cc3000_hostdriver_mbedsocket - None

Users » JackB » Code » cc3000_hostdriver_mbedsocket

Jack Berkhout / cc3000_hostdriver_mbedsocket

None

Fork of cc3000_hostdriver_mbedsocket by Martin Kojtal

cc3000_spi.cpp@44:960b73df5981, 2013-10-13 (annotated)

Committer:: Kojto
Date:: Sun Oct 13 11:46:21 2013 +0200
Revision:: 44:960b73df5981
Parent:: 42:bd2c631a031a
Child:: 45:50ab13d8f2dc

all _DEBUG_ are set to 0, toggle to enable/disable, doxygen doc for new ethernet interface functions

Who changed what in which revision?

User	Revision	Line number	New contents of line
Kojto	20:30b6ed7bf8fd	1	/*****************************************************************************
Kojto	20:30b6ed7bf8fd	2	*
Kojto	20:30b6ed7bf8fd	3	* C++ interface/implementation created by Martin Kojtal (0xc0170). Thanks to
Kojto	20:30b6ed7bf8fd	4	* Jim Carver and Frank Vannieuwkerke for their inital cc3000 mbed port and
Kojto	20:30b6ed7bf8fd	5	* provided help.
Kojto	20:30b6ed7bf8fd	6	*
Kojto	20:30b6ed7bf8fd	7	* This version of "host driver" uses CC3000 Host Driver Implementation. Thus
Kojto	20:30b6ed7bf8fd	8	* read the following copyright:
Kojto	20:30b6ed7bf8fd	9	*
Kojto	20:30b6ed7bf8fd	10	* Copyright (C) 2011 Texas Instruments Incorporated - http://www.ti.com/
Kojto	20:30b6ed7bf8fd	11	*
Kojto	20:30b6ed7bf8fd	12	* Redistribution and use in source and binary forms, with or without
Kojto	20:30b6ed7bf8fd	13	* modification, are permitted provided that the following conditions
Kojto	20:30b6ed7bf8fd	14	* are met:
Kojto	20:30b6ed7bf8fd	15	*
Kojto	20:30b6ed7bf8fd	16	* Redistributions of source code must retain the above copyright
Kojto	20:30b6ed7bf8fd	17	* notice, this list of conditions and the following disclaimer.
Kojto	20:30b6ed7bf8fd	18	*
Kojto	20:30b6ed7bf8fd	19	* Redistributions in binary form must reproduce the above copyright
Kojto	20:30b6ed7bf8fd	20	* notice, this list of conditions and the following disclaimer in the
Kojto	20:30b6ed7bf8fd	21	* documentation and/or other materials provided with the
Kojto	20:30b6ed7bf8fd	22	* distribution.
Kojto	20:30b6ed7bf8fd	23	*
Kojto	20:30b6ed7bf8fd	24	* Neither the name of Texas Instruments Incorporated nor the names of
Kojto	20:30b6ed7bf8fd	25	* its contributors may be used to endorse or promote products derived
Kojto	20:30b6ed7bf8fd	26	* from this software without specific prior written permission.
Kojto	20:30b6ed7bf8fd	27	*
Kojto	20:30b6ed7bf8fd	28	* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
Kojto	20:30b6ed7bf8fd	29	* "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
Kojto	20:30b6ed7bf8fd	30	* LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
Kojto	20:30b6ed7bf8fd	31	* A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
Kojto	20:30b6ed7bf8fd	32	* OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
Kojto	20:30b6ed7bf8fd	33	* SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
Kojto	20:30b6ed7bf8fd	34	* LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
Kojto	20:30b6ed7bf8fd	35	* DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
Kojto	20:30b6ed7bf8fd	36	* THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
Kojto	20:30b6ed7bf8fd	37	* (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
Kojto	20:30b6ed7bf8fd	38	* OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
Kojto	20:30b6ed7bf8fd	39	*
Kojto	20:30b6ed7bf8fd	40	*****************************************************************************/
Kojto	20:30b6ed7bf8fd	41	#include "cc3000.h"
Kojto	20:30b6ed7bf8fd	42	#include "cc3000_spi.h"
Kojto	20:30b6ed7bf8fd	43
Kojto	20:30b6ed7bf8fd	44	namespace mbed_cc3000 {
Kojto	20:30b6ed7bf8fd	45
Kojto	20:30b6ed7bf8fd	46	cc3000_spi::cc3000_spi(PinName cc3000_irq, PinName cc3000_en, PinName cc3000_cs, SPI cc3000_spi, IRQn_Type irq_port, cc3000_event &event, cc3000_simple_link &simple_link)
Kojto	20:30b6ed7bf8fd	47	: _wlan_irq(cc3000_irq), _wlan_en(cc3000_en), _wlan_cs(cc3000_cs), _wlan_spi(cc3000_spi), _irq_port(irq_port),
Kojto	20:30b6ed7bf8fd	48	_event(event), _simple_link(simple_link) {
Kojto	20:30b6ed7bf8fd	49	/* TODO = clear pending interrupts for PORTS. This is dependent on the used chip */
Kojto	20:30b6ed7bf8fd	50
Kojto	20:30b6ed7bf8fd	51	_wlan_spi.format(8,1);
Kojto	20:30b6ed7bf8fd	52	_wlan_spi.frequency(12000000);
Kojto	20:30b6ed7bf8fd	53	_function_pointer = _wlan_irq.fall(this, &cc3000_spi::WLAN_IRQHandler);
Kojto	20:30b6ed7bf8fd	54
Kojto	20:30b6ed7bf8fd	55	_wlan_en = 0;
Kojto	20:30b6ed7bf8fd	56	_wlan_cs = 1;
Kojto	20:30b6ed7bf8fd	57	}
Kojto	20:30b6ed7bf8fd	58
Kojto	20:30b6ed7bf8fd	59	cc3000_spi::~cc3000_spi() {
Kojto	20:30b6ed7bf8fd	60
Kojto	20:30b6ed7bf8fd	61	}
Kojto	20:30b6ed7bf8fd	62
Kojto	20:30b6ed7bf8fd	63	void cc3000_spi::wlan_irq_enable()
Kojto	20:30b6ed7bf8fd	64	{
Kojto	20:30b6ed7bf8fd	65	NVIC_EnableIRQ(_irq_port);
Kojto	44:960b73df5981	66
Kojto	44:960b73df5981	67	if(wlan_irq_read() == 0) {
Kojto	44:960b73df5981	68	WLAN_IRQHandler();
Kojto	44:960b73df5981	69	}
Kojto	20:30b6ed7bf8fd	70	}
Kojto	20:30b6ed7bf8fd	71
Kojto	20:30b6ed7bf8fd	72	void cc3000_spi::wlan_irq_disable() {
Kojto	20:30b6ed7bf8fd	73	NVIC_DisableIRQ(_irq_port);
Kojto	20:30b6ed7bf8fd	74	}
Kojto	20:30b6ed7bf8fd	75
Kojto	20:30b6ed7bf8fd	76	uint32_t cc3000_spi::wlan_irq_read() {
Kojto	20:30b6ed7bf8fd	77	return _wlan_irq.read();
Kojto	20:30b6ed7bf8fd	78	}
Kojto	20:30b6ed7bf8fd	79
Kojto	20:30b6ed7bf8fd	80	void cc3000_spi::close() {
Kojto	20:30b6ed7bf8fd	81	wlan_irq_disable();
Kojto	20:30b6ed7bf8fd	82	}
Kojto	20:30b6ed7bf8fd	83
Kojto	20:30b6ed7bf8fd	84	void cc3000_spi::open() {
Kojto	20:30b6ed7bf8fd	85	_spi_info.spi_state = eSPI_STATE_POWERUP;
Kojto	20:30b6ed7bf8fd	86	_spi_info.tx_packet_length = 0;
Kojto	20:30b6ed7bf8fd	87	_spi_info.rx_packet_length = 0;
Kojto	20:30b6ed7bf8fd	88	wlan_irq_enable();
Kojto	20:30b6ed7bf8fd	89	}
Kojto	20:30b6ed7bf8fd	90
Kojto	20:30b6ed7bf8fd	91	uint32_t cc3000_spi::first_write(uint8_t *buffer, uint16_t length) {
Kojto	20:30b6ed7bf8fd	92	_wlan_cs = 0;
Kojto	20:30b6ed7bf8fd	93	wait_us(50);
Kojto	20:30b6ed7bf8fd	94
Kojto	20:30b6ed7bf8fd	95	/* first 4 bytes of the data */
Kojto	20:30b6ed7bf8fd	96	write_synchronous(buffer, 4);
Kojto	20:30b6ed7bf8fd	97	wait_us(50);
Kojto	20:30b6ed7bf8fd	98	write_synchronous(buffer + 4, length - 4);
Kojto	20:30b6ed7bf8fd	99	_spi_info.spi_state = eSPI_STATE_IDLE;
Kojto	20:30b6ed7bf8fd	100	_wlan_cs = 1;
Kojto	20:30b6ed7bf8fd	101
Kojto	20:30b6ed7bf8fd	102	return 0;
Kojto	20:30b6ed7bf8fd	103	}
Kojto	20:30b6ed7bf8fd	104
Kojto	20:30b6ed7bf8fd	105
Kojto	20:30b6ed7bf8fd	106	uint32_t cc3000_spi::write(uint8_t *buffer, uint16_t length) {
Kojto	20:30b6ed7bf8fd	107	uint8_t pad = 0;
Kojto	20:30b6ed7bf8fd	108	// check the total length of the packet in order to figure out if padding is necessary
Kojto	20:30b6ed7bf8fd	109	if(!(length & 0x0001))
Kojto	20:30b6ed7bf8fd	110	{
Kojto	20:30b6ed7bf8fd	111	pad++;
Kojto	20:30b6ed7bf8fd	112	}
Kojto	20:30b6ed7bf8fd	113	buffer[0] = WRITE;
Kojto	20:30b6ed7bf8fd	114	buffer[1] = HI(length + pad);
Kojto	20:30b6ed7bf8fd	115	buffer[2] = LO(length + pad);
Kojto	20:30b6ed7bf8fd	116	buffer[3] = 0;
Kojto	20:30b6ed7bf8fd	117	buffer[4] = 0;
Kojto	20:30b6ed7bf8fd	118
Kojto	20:30b6ed7bf8fd	119	length += (SPI_HEADER_SIZE + pad);
Kojto	20:30b6ed7bf8fd	120
Kojto	20:30b6ed7bf8fd	121	// The magic number resides at the end of the TX/RX buffer (1 byte after the allocated size)
Kojto	20:30b6ed7bf8fd	122	// If the magic number is overwitten - buffer overrun occurred - we will be stuck here forever!
Kojto	20:30b6ed7bf8fd	123	uint8_t * transmit_buffer = _simple_link.get_transmit_buffer();
Kojto	20:30b6ed7bf8fd	124	if (transmit_buffer[CC3000_TX_BUFFER_SIZE - 1] != CC3000_BUFFER_MAGIC_NUMBER)
Kojto	20:30b6ed7bf8fd	125	{
Kojto	20:30b6ed7bf8fd	126	while (1);
Kojto	20:30b6ed7bf8fd	127	}
Kojto	20:30b6ed7bf8fd	128
Kojto	20:30b6ed7bf8fd	129	if (_spi_info.spi_state == eSPI_STATE_POWERUP)
Kojto	20:30b6ed7bf8fd	130	{
Kojto	20:30b6ed7bf8fd	131	while (_spi_info.spi_state != eSPI_STATE_INITIALIZED);
Kojto	20:30b6ed7bf8fd	132	}
Kojto	20:30b6ed7bf8fd	133
Kojto	20:30b6ed7bf8fd	134	if (_spi_info.spi_state == eSPI_STATE_INITIALIZED)
Kojto	20:30b6ed7bf8fd	135	{
Kojto	20:30b6ed7bf8fd	136	// TX/RX transaction over SPI after powerup: IRQ is low - send read buffer size command
Kojto	20:30b6ed7bf8fd	137	first_write(buffer, length);
Kojto	20:30b6ed7bf8fd	138	}
Kojto	20:30b6ed7bf8fd	139	else
Kojto	20:30b6ed7bf8fd	140	{
Kojto	20:30b6ed7bf8fd	141	// Prevent occurence of a race condition when 2 back to back packets are sent to the
Kojto	20:30b6ed7bf8fd	142	// device, so the state will move to IDLE and once again to not IDLE due to IRQ
Kojto	20:30b6ed7bf8fd	143	wlan_irq_disable();
Kojto	20:30b6ed7bf8fd	144
Kojto	20:30b6ed7bf8fd	145	while (_spi_info.spi_state != eSPI_STATE_IDLE);
Kojto	20:30b6ed7bf8fd	146
Kojto	20:30b6ed7bf8fd	147	_spi_info.spi_state = eSPI_STATE_WRITE_IRQ;
Kojto	20:30b6ed7bf8fd	148	//_spi_info.pTxPacket = buffer;
Kojto	20:30b6ed7bf8fd	149	_spi_info.tx_packet_length = length;
Kojto	20:30b6ed7bf8fd	150
Kojto	20:30b6ed7bf8fd	151	// Assert the CS line and wait until the IRQ line is active, then initialize the write operation
Kojto	20:30b6ed7bf8fd	152	_wlan_cs = 0;
Kojto	20:30b6ed7bf8fd	153
Kojto	20:30b6ed7bf8fd	154	wlan_irq_enable();
Kojto	20:30b6ed7bf8fd	155	}
Kojto	20:30b6ed7bf8fd	156
Kojto	20:30b6ed7bf8fd	157	// Wait until the transaction ends
Kojto	20:30b6ed7bf8fd	158	while (_spi_info.spi_state != eSPI_STATE_IDLE);
Kojto	20:30b6ed7bf8fd	159
Kojto	20:30b6ed7bf8fd	160	return 0;
Kojto	20:30b6ed7bf8fd	161	}
Kojto	20:30b6ed7bf8fd	162
Kojto	20:30b6ed7bf8fd	163	void cc3000_spi::write_synchronous(uint8_t *data, uint16_t size) {
Kojto	20:30b6ed7bf8fd	164	while(size)
Kojto	20:30b6ed7bf8fd	165	{
Kojto	20:30b6ed7bf8fd	166	_wlan_spi.write(*data++);
Kojto	20:30b6ed7bf8fd	167	size--;
Kojto	20:30b6ed7bf8fd	168	}
Kojto	20:30b6ed7bf8fd	169	}
Kojto	20:30b6ed7bf8fd	170
Kojto	20:30b6ed7bf8fd	171	void cc3000_spi::read_synchronous(uint8_t *data, uint16_t size) {
Kojto	20:30b6ed7bf8fd	172	for (uint32_t i = 0; i < size; i++)
Kojto	20:30b6ed7bf8fd	173	{
Kojto	20:30b6ed7bf8fd	174	data[i] = _wlan_spi.write(0x03);;
Kojto	20:30b6ed7bf8fd	175	}
Kojto	20:30b6ed7bf8fd	176	}
Kojto	20:30b6ed7bf8fd	177
Kojto	20:30b6ed7bf8fd	178	uint32_t cc3000_spi::read_data_cont() {
Kojto	20:30b6ed7bf8fd	179	long data_to_recv;
Kojto	20:30b6ed7bf8fd	180	unsigned char *evnt_buff, type;
Kojto	20:30b6ed7bf8fd	181
Kojto	20:30b6ed7bf8fd	182	//determine the packet type
Kojto	20:30b6ed7bf8fd	183	evnt_buff = _simple_link.get_received_buffer();
Kojto	20:30b6ed7bf8fd	184	data_to_recv = 0;
Kojto	20:30b6ed7bf8fd	185	STREAM_TO_UINT8((uint8_t *)(evnt_buff + SPI_HEADER_SIZE), HCI_PACKET_TYPE_OFFSET, type);
Kojto	20:30b6ed7bf8fd	186
Kojto	20:30b6ed7bf8fd	187	switch(type)
Kojto	20:30b6ed7bf8fd	188	{
Kojto	20:30b6ed7bf8fd	189	case HCI_TYPE_DATA:
Kojto	20:30b6ed7bf8fd	190	{
Kojto	20:30b6ed7bf8fd	191	// Read the remaining data..
Kojto	20:30b6ed7bf8fd	192	STREAM_TO_UINT16((uint8_t *)(evnt_buff + SPI_HEADER_SIZE), HCI_DATA_LENGTH_OFFSET, data_to_recv);
Kojto	20:30b6ed7bf8fd	193	if (!((HEADERS_SIZE_EVNT + data_to_recv) & 1))
Kojto	20:30b6ed7bf8fd	194	{
Kojto	20:30b6ed7bf8fd	195	data_to_recv++;
Kojto	20:30b6ed7bf8fd	196	}
Kojto	20:30b6ed7bf8fd	197
Kojto	20:30b6ed7bf8fd	198	if (data_to_recv)
Kojto	20:30b6ed7bf8fd	199	{
Kojto	20:30b6ed7bf8fd	200	read_synchronous(evnt_buff + 10, data_to_recv);
Kojto	20:30b6ed7bf8fd	201	}
Kojto	20:30b6ed7bf8fd	202	break;
Kojto	20:30b6ed7bf8fd	203	}
Kojto	20:30b6ed7bf8fd	204	case HCI_TYPE_EVNT:
Kojto	20:30b6ed7bf8fd	205	{
Kojto	20:30b6ed7bf8fd	206	// Calculate the rest length of the data
Kojto	20:30b6ed7bf8fd	207	STREAM_TO_UINT8((char *)(evnt_buff + SPI_HEADER_SIZE), HCI_EVENT_LENGTH_OFFSET, data_to_recv);
Kojto	20:30b6ed7bf8fd	208	data_to_recv -= 1;
Kojto	20:30b6ed7bf8fd	209	// Add padding byte if needed
Kojto	20:30b6ed7bf8fd	210	if ((HEADERS_SIZE_EVNT + data_to_recv) & 1)
Kojto	20:30b6ed7bf8fd	211	{
Kojto	20:30b6ed7bf8fd	212	data_to_recv++;
Kojto	20:30b6ed7bf8fd	213	}
Kojto	20:30b6ed7bf8fd	214
Kojto	20:30b6ed7bf8fd	215	if (data_to_recv)
Kojto	20:30b6ed7bf8fd	216	{
Kojto	20:30b6ed7bf8fd	217	read_synchronous(evnt_buff + 10, data_to_recv);
Kojto	20:30b6ed7bf8fd	218	}
Kojto	20:30b6ed7bf8fd	219
Kojto	20:30b6ed7bf8fd	220	_spi_info.spi_state = eSPI_STATE_READ_EOT;
Kojto	20:30b6ed7bf8fd	221	break;
Kojto	20:30b6ed7bf8fd	222	}
Kojto	20:30b6ed7bf8fd	223	}
Kojto	20:30b6ed7bf8fd	224	return (0);
Kojto	20:30b6ed7bf8fd	225	}
Kojto	20:30b6ed7bf8fd	226
Kojto	34:1ad18123bf11	227	void cc3000_spi::set_wlan_en(uint8_t value) {
Kojto	20:30b6ed7bf8fd	228	if (value) {
Kojto	20:30b6ed7bf8fd	229	_wlan_en = 1;
Kojto	20:30b6ed7bf8fd	230	} else {
Kojto	20:30b6ed7bf8fd	231	_wlan_en = 0;
Kojto	20:30b6ed7bf8fd	232	}
Kojto	20:30b6ed7bf8fd	233	}
Kojto	20:30b6ed7bf8fd	234
Kojto	20:30b6ed7bf8fd	235	void cc3000_spi::WLAN_IRQHandler() {
Kojto	20:30b6ed7bf8fd	236	if (_spi_info.spi_state == eSPI_STATE_POWERUP)
Kojto	20:30b6ed7bf8fd	237	{
Kojto	20:30b6ed7bf8fd	238	// Inform HCI Layer that IRQ occured after powerup
Kojto	20:30b6ed7bf8fd	239	_spi_info.spi_state = eSPI_STATE_INITIALIZED;
Kojto	20:30b6ed7bf8fd	240	}
Kojto	20:30b6ed7bf8fd	241	else if (_spi_info.spi_state == eSPI_STATE_IDLE)
Kojto	20:30b6ed7bf8fd	242	{
Kojto	20:30b6ed7bf8fd	243	_spi_info.spi_state = eSPI_STATE_READ_IRQ;
Kojto	20:30b6ed7bf8fd	244	/* IRQ line goes low - acknowledge it */
Kojto	20:30b6ed7bf8fd	245	_wlan_cs = 0;
Kojto	20:30b6ed7bf8fd	246	read_synchronous(_simple_link.get_received_buffer(), 10);
Kojto	20:30b6ed7bf8fd	247	_spi_info.spi_state = eSPI_STATE_READ_EOT;
Kojto	20:30b6ed7bf8fd	248
Kojto	20:30b6ed7bf8fd	249
Kojto	20:30b6ed7bf8fd	250	// The header was read - continue with the payload read
Kojto	20:30b6ed7bf8fd	251	if (!read_data_cont())
Kojto	20:30b6ed7bf8fd	252	{
Kojto	20:30b6ed7bf8fd	253	// All the data was read - finalize handling by switching to the task
Kojto	20:30b6ed7bf8fd	254	// Trigger Rx processing
Kojto	20:30b6ed7bf8fd	255	wlan_irq_disable();
Kojto	20:30b6ed7bf8fd	256	_wlan_cs = 1;
Kojto	20:30b6ed7bf8fd	257	// The magic number resides at the end of the TX/RX buffer (1 byte after the allocated size)
Kojto	20:30b6ed7bf8fd	258	// If the magic number is overwitten - buffer overrun occurred - we will be stuck here forever!
Kojto	20:30b6ed7bf8fd	259	uint8_t *received_buffer = _simple_link.get_received_buffer();
Kojto	20:30b6ed7bf8fd	260	if (received_buffer[CC3000_RX_BUFFER_SIZE - 1] != CC3000_BUFFER_MAGIC_NUMBER)
Kojto	20:30b6ed7bf8fd	261	{
Kojto	20:30b6ed7bf8fd	262	while (1);
Kojto	20:30b6ed7bf8fd	263	}
Kojto	20:30b6ed7bf8fd	264	_spi_info.spi_state = eSPI_STATE_IDLE;
Kojto	20:30b6ed7bf8fd	265	_event.received_handler(received_buffer + SPI_HEADER_SIZE);
Kojto	20:30b6ed7bf8fd	266	}
Kojto	20:30b6ed7bf8fd	267	}
Kojto	20:30b6ed7bf8fd	268	else if (_spi_info.spi_state == eSPI_STATE_WRITE_IRQ)
Kojto	20:30b6ed7bf8fd	269	{
Kojto	20:30b6ed7bf8fd	270	write_synchronous(_simple_link.get_transmit_buffer(), _spi_info.tx_packet_length);
Kojto	20:30b6ed7bf8fd	271	_spi_info.spi_state = eSPI_STATE_IDLE;
Kojto	20:30b6ed7bf8fd	272	_wlan_cs = 1;
Kojto	20:30b6ed7bf8fd	273	}
Kojto	20:30b6ed7bf8fd	274	}
Kojto	20:30b6ed7bf8fd	275
Kojto	20:30b6ed7bf8fd	276	}

Repository toolbox

Export to desktop IDE

Repository details

Type:	Library
Created:	17 Oct 2015
Imports:	0
Forks:	0
Commits:	51
Dependents:	0
Dependencies:	0
Followers:	1

cc3000_spi.cpp@44:960b73df5981, 2013-10-13 (annotated)

Who changed what in which revision?

Repository toolbox

Repository details

Important Information for this Arm website

Access Warning