

/* am7xxx - communication with AM7xxx based USB Pico Projectors and DPFs
 *
 * Copyright (C) 2012  Antonio Ospite <ospite@studenti.unina.it>
 *
 * This program is free software: you can redistribute it and/or modify
 * it under the terms of the GNU General Public License as published by
 * the Free Software Foundation, either version 2 of the License, or
 * (at your option) any later version.
 *
 * 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.
 *
 * You should have received a copy of the GNU General Public License
 * along with this program.  If not, see <http://www.gnu.org/licenses/>.
 */

#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <stdarg.h>
#include <errno.h>
#include <libusb.h>
#include <math.h>

#include "am7xxx.h"
#include "serialize.h"

#define ARRAY_SIZE(x) (sizeof(x) / sizeof((x)[0]))

/* If we're not using GNU C, elide __attribute__
 * taken from: http://unixwiz.net/techtips/gnu-c-attributes.html)
 */
#ifndef __GNUC__
#  define  __attribute__(x)  /*NOTHING*/
#endif

/* Control shared library symbols visibility */
#if defined _WIN32 || defined __CYGWIN__
        #define AM7XXX_PUBLIC __declspec(dllexport)
        #define AM7XXX_LOCAL
#else
        #if __GNUC__ >= 4
                #define AM7XXX_PUBLIC __attribute__ ((visibility ("default")))
                #define AM7XXX_LOCAL  __attribute__ ((visibility ("hidden")))
        #else
                #define AM7XXX_PUBLIC
                #define AM7XXX_LOCAL
        #endif
#endif

static void log_message(am7xxx_context *ctx,
                        int level,
                        const char *function,
                        int line,
                        const char *fmt,
                        ...) __attribute__ ((format (printf, 5, 6)));

#define fatal(...)        log_message(NULL, AM7XXX_LOG_FATAL,   __func__, __LINE__, __VA_ARGS__)
#define error(ctx, ...)   log_message(ctx,  AM7XXX_LOG_ERROR,   __func__, __LINE__, __VA_ARGS__)
#define warning(ctx, ...) log_message(ctx,  AM7XXX_LOG_WARNING, __func__, 0,        __VA_ARGS__)
#define info(ctx, ...)    log_message(ctx,  AM7XXX_LOG_INFO,    __func__, 0,        __VA_ARGS__)
#define debug(ctx, ...)   log_message(ctx,  AM7XXX_LOG_DEBUG,   __func__, 0,        __VA_ARGS__)
#define trace(ctx, ...)   log_message(ctx,  AM7XXX_LOG_TRACE,   NULL,     0,        __VA_ARGS__)

struct am7xxx_usb_device_descriptor {
        const char *name;
        uint16_t vendor_id;
        uint16_t product_id;
};

static struct am7xxx_usb_device_descriptor supported_devices[] = {
        {
                .name       = "Acer C110",
                .vendor_id  = 0x1de1,
                .product_id = 0xc101,
        },
        {
                .name       = "Acer C112",
                .vendor_id  = 0x1de1,
                .product_id = 0x5501,
        },
        {
                .name       ="Aiptek PocketCinema T25",
                .vendor_id  = 0x08ca,
                .product_id = 0x2144,
        },
        {
                .name       = "Philips/Sagemcom PicoPix 1020",
                .vendor_id  = 0x21e7,
                .product_id = 0x000e,
        },
        {
                .name       = "Philips/Sagemcom PicoPix 2055",
                .vendor_id  = 0x21e7,
                .product_id = 0x0016,
        },
};

/* The header size on the wire is known to be always 24 bytes, regardless of
 * the memory configuration enforced by different architectures or compilers
 * for struct am7xxx_header
 */
#define AM7XXX_HEADER_WIRE_SIZE 24

struct _am7xxx_device {
        libusb_device_handle *usb_device;
        uint8_t buffer[AM7XXX_HEADER_WIRE_SIZE];
        am7xxx_context *ctx;
        am7xxx_device *next;
};

struct _am7xxx_context {
        libusb_context *usb_context;
        int log_level;
        am7xxx_device *devices_list;
};

typedef enum {
        AM7XXX_PACKET_TYPE_DEVINFO = 0x01,
        AM7XXX_PACKET_TYPE_IMAGE   = 0x02,
        AM7XXX_PACKET_TYPE_POWER   = 0x04,
        AM7XXX_PACKET_TYPE_ZOOM    = 0x05,
} am7xxx_packet_type;

struct am7xxx_generic_header {
        uint32_t field0;
        uint32_t field1;
        uint32_t field2;
        uint32_t field3;
};

struct am7xxx_devinfo_header {
        uint32_t native_width;
        uint32_t native_height;
        uint32_t unknown0;
        uint32_t unknown1;
};

struct am7xxx_image_header {
        uint32_t format;
        uint32_t width;
        uint32_t height;
        uint32_t image_size;
};

struct am7xxx_power_header {
        uint32_t bit2;
        uint32_t bit1;
        uint32_t bit0;
};

struct am7xxx_zoom_header {
        uint32_t bit1;
        uint32_t bit0;
};

/*
 * Examples of packet headers:
 *
 * Image header:
 * 02 00 00 00 00 10 3e 10 01 00 00 00 20 03 00 00 e0 01 00 00 53 E8 00 00
 *
 * Power header:
 * 04 00 00 00 00 0c ff ff 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00
 */

/* Direction of the communication from the host point of view */
#define AM7XXX_DIRECTION_OUT 0 /* host -> device */
#define AM7XXX_DIRECTION_IN  1 /* host <- device */

struct am7xxx_header {
        uint32_t packet_type;
        uint8_t direction;
        uint8_t header_data_len;
        uint8_t unknown2;
        uint8_t unknown3;
        union {
                struct am7xxx_generic_header data;
                struct am7xxx_devinfo_header devinfo;
                struct am7xxx_image_header image;
                struct am7xxx_power_header power;
                struct am7xxx_zoom_header zoom;
        } header_data;
};


#ifdef DEBUG
static void debug_dump_devinfo_header(am7xxx_context *ctx, struct am7xxx_devinfo_header *d)
{
        if (ctx == NULL || d == NULL)
                return;

        debug(ctx, "Info header:\n");
        debug(ctx, "\tnative_width:  0x%08x (%u)\n", d->native_width, d->native_width);
        debug(ctx, "\tnative_height: 0x%08x (%u)\n", d->native_height, d->native_height);
        debug(ctx, "\tunknown0:      0x%08x (%u)\n", d->unknown0, d->unknown0);
        debug(ctx, "\tunknown1:      0x%08x (%u)\n", d->unknown1, d->unknown1);
}

static void debug_dump_image_header(am7xxx_context *ctx, struct am7xxx_image_header *i)
{
        if (ctx == NULL || i == NULL)
                return;

        debug(ctx, "Image header:\n");
        debug(ctx, "\tformat:     0x%08x (%u)\n", i->format, i->format);
        debug(ctx, "\twidth:      0x%08x (%u)\n", i->width, i->width);
        debug(ctx, "\theight:     0x%08x (%u)\n", i->height, i->height);
        debug(ctx, "\timage size: 0x%08x (%u)\n", i->image_size, i->image_size);
}

static void debug_dump_power_header(am7xxx_context *ctx, struct am7xxx_power_header *p)
{
        if (ctx == NULL || p == NULL)
                return;

        debug(ctx, "Power header:\n");
        debug(ctx, "\tbit2: 0x%08x (%u)\n", p->bit2, p->bit2);
        debug(ctx, "\tbit1: 0x%08x (%u)\n", p->bit1, p->bit1);
        debug(ctx, "\tbit0: 0x%08x (%u)\n", p->bit0, p->bit0);
}

static void debug_dump_zoom_header(am7xxx_context *ctx, struct am7xxx_zoom_header *z)
{
        if (ctx == NULL || z == NULL)
                return;

        debug(ctx, "Zoom header:\n");
        debug(ctx, "\tbit1: 0x%08x (%u)\n", z->bit1, z->bit1);
        debug(ctx, "\tbit0: 0x%08x (%u)\n", z->bit0, z->bit0);
}

static void debug_dump_header(am7xxx_context *ctx, struct am7xxx_header *h)
{
        if (ctx == NULL || h == NULL)
                return;

        debug(ctx, "BEGIN\n");
        debug(ctx, "packet_type:     0x%08x (%u)\n", h->packet_type, h->packet_type);
        debug(ctx, "direction:       0x%02hhx (%hhu) (%s)\n", h->direction, h->direction,
              h->direction == AM7XXX_DIRECTION_IN ? "IN" :
              h->direction == AM7XXX_DIRECTION_OUT ? "OUT" :
              "UNKNOWN");
        debug(ctx, "header_data_len: 0x%02hhx (%hhu)\n", h->header_data_len, h->header_data_len);
        debug(ctx, "unknown2:        0x%02hhx (%hhu)\n", h->unknown2, h->unknown2);
        debug(ctx, "unknown3:        0x%02hhx (%hhu)\n", h->unknown3, h->unknown3);

        switch(h->packet_type) {
        case AM7XXX_PACKET_TYPE_DEVINFO:
                debug_dump_devinfo_header(ctx, &(h->header_data.devinfo));
                break;

        case AM7XXX_PACKET_TYPE_IMAGE:
                debug_dump_image_header(ctx, &(h->header_data.image));
                break;

        case AM7XXX_PACKET_TYPE_POWER:
                debug_dump_power_header(ctx, &(h->header_data.power));
                break;

        case AM7XXX_PACKET_TYPE_ZOOM:
                debug_dump_zoom_header(ctx, &(h->header_data.zoom));
                break;

        default:
                debug(ctx, "Packet type not supported!\n");
                break;
        }
        debug(ctx, "END\n\n");
}

static inline unsigned int in_80chars(unsigned int i)
{
        /* The 3 below is the length of "xx " where xx is the hex string
         * representation of a byte */
        return ((i+1) % (80/3));
}

static void trace_dump_buffer(am7xxx_context *ctx, const char *message,
                              uint8_t *buffer, unsigned int len)
{
        unsigned int i;

        if (ctx == NULL || buffer == NULL || len == 0)
                return;

        trace(ctx, "\n");
        if (message)
                trace(ctx, "%s\n", message);

        for (i = 0; i < len; i++) {
                trace(ctx, "%02hhX%c", buffer[i], (in_80chars(i) && (i < len - 1)) ? ' ' : '\n');
        }
        trace(ctx, "\n");
}
#else
static void debug_dump_header(am7xxx_context *ctx, struct am7xxx_header *h)
{
        (void)ctx;
        (void)h;
}

static void trace_dump_buffer(am7xxx_context *ctx, const char *message,
                              uint8_t *buffer, unsigned int len)
{
        (void)ctx;
        (void)message;
        (void)buffer;
        (void)len;
}
#endif /* DEBUG */

static int read_data(am7xxx_device *dev, uint8_t *buffer, unsigned int len)
{
        int ret;
        int transferred = 0;

        ret = libusb_bulk_transfer(dev->usb_device, 0x81, buffer, len, &transferred, 0);
        if (ret != 0 || (unsigned int)transferred != len) {
                error(dev->ctx, "ret: %d\ttransferred: %d (expected %u)\n",
                      ret, transferred, len);
                return ret;
        }

        trace_dump_buffer(dev->ctx, "<-- received", buffer, len);

        return 0;
}

static int send_data(am7xxx_device *dev, uint8_t *buffer, unsigned int len)
{
        int ret;
        int transferred = 0;

        trace_dump_buffer(dev->ctx, "sending -->", buffer, len);

        ret = libusb_bulk_transfer(dev->usb_device, 0x1, buffer, len, &transferred, 0);
        if (ret != 0 || (unsigned int)transferred != len) {
                error(dev->ctx, "ret: %d\ttransferred: %d (expected %u)\n",
                      ret, transferred, len);
                return ret;
        }

        return 0;
}

static void serialize_header(struct am7xxx_header *h, uint8_t *buffer)
{
        uint8_t **buffer_iterator = &buffer;

        put_le32(h->packet_type, buffer_iterator);
        put_8(h->direction, buffer_iterator);
        put_8(h->header_data_len, buffer_iterator);
        put_8(h->unknown2, buffer_iterator);
        put_8(h->unknown3, buffer_iterator);
        put_le32(h->header_data.data.field0, buffer_iterator);
        put_le32(h->header_data.data.field1, buffer_iterator);
        put_le32(h->header_data.data.field2, buffer_iterator);
        put_le32(h->header_data.data.field3, buffer_iterator);
}

static void unserialize_header(uint8_t *buffer, struct am7xxx_header *h)
{
        uint8_t **buffer_iterator = &buffer;

        h->packet_type = get_le32(buffer_iterator);
        h->direction = get_8(buffer_iterator);
        h->header_data_len = get_8(buffer_iterator);
        h->unknown2 = get_8(buffer_iterator);
        h->unknown3 = get_8(buffer_iterator);
        h->header_data.data.field0 = get_le32(buffer_iterator);
        h->header_data.data.field1 = get_le32(buffer_iterator);
        h->header_data.data.field2 = get_le32(buffer_iterator);
        h->header_data.data.field3 = get_le32(buffer_iterator);
}

static int read_header(am7xxx_device *dev, struct am7xxx_header *h)
{
        int ret;

        ret = read_data(dev, dev->buffer, AM7XXX_HEADER_WIRE_SIZE);
        if (ret < 0)
                goto out;

        unserialize_header(dev->buffer, h);

        if (h->direction == AM7XXX_DIRECTION_IN) {
                ret = 0;
        } else {
                error(dev->ctx,
                      "Expected an AM7XXX_DIRECTION_IN packet, got one with direction = %d. Weird!\n",
                      h->direction);
                ret = -EINVAL;
        }

        debug_dump_header(dev->ctx, h);

out:
        return ret;
}

static int send_header(am7xxx_device *dev, struct am7xxx_header *h)
{
        int ret;

        debug_dump_header(dev->ctx, h);

        /* For symmetry with read_header() we should check here for
         * h->direction == AM7XXX_DIRECTION_OUT but we just ensure that in all
         * the callers and save some cycles here.
         */

        serialize_header(h, dev->buffer);

        ret = send_data(dev, dev->buffer, AM7XXX_HEADER_WIRE_SIZE);
        if (ret < 0)
                error(dev->ctx, "failed to send data\n");

        return ret;
}

/* When level == AM7XXX_LOG_FATAL do not check the log_level from the context
 * and print the message unconditionally, this makes it possible to print
 * fatal messages even early on initialization, before the context has been
 * set up */
static void log_message(am7xxx_context *ctx,
                        int level,
                        const char *function,
                        int line,
                        const char *fmt,
                        ...)
{
        va_list ap;

        if (level == AM7XXX_LOG_FATAL || (ctx && level <= ctx->log_level)) {
                if (function) {
                        fprintf(stderr, "%s", function);
                        if (line)
                                fprintf(stderr, "[%d]", line);
                        fprintf(stderr, ": ");
                }

                va_start(ap, fmt);
                vfprintf(stderr, fmt, ap);
                va_end(ap);
        }

        return;
}

static am7xxx_device *add_new_device(am7xxx_context *ctx)
{
        am7xxx_device **devices_list;
        am7xxx_device *new_device;

        if (ctx == NULL) {
                fatal("context must not be NULL!\n");
                return NULL;
        }

        new_device = malloc(sizeof(*new_device));
        if (new_device == NULL) {
                fatal("cannot allocate a new device (%s)\n", strerror(errno));
                return NULL;
        }
        memset(new_device, 0, sizeof(*new_device));

        new_device->ctx = ctx;

        devices_list = &(ctx->devices_list);

        if (*devices_list == NULL) {
                *devices_list = new_device;
        } else {
                am7xxx_device *prev = *devices_list;
                while (prev->next)
                        prev = prev->next;
                prev->next = new_device;
        }
        return new_device;
}

static am7xxx_device *find_device(am7xxx_context *ctx,
                                  unsigned int device_index)
{
        unsigned int i = 0;
        am7xxx_device *current;

        if (ctx == NULL) {
                fatal("context must not be NULL!\n");
                return NULL;
        }

        current = ctx->devices_list;
        while (current && i++ < device_index)
                current = current->next;

        return current;
}

typedef enum {
        SCAN_OP_BUILD_DEVLIST,
        SCAN_OP_OPEN_DEVICE,
} scan_op;

/**
 * This is where the central logic of multi-device support is.
 *
 * When 'op' == SCAN_OP_BUILD_DEVLIST the parameters 'open_device_index' and
 * 'dev' are ignored; the function returns 0 on success and a negative value
 * on error.
 *
 * When 'op' == SCAN_OP_OPEN_DEVICE the function opens the supported USB
 * device with index 'open_device_index' and returns the correspondent
 * am7xxx_device in the 'dev' parameter; the function returns 0 on success,
 * 1 if the device was already open and a negative value on error.
 *
 * NOTES:
 * if scan_devices() fails when called with 'op' == SCAN_OP_BUILD_DEVLIST,
 * the caller might want to call am7xxx_shutdown() in order to remove
 * devices possibly added before the failure.
 */
static int scan_devices(am7xxx_context *ctx, scan_op op,
                        unsigned int open_device_index, am7xxx_device **dev)
{
        int num_devices;
        libusb_device** list;
        unsigned int current_index;
        int i;
        int ret;

        if (ctx == NULL) {
                fatal("context must not be NULL!\n");
                return -EINVAL;
        }
        if (op == SCAN_OP_BUILD_DEVLIST && ctx->devices_list != NULL) {
                error(ctx, "device scan done already? Abort!\n");
                return -EINVAL;
        }

        num_devices = libusb_get_device_list(ctx->usb_context, &list);
        if (num_devices < 0) {
                ret = -ENODEV;
                goto out;
        }

        current_index = 0;
        for (i = 0; i < num_devices; i++) {
                struct libusb_device_descriptor desc;
                unsigned int j;

                ret = libusb_get_device_descriptor(list[i], &desc);
                if (ret < 0)
                        continue;

                for (j = 0; j < ARRAY_SIZE(supported_devices); j++) {
                        if (desc.idVendor == supported_devices[j].vendor_id
                            && desc.idProduct == supported_devices[j].product_id) {

                                if (op == SCAN_OP_BUILD_DEVLIST) {
                                        am7xxx_device *new_device;
                                        info(ctx, "am7xxx device found, index: %d, name: %s\n",
                                             current_index,
                                             supported_devices[j].name);
                                        new_device = add_new_device(ctx);
                                        if (new_device == NULL) {
                                                /* XXX, the caller may want
                                                 * to call am7xxx_shutdown() if
                                                 * we fail here, as we may have
                                                 * added some devices already
                                                 */
                                                debug(ctx, "Cannot create a new device\n");
                                                ret = -ENODEV;
                                                goto out;
                                        }
                                } else if (op == SCAN_OP_OPEN_DEVICE &&
                                           current_index == open_device_index) {

                                        *dev = find_device(ctx, open_device_index);
                                        if (*dev == NULL) {
                                                ret = -ENODEV;
                                                goto out;
                                        }

                                        /* the usb device has already been opened */
                                        if ((*dev)->usb_device) {
                                                debug(ctx, "(*dev)->usb_device already set\n");
                                                ret = 1;
                                                goto out;
                                        }

                                        ret = libusb_open(list[i], &((*dev)->usb_device));
                                        if (ret < 0) {
                                                debug(ctx, "libusb_open failed\n");
                                                goto out;
                                        }

                                        libusb_set_configuration((*dev)->usb_device, 2);
                                        libusb_claim_interface((*dev)->usb_device, 0);
                                        goto out;
                                }
                                current_index++;
                        }
                }
        }

        /* if we made it up to here we didn't find any device to open */
        if (op == SCAN_OP_OPEN_DEVICE) {
                error(ctx, "Cannot find any device to open\n");
                ret = -ENODEV;
                goto out;
        }

        /* everything went fine when building the device list */
        ret = 0;
out:
        libusb_free_device_list(list, 1);
        return ret;
}

/* Public API */

AM7XXX_PUBLIC int am7xxx_init(am7xxx_context **ctx)
{
        int ret = 0;

        *ctx = malloc(sizeof(**ctx));
        if (*ctx == NULL) {
                fatal("cannot allocate the context (%s)\n", strerror(errno));
                ret = -ENOMEM;
                goto out;
        }
        memset(*ctx, 0, sizeof(**ctx));

        /* Set the highest log level during initialization */
        (*ctx)->log_level = AM7XXX_LOG_TRACE;

        ret = libusb_init(&((*ctx)->usb_context));
        if (ret < 0)
                goto out_free_context;

        libusb_set_debug((*ctx)->usb_context, 3);

        ret = scan_devices(*ctx, SCAN_OP_BUILD_DEVLIST , 0, NULL);
        if (ret < 0) {
                error(*ctx, "scan_devices() failed\n");
                am7xxx_shutdown(*ctx);
                goto out;
        }

        /* Set a quieter log level as default for normal operation */
        (*ctx)->log_level = AM7XXX_LOG_ERROR;
        return 0;

out_free_context:
        free(*ctx);
        *ctx = NULL;
out:
        return ret;
}

AM7XXX_PUBLIC void am7xxx_shutdown(am7xxx_context *ctx)
{
        am7xxx_device *current;

        if (ctx == NULL) {
                fatal("context must not be NULL!\n");
                return;
        }

        current = ctx->devices_list;
        while (current) {
                am7xxx_device *next = current->next;
                am7xxx_close_device(current);
                free(current);
                current = next;
        }

        libusb_exit(ctx->usb_context);
        free(ctx);
        ctx = NULL;
}

AM7XXX_PUBLIC void am7xxx_set_log_level(am7xxx_context *ctx, am7xxx_log_level log_level)
{
        ctx->log_level = log_level;
}

AM7XXX_PUBLIC int am7xxx_open_device(am7xxx_context *ctx, am7xxx_device **dev,
                       unsigned int device_index)
{
        int ret;

        if (ctx == NULL) {
                fatal("context must not be NULL!\n");
                return -EINVAL;
        }

        ret = scan_devices(ctx, SCAN_OP_OPEN_DEVICE, device_index, dev);
        if (ret < 0) {
                errno = ENODEV;
        } else if (ret > 0) {
                warning(ctx, "device %d already open\n", device_index);
                errno = EBUSY;
                ret = -EBUSY;
        }

        return ret;
}

AM7XXX_PUBLIC int am7xxx_close_device(am7xxx_device *dev)
{
        if (dev == NULL) {
                fatal("dev must not be NULL!\n");
                return -EINVAL;
        }
        if (dev->usb_device) {
                libusb_release_interface(dev->usb_device, 0);
                libusb_close(dev->usb_device);
                dev->usb_device = NULL;
        }
        return 0;
}

AM7XXX_PUBLIC int am7xxx_get_device_info(am7xxx_device *dev,
                           am7xxx_device_info *device_info)
{
        int ret;
        struct am7xxx_header h = {
                .packet_type     = AM7XXX_PACKET_TYPE_DEVINFO,
                .direction       = AM7XXX_DIRECTION_OUT,
                .header_data_len = 0x00,
                .unknown2        = 0x3e,
                .unknown3        = 0x10,
                .header_data = {
                        .devinfo = {
                                .native_width  = 0,
                                .native_height = 0,
                                .unknown0      = 0,
                                .unknown1      = 0,
                        },
                },
        };

        ret = send_header(dev, &h);
        if (ret < 0)
                return ret;

        ret = read_header(dev, &h);
        if (ret < 0)
                return ret;

        if (h.packet_type != AM7XXX_PACKET_TYPE_DEVINFO) {
                error(dev->ctx, "expected packet type: %d, got %d instead!\n",
                      AM7XXX_PACKET_TYPE_DEVINFO, h.packet_type);
                errno = ENOTSUP;
                return -ENOTSUP;
        }

        device_info->native_width = h.header_data.devinfo.native_width;
        device_info->native_height = h.header_data.devinfo.native_height;
#if 0
        /* No reason to expose these in the public API until we know what they mean */
        device_info->unknown0 = h.header_data.devinfo.unknown0;
        device_info->unknown1 = h.header_data.devinfo.unknown1;
#endif

        return 0;
}

AM7XXX_PUBLIC int am7xxx_calc_scaled_image_dimensions(am7xxx_device *dev,
                                        unsigned int upscale,
                                        unsigned int original_width,
                                        unsigned int original_height,
                                        unsigned int *scaled_width,
                                        unsigned int *scaled_height)
{

        am7xxx_device_info device_info;
        float width_ratio;
        float height_ratio;
        int ret;

        ret = am7xxx_get_device_info(dev, &device_info);
        if (ret < 0) {
                error(dev->ctx, "cannot get device info\n");
                return ret;
        }

        /*
         * Check if we need to rescale; if the input image fits the native
         * dimensions there is no need to, unless we want to upscale.
         */
        if (!upscale &&
            original_width <= device_info.native_width &&
            original_height <= device_info.native_height ) {
                debug(dev->ctx, "CASE 0, no rescaling, the original image fits already\n");
                *scaled_width = original_width;
                *scaled_height = original_height;
                return 0;
        }

        /* Input dimensions relative to the device native dimensions */
        width_ratio =  (float)original_width / device_info.native_width;
        height_ratio = (float)original_height / device_info.native_height;

        if (width_ratio > height_ratio) {
                /*
                 * The input is proportionally "wider" than the device viewport
                 * so its height needs to be adjusted
                 */
                debug(dev->ctx, "CASE 1, original image wider, adjust the scaled height\n");
                *scaled_width = device_info.native_width;
                *scaled_height = (unsigned int)lroundf(original_height / width_ratio);
        } else if (width_ratio < height_ratio) {
                /*
                 * The input is proportionally "taller" than the device viewport
                 * so its width needs to be adjusted
                 */
                debug(dev->ctx, "CASE 2 original image taller, adjust the scaled width\n");
                *scaled_width = (unsigned int)lroundf(original_width / height_ratio);
                *scaled_height = device_info.native_height;
        } else {
                debug(dev->ctx, "CASE 3, just rescale, same aspect ratio already\n");
                *scaled_width = device_info.native_width;
                *scaled_height = device_info.native_height;
        }
        debug(dev->ctx, "scaled dimensions: %dx%d\n", *scaled_width, *scaled_height);

        return 0;
}

AM7XXX_PUBLIC int am7xxx_send_image(am7xxx_device *dev,
                      am7xxx_image_format format,
                      unsigned int width,
                      unsigned int height,
                      uint8_t *image,
                      unsigned int image_size)
{
        int ret;
        struct am7xxx_header h = {
                .packet_type     = AM7XXX_PACKET_TYPE_IMAGE,
                .direction       = AM7XXX_DIRECTION_OUT,
                .header_data_len = sizeof(struct am7xxx_image_header),
                .unknown2        = 0x3e,
                .unknown3        = 0x10,
                .header_data = {
                        .image = {
                                .format     = format,
                                .width      = width,
                                .height     = height,
                                .image_size = image_size,
                        },
                },
        };

        ret = send_header(dev, &h);
        if (ret < 0)
                return ret;

        if (image == NULL || image_size == 0) {
                warning(dev->ctx, "Not sending any data, check the 'image' or 'image_size' parameters\n");
                return 0;
        }

        return send_data(dev, image, image_size);
}

AM7XXX_PUBLIC int am7xxx_set_power_mode(am7xxx_device *dev, am7xxx_power_mode power)
{
        int ret;
        struct am7xxx_header h = {
                .packet_type     = AM7XXX_PACKET_TYPE_POWER,
                .direction       = AM7XXX_DIRECTION_OUT,
                .header_data_len = sizeof(struct am7xxx_power_header),
                .unknown2        = 0x3e,
                .unknown3        = 0x10,
        };

        switch(power) {
        case AM7XXX_POWER_OFF:
                h.header_data.power.bit2 = 0;
                h.header_data.power.bit1 = 0;
                h.header_data.power.bit0 = 0;
                break;

        case AM7XXX_POWER_LOW:
                h.header_data.power.bit2 = 0;
                h.header_data.power.bit1 = 0;
                h.header_data.power.bit0 = 1;
                break;

        case AM7XXX_POWER_MIDDLE:
                h.header_data.power.bit2 = 0;
                h.header_data.power.bit1 = 1;
                h.header_data.power.bit0 = 0;
                break;

        case AM7XXX_POWER_HIGH:
                h.header_data.power.bit2 = 0;
                h.header_data.power.bit1 = 1;
                h.header_data.power.bit0 = 1;
                break;

        case AM7XXX_POWER_TURBO:
                h.header_data.power.bit2 = 1;
                h.header_data.power.bit1 = 0;
                h.header_data.power.bit0 = 0;
                break;

        default:
                error(dev->ctx, "Unsupported power mode.\n");
                return -EINVAL;
        };

        ret = send_header(dev, &h);
        if (ret < 0)
                return ret;

        return 0;
}

AM7XXX_PUBLIC int am7xxx_set_zoom_mode(am7xxx_device *dev, am7xxx_zoom_mode zoom)
{
        int ret;
        struct am7xxx_header h = {
                .packet_type     = AM7XXX_PACKET_TYPE_ZOOM,
                .direction       = AM7XXX_DIRECTION_OUT,
                .header_data_len = sizeof(struct am7xxx_zoom_header),
                .unknown2        = 0x3e,
                .unknown3        = 0x10,
        };

        switch(zoom) {
        case AM7XXX_ZOOM_ORIGINAL:
                h.header_data.zoom.bit1 = 0;
                h.header_data.zoom.bit0 = 0;
                break;

        case AM7XXX_ZOOM_H:
                h.header_data.zoom.bit1 = 0;
                h.header_data.zoom.bit0 = 1;
                break;

        case AM7XXX_ZOOM_H_V:
                h.header_data.zoom.bit1 = 1;
                h.header_data.zoom.bit0 = 0;
                break;

        case AM7XXX_ZOOM_TEST:
                h.header_data.zoom.bit1 = 1;
                h.header_data.zoom.bit0 = 1;
                break;

        default:
                error(dev->ctx, "Unsupported zoom mode.\n");
                return -EINVAL;
        };

        ret = send_header(dev, &h);
        if (ret < 0)
                return ret;

        return 0;
}