ftdi.cpp

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/***************************************************************************
                          ftdi.cpp  -  C++ wraper for libftdi
                             -------------------
    begin                : Mon Oct 13 2008
    copyright            : (C) 2008-2017 by Marek Vavruša / libftdi developers
    email                : opensource@intra2net.com and marek@vavrusa.com
 ***************************************************************************/
/*
Copyright (C) 2008-2017 by Marek Vavruša / libftdi developers

The software in this package is distributed under the GNU General
Public License version 2 (with a special exception described below).

A copy of GNU General Public License (GPL) is included in this distribution,
in the file COPYING.GPL.

As a special exception, if other files instantiate templates or use macros
or inline functions from this file, or you compile this file and link it
with other works to produce a work based on this file, this file
does not by itself cause the resulting work to be covered
by the GNU General Public License.

However the source code for this file must still be made available
in accordance with section (3) of the GNU General Public License.

This exception does not invalidate any other reasons why a work based
on this file might be covered by the GNU General Public License.
*/
#include <libusb.h>
#include "ftdi.hpp"
#include "ftdi_i.h"
#include "ftdi.h"

namespace Ftdi
{

class Context::Private
{
public:
    Private()
            : open(false), ftdi(0), dev(0)
    {
        ftdi = ftdi_new();
    }

    ~Private()
    {
        if (open)
            ftdi_usb_close(ftdi);

        ftdi_free(ftdi);
    }

    bool open;

    struct ftdi_context* ftdi;
    struct libusb_device* dev;

    std::string vendor;
    std::string description;
    std::string serial;
};

Context::Context()
        : d( new Private() )
{
}

Context::~Context()
{
}

bool Context::is_open()
{
    return d->open;
}

int Context::open(int vendor, int product)
{
    // Open device
    int ret = ftdi_usb_open(d->ftdi, vendor, product);

    if (ret < 0)
       return ret;

    return get_strings_and_reopen(false,false,false);
}

int Context::open(int vendor, int product, const std::string& description, const std::string& serial, unsigned int index)
{
    // translate empty strings to NULL
    // -> do not use them to find the device (vs. require an empty string to be set in the EEPROM)
    const char* c_description=NULL;
    const char* c_serial=NULL;
    if (!description.empty())
        c_description=description.c_str();
    if (!serial.empty())
        c_serial=serial.c_str();

    int ret = ftdi_usb_open_desc_index(d->ftdi, vendor, product, c_description, c_serial, index);

    if (ret < 0)
       return ret;

    return get_strings_and_reopen(false,!description.empty(),!serial.empty());
}

int Context::open(const std::string& description)
{
    int ret = ftdi_usb_open_string(d->ftdi, description.c_str());

    if (ret < 0)
       return ret;

    return get_strings_and_reopen(false,true,false);
}

int Context::open(struct libusb_device *dev)
{
    if (dev != 0)
        d->dev = dev;

    if (d->dev == 0)
        return -1;

    return get_strings_and_reopen();
}

int Context::close()
{
    d->open = false;
    d->dev = 0;
    return ftdi_usb_close(d->ftdi);
}

int Context::reset()
{
    return ftdi_usb_reset(d->ftdi);
}

int Context::flush(int mask)
{
    int ret;

    switch (mask & (Input | Output)) {
    case Input:
        ret = ftdi_usb_purge_rx_buffer(d->ftdi);
        break;

    case Output:
        ret = ftdi_usb_purge_tx_buffer(d->ftdi);
        break;

    case Input | Output:
        ret = ftdi_usb_purge_buffers(d->ftdi);
        break;

    default:
        // Emulate behavior of previous version.
        ret = 1;
        break;
    }

    return ret;
}

int Context::set_interface(enum ftdi_interface interface)
{
    return ftdi_set_interface(d->ftdi, interface);
}

void Context::set_usb_device(struct libusb_device_handle *dev)
{
    ftdi_set_usbdev(d->ftdi, dev);
    d->dev = libusb_get_device(dev);
}

int Context::set_baud_rate(int baudrate)
{
    return ftdi_set_baudrate(d->ftdi, baudrate);
}

int Context::set_line_property(enum ftdi_bits_type bits, enum ftdi_stopbits_type sbit, enum ftdi_parity_type parity)
{
    return ftdi_set_line_property(d->ftdi, bits, sbit, parity);
}

int Context::set_line_property(enum ftdi_bits_type bits, enum ftdi_stopbits_type sbit, enum ftdi_parity_type parity, enum ftdi_break_type break_type)
{
    return ftdi_set_line_property2(d->ftdi, bits, sbit, parity, break_type);
}

int Context::get_usb_read_timeout() const
{
    return d->ftdi->usb_read_timeout;
}

void Context::set_usb_read_timeout(int usb_read_timeout)
{
    d->ftdi->usb_read_timeout = usb_read_timeout;
}

int Context::get_usb_write_timeout() const
{
    return d->ftdi->usb_write_timeout;
}

void Context::set_usb_write_timeout(int usb_write_timeout)
{
    d->ftdi->usb_write_timeout = usb_write_timeout;
}

int Context::read(unsigned char *buf, int size)
{
    return ftdi_read_data(d->ftdi, buf, size);
}

int Context::set_read_chunk_size(unsigned int chunksize)
{
    return ftdi_read_data_set_chunksize(d->ftdi, chunksize);
}

int Context::read_chunk_size()
{
    unsigned chunk = -1;
    if (ftdi_read_data_get_chunksize(d->ftdi, &chunk) < 0)
        return -1;

    return chunk;
}

int Context::write(const unsigned char *buf, int size)
{
    return ftdi_write_data(d->ftdi, buf, size);
}

int Context::set_write_chunk_size(unsigned int chunksize)
{
    return ftdi_write_data_set_chunksize(d->ftdi, chunksize);
}

int Context::write_chunk_size()
{
    unsigned chunk = -1;
    if (ftdi_write_data_get_chunksize(d->ftdi, &chunk) < 0)
        return -1;

    return chunk;
}

int Context::set_flow_control(int flowctrl)
{
    return ftdi_setflowctrl(d->ftdi, flowctrl);
}

int Context::set_modem_control(int mask)
{
    int dtr = 0, rts = 0;

    if (mask & Dtr)
        dtr = 1;
    if (mask & Rts)
        rts = 1;

    return ftdi_setdtr_rts(d->ftdi, dtr, rts);
}

int Context::set_dtr(bool state)
{
    return ftdi_setdtr(d->ftdi, state);
}

int Context::set_rts(bool state)
{
    return ftdi_setrts(d->ftdi, state);
}

int Context::set_latency(unsigned char latency)
{
    return ftdi_set_latency_timer(d->ftdi, latency);
}

unsigned Context::latency()
{
    unsigned char latency = 0;
    ftdi_get_latency_timer(d->ftdi, &latency);
    return latency;
}

unsigned short Context::poll_modem_status()
{
    unsigned short status = 0;
    ftdi_poll_modem_status(d->ftdi, &status);
    return status;
}

int Context::set_event_char(unsigned char eventch, unsigned char enable)
{
    return ftdi_set_event_char(d->ftdi, eventch, enable);
}

int Context::set_error_char(unsigned char errorch, unsigned char enable)
{
    return ftdi_set_error_char(d->ftdi, errorch, enable);
}

int Context::set_bitmode(unsigned char bitmask, unsigned char mode)
{
    return ftdi_set_bitmode(d->ftdi, bitmask, mode);
}

int Context::set_bitmode(unsigned char bitmask, enum ftdi_mpsse_mode mode)
{
    return ftdi_set_bitmode(d->ftdi, bitmask, mode);
}

int Context::bitbang_disable()
{
    return ftdi_disable_bitbang(d->ftdi);
}

int Context::read_pins(unsigned char *pins)
{
    return ftdi_read_pins(d->ftdi, pins);
}

const char* Context::error_string()
{
    return ftdi_get_error_string(d->ftdi);
}

int Context::get_strings(bool vendor, bool description, bool serial)
{
    // Prepare buffers
    char ivendor[512], idesc[512], iserial[512];

    int ret = ftdi_usb_get_strings(d->ftdi, d->dev, vendor?ivendor:NULL, 512, description?idesc:NULL, 512, serial?iserial:NULL, 512);

    if (ret < 0)
        return -1;

    d->vendor = ivendor;
    d->description = idesc;
    d->serial = iserial;

    return 1;
}

int Context::get_strings_and_reopen(bool vendor, bool description, bool serial)
{
    int ret = 0;

    if(vendor || description || serial)
    {
        if (d->dev == 0)
        {
            d->dev = libusb_get_device(d->ftdi->usb_dev);
        }

        // Get device strings (closes device)
        ret=get_strings(vendor, description, serial);
        if (ret < 0)
        {
            d->open = 0;
            return ret;
        }

        // Reattach device
        ret = ftdi_usb_open_dev(d->ftdi, d->dev);
        d->open = (ret >= 0);
    }

    return ret;
}

const std::string& Context::vendor()
{
    if(d->vendor.empty())
        get_strings_and_reopen(true,false,false);
    return d->vendor;
}

const std::string& Context::description()
{
    if(d->description.empty())
        get_strings_and_reopen(false,true,false);
    return d->description;
}

const std::string& Context::serial()
{
    if(d->serial.empty())
        get_strings_and_reopen(false,false,true);
    return d->serial;
}

void Context::set_context(struct ftdi_context* context)
{
    ftdi_free(d->ftdi);
    d->ftdi = context;
}

void Context::set_usb_device(struct libusb_device *dev)
{
    d->dev = dev;
}

struct ftdi_context* Context::context()
{
    return d->ftdi;
}

class Eeprom::Private
{
public:
    Private()
            : context(0)
    {}

    struct ftdi_eeprom eeprom;
    struct ftdi_context* context;
};

Eeprom::Eeprom(Context* parent)
        : d ( new Private() )
{
    d->context = parent->context();
}

Eeprom::~Eeprom()
{
}

int Eeprom::init_defaults(char* manufacturer, char *product, char * serial)
{
    return ftdi_eeprom_initdefaults(d->context, manufacturer, product, serial);
}

int Eeprom::chip_id(unsigned int *chipid)
{
    return ftdi_read_chipid(d->context, chipid);
}

int Eeprom::build(unsigned char *output)
{
    return ftdi_eeprom_build(d->context);
}

int Eeprom::read(unsigned char *eeprom)
{
    return ftdi_read_eeprom(d->context);
}

int Eeprom::write(unsigned char *eeprom)
{
    return ftdi_write_eeprom(d->context);
}

int Eeprom::read_location(int eeprom_addr, unsigned short *eeprom_val)
{
    return ftdi_read_eeprom_location(d->context, eeprom_addr, eeprom_val);
}

int Eeprom::write_location(int eeprom_addr, unsigned short eeprom_val)
{
    return ftdi_write_eeprom_location(d->context, eeprom_addr, eeprom_val);
}

int Eeprom::erase()
{
    return ftdi_erase_eeprom(d->context);
}

class List::Private
{
public:
    Private(struct ftdi_device_list* _devlist)
            : devlist(_devlist)
    {}

    ~Private()
    {
        if(devlist)
            ftdi_list_free(&devlist);
    }

    std::list<Context> list;
    struct ftdi_device_list* devlist;
};

List::List(struct ftdi_device_list* devlist)
        : d( new Private(devlist) )
{
    if (devlist != 0)
    {
        // Iterate list
        for (; devlist != 0; devlist = devlist->next)
        {
            Context c;
            c.set_usb_device(devlist->dev);
            c.get_strings();
            d->list.push_back(c);
        }
    }
}

List::~List()
{
}

List::iterator List::begin()
{
    return d->list.begin();
}

List::iterator List::end()
{
    return d->list.end();
}

List::const_iterator List::begin() const
{
    return d->list.begin();
}

List::const_iterator List::end() const
{
    return d->list.end();
}

List::reverse_iterator List::rbegin()
{
    return d->list.rbegin();
}

List::reverse_iterator List::rend()
{
    return d->list.rend();
}

List::const_reverse_iterator List::rbegin() const
{
    return d->list.rbegin();
}

List::const_reverse_iterator List::rend() const
{
    return d->list.rend();

}

List::ListType::size_type List::size() const
{
    return d->list.size();
}

bool List::empty() const
{
    return d->list.empty();
}

void List::clear()
{
    ListType().swap(d->list);

    // Free device list
    if (d->devlist)
    {
        ftdi_list_free(&d->devlist);
        d->devlist = 0;
    }
}

void List::push_back(const Context& element)
{
    d->list.push_back(element);
}

void List::push_front(const Context& element)
{
    d->list.push_front(element);
}

List::iterator List::erase(iterator pos)
{
    return d->list.erase(pos);
}

List::iterator List::erase(iterator beg, iterator end)
{
    return d->list.erase(beg, end);
}

List* List::find_all(Context &context, int vendor, int product)
{
    struct ftdi_device_list* dlist = 0;
    ftdi_usb_find_all(context.context(), &dlist, vendor, product);
    return new List(dlist);
}

}