/* * osmo-fl2k, turns FL2000-based USB 3.0 to VGA adapters into * low cost DACs * * Copyright (C) 2016-2018 by Steve Markgraf * * SPDX-License-Identifier: GPL-2.0+ * * 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 . */ #ifndef __FL2K_H #define __FL2K_H #ifdef __cplusplus extern "C" { #endif #include #include "osmo-fl2k_export.h" enum fl2k_error { FL2K_SUCCESS = 0, FL2K_TRUE = 1, FL2K_ERROR_INVALID_PARAM = -1, FL2K_ERROR_NO_DEVICE = -2, FL2K_ERROR_NOT_FOUND = -5, FL2K_ERROR_BUSY = -6, FL2K_ERROR_TIMEOUT = -7, FL2K_ERROR_NO_MEM = -11, }; typedef struct fl2k_data_info { /* information provided by library */ void *ctx; uint32_t underflow_cnt; /* underflows since last callback */ uint32_t len; /* buffer length */ int using_zerocopy; /* using zerocopy kernel buffers */ int device_error; /* device error happened, terminate application */ /* filled in by application */ int sampletype_signed; /* are samples signed or unsigned? */ char *r_buf; /* pointer to red buffer */ char *g_buf; /* pointer to green buffer */ char *b_buf; /* pointer to blue buffer */ } fl2k_data_info_t; typedef struct fl2k_dev fl2k_dev_t; /** The transfer length was chosen by the following criteria: * - Must be a supported resolution of the FL2000DX * - Must be a multiple of 61440 bytes (URB payload length), * which is important for using the DAC without HSYNC/VSYNC blanking, * otherwise a couple of samples are missing between every buffer * - Should be smaller than 4MB in order to be allocatable by kmalloc() * for zerocopy transfers **/ #define FL2K_BUF_LEN (1280 * 1024) #define FL2K_XFER_LEN (FL2K_BUF_LEN * 3) FL2K_API uint32_t fl2k_get_device_count(void); FL2K_API const char* fl2k_get_device_name(uint32_t index); FL2K_API int fl2k_open(fl2k_dev_t **dev, uint32_t index); FL2K_API int fl2k_close(fl2k_dev_t *dev); /* configuration functions */ /*! * Set the sample rate (pixel clock) for the device * * \param dev the device handle given by fl2k_open() * \param samp_rate the sample rate to be set, maximum value depends * on host and USB controller * \return 0 on success, -EINVAL on invalid rate */ FL2K_API int fl2k_set_sample_rate(fl2k_dev_t *dev, uint32_t target_freq); /*! * Get actual sample rate the device is configured to. * * \param dev the device handle given by fl2k_open() * \return 0 on error, sample rate in Hz otherwise */ FL2K_API uint32_t fl2k_get_sample_rate(fl2k_dev_t *dev); /* streaming functions */ typedef void(*fl2k_tx_cb_t)(fl2k_data_info_t *data_info); /*! * Starts the tx thread. This function will block until * it is being canceled using fl2k_stop_tx() * * \param dev the device handle given by fl2k_open() * \param ctx user specific context to pass via the callback function * \param buf_num optional buffer count, buf_num * FL2K_BUF_LEN = overall buffer size * set to 0 for default buffer count (4) * \return 0 on success */ FL2K_API int fl2k_start_tx(fl2k_dev_t *dev, fl2k_tx_cb_t cb, void *ctx, uint32_t buf_num); /*! * Cancel all pending asynchronous operations on the device. * * \param dev the device handle given by fl2k_open() * \return 0 on success */ FL2K_API int fl2k_stop_tx(fl2k_dev_t *dev); /*! * Read 4 bytes via the FL2K I2C bus * * \param dev the device handle given by fl2k_open() * \param i2c_addr address of the I2C device * \param reg_addr start address of the 4 bytes to be read * \param data pointer to byte array of size 4 * \return 0 on success * \note A read operation will look like this on the bus: * START, I2C_ADDR(W), REG_ADDR, REP_START, I2C_ADDR(R), DATA[0], STOP * START, I2C_ADDR(W), REG_ADDR+1, REP_START, I2C_ADDR(R), DATA[1], STOP * START, I2C_ADDR(W), REG_ADDR+2, REP_START, I2C_ADDR(R), DATA[2], STOP * START, I2C_ADDR(W), REG_ADDR+3, REP_START, I2C_ADDR(R), DATA[3], STOP */ FL2K_API int fl2k_i2c_read(fl2k_dev_t *dev, uint8_t i2c_addr, uint8_t reg_addr, uint8_t *data); /*! * Write 4 bytes via the FL2K I2C bus * * \param dev the device handle given by fl2k_open() * \param i2c_addr address of the I2C device * \param reg_addr start address of the 4 bytes to be written * \param data pointer to byte array of size 4 * \return 0 on success * \note A write operation will look like this on the bus: * START, I2C_ADDR(W), REG_ADDR, DATA[0], STOP * START, I2C_ADDR(W), REG_ADDR+1, DATA[1], STOP * START, I2C_ADDR(W), REG_ADDR+2, DATA[2], STOP * START, I2C_ADDR(W), REG_ADDR+3, DATA[3], STOP */ FL2K_API int fl2k_i2c_write(fl2k_dev_t *dev, uint8_t i2c_addr, uint8_t reg_addr, uint8_t *data); #ifdef __cplusplus } #endif #endif /* __FL2K_H */