erez i
version_2.0
Dependents: cc3000_ping_demo_try_2
Fork of
cc3000_hostdriver_mbedsocket
by 
Martin Kojtal
cc3000.h
- Committer:
- Kojto
- Date:
- 2013-10-08
- Revision:
- 33:9e23b24fb4f3
- Parent:
- 31:7b6e85b68b01
- Child:
- 34:1ad18123bf11
File content as of revision 33:9e23b24fb4f3:
/*****************************************************************************
*
* C++ interface/implementation created by Martin Kojtal (0xc0170). Thanks to
* Jim Carver and Frank Vannieuwkerke for their inital cc3000 mbed port and
* provided help.
*
* This version of "host driver" uses CC3000 Host Driver Implementation. Thus
* read the following copyright:
*
* Copyright (C) 2011 Texas Instruments Incorporated - http://www.ti.com/
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
*
* Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
*
* Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in the
* documentation and/or other materials provided with the
* distribution.
*
* Neither the name of Texas Instruments Incorporated nor the names of
* its contributors may be used to endorse or promote products derived
* from this software without specific prior written permission.
*
* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
* "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
* LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
* A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
* OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
* SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
* LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
* DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
* THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
* (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
* OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
*
*****************************************************************************/
#ifndef CC3000_H
#define CC3000_H
#include "mbed.h"
#include "cc3000_common.h"
#include "cc3000_spi.h"
#include "cc3000_simplelink.h"
#include "cc3000_netapp.h"
#include "cc3000_nvmem.h"
#include "cc3000_socket.h"
#define MAX_SOCKETS 4
/** Enable debug messages, comment out the ones you don't want
*/
// Debug - Socket interface messages
#define CC3000_DEBUG_SOCKET
// Debug - HCI TX messages
#define CC3000_DEBUG_HCI_TX
// Debug - HCI Rx messages
#define CC3000_DEBUG_HCI_RX
// Debug - General Debug
#define CC3000_DEBUG
// Add colour to the debug messages, requires a VT100 terminal like putty, comment out to remove
#define VT100_COLOUR
#ifdef CC3000_DEBUG_SOCKET
#ifdef VT100_COLOUR
#define DBG_SOCKET(x, ...) std::printf("\x1b[2;32;40m[CC3000 : SOCKET] "x"\x1b[0;37;40m\r\n", ##__VA_ARGS__);
#else
#define DBG_SOCKET(x, ...) std::printf("[CC3000 : SOCKET] "x"\r\n", ##__VA_ARGS__);
#endif
#else
#define DBG_SOCKET(x, ...)
#endif
#ifdef CC3000_DEBUG_HCI_TX
#ifdef VT100_COLOUR
#define DBG_HCI(x, ...) std::printf("\x1b[2;35;40m[CC3000 : HCI RX] "x"\x1b[0;37;40m\r\n", ##__VA_ARGS__);
#else
#define DBG_HCI(x, ...) std::printf("[CC3000 : HCI RX] "x"\r\n", ##__VA_ARGS__);
#endif
#else
#define DBG_HCI(x, ...)
#endif
#ifdef CC3000_DEBUG_HCI_RX
#ifdef VT100_COLOUR
#define DBG_HCI_CMD(x, ...) std::printf("\x1b[2;36;40m[CC3000 : HCI TX] "x"\x1b[0;37;40m\r\n", ##__VA_ARGS__);
#else
#define DBG_HCI_CMD(x, ...) std::printf("[CC3000 : HCI TX] "x"\r\n", ##__VA_ARGS__);
#endif
#else
#define DBG_HCI_CMD(x, ...)
#endif
#ifdef CC3000_DEBUG
#ifdef VT100_COLOUR
#define DBG_CC(x, ...) std::printf("\x1b[2;32;40m[CC3000] "x"\x1b[0;37;40m\r\n", ##__VA_ARGS__);
#else
#define DBG_CC(x, ...) std::printf("[CC3000] "x"\r\n", ##__VA_ARGS__);
#endif
#else
#define DBG_CC(x, ...)
#endif
namespace mbed_cc3000 {
/** User info structure
*/
typedef struct {
uint8_t FTC; // First time config performed
uint8_t PP_version[2]; // Patch Programmer version
uint8_t SERV_PACK[2]; // Service Pack Version
uint8_t DRV_VER[3]; // Driver Version
uint8_t FW_VER[3]; // Firmware Version
uint8_t validCIK; // CIK[] is valid (Client Interface Key)
uint8_t CIK[40];
} tUserFS;
/** Function pointers which are not yet implemented
*/
enum FunctionNumber {
FW_PATCHES = 0,
DRIVER_PATCHES = 1,
BOOTLOADER_PATCHES = 2,
};
/** CC3000 Simple Link class which contains status of cc3000.
*/
class cc3000_simple_link {
public:
/**
* \brief ctor - sets magic number in the buffers (overflow mark).
* \param none
* \return none
*/
cc3000_simple_link();
/**
* \brief dtor
* \param none
* \return none
*/
~cc3000_simple_link();
/**
* \brief Returns data received flag.
* \return Data received flag.
*/
uint8_t get_data_received_flag();
/**
* \brief Set data received flag.
* \param value The value to be set.
*/
void set_data_received_flag(uint8_t value);
/** Returns if tx was completed.
* \return
* true if tx was completed,
* false otherwise.
*/
bool get_tx_complete_signal();
/**
* \brief Sets flag that tx was completed.
* \param value Value to be set
* \return none
*/
void set_tx_complete_signal(bool value);
/**
* \brief Get receive buffer.
* \param none
* \return Pointer to the receive buffer.
*/
uint8_t *get_received_buffer();
/**
* \brief Get transmit buffer.
* \param none
* \return Pointer to the transmit buffer.
*/
uint8_t *get_transmit_buffer();
/**
* \brief Get number of free buffers.
* \param none
* \return
* Number of free buffers.
*/
uint16_t get_number_free_buffers();
/**
* \brief Set number of free buffers.
* \param value Number of free buffers.
* \return none
*/
void set_number_free_buffers(uint16_t value);
/**
* \brief Retrieve buffer length.
* \param none
* \return Buffer length
*/
uint16_t get_buffer_length();
/**
* \brief Set buffer length
* \param value The length
* \return none
*/
void set_buffer_length(uint16_t value);
/**
* \brief Retrieve pending data flag.
* \param none
* \return Pending data flag
*/
uint16_t get_pending_data();
/**
* \brief Set pending data flag.
* \param value Pending data value.
* \return none
*/
void set_pending_data(uint16_t value);
/**
* \brief Retreive op code.
* \param none
* \return Op code
*/
uint16_t get_op_code();
/**
* \brief Set op code.
* \param code op code.
* \return none
*/
void set_op_code(uint16_t code);
/**
* \brief Get number of released packets.
* \param none
* \return Number of released packets.
*/
uint16_t get_released_packets();
/**
* \brief Set number of released packets.
* \param value Number of released packets.
* \return none
*/
void set_number_of_released_packets(uint16_t value);
/**
* \brief Get number of sent packats
* \param none
* \return Number of sent packets.
*/
uint16_t get_sent_packets();
/**
* \brief Set number of sent packets
* \param value Number of sent packets.
* \return none
*/
void set_sent_packets(uint16_t value);
/**
* \brief Retrieve transmit error
* \param none
* \return Transmit error
*/
int32_t get_transmit_error();
/**
* \brief Set transmit error.
* \param value Error to be set.
* \return none
*/
void set_transmit_error(int32_t value);
/**
* \brief Get buffer size.
* \param none
* \return Size of buffer.
*/
uint16_t get_buffer_size();
/**
* \brief Set buffer size.
* \param value Buffer size.
* \return none
*/
void set_buffer_size(uint16_t value);
/**
* \brief Not used currently.
* \param function Number of desired function.
* \return void pointer to the function (need to recast).
*/
void *get_func_pointer(FunctionNumber function);
/**
* \brief Retreive pointer to the received data.
* \param none
* \return Pointer to the received data buffer.
*/
uint8_t *get_received_data();
/**
* \brief Set received data pointer.
* \param pointer Pointer to the buffer.
* \return none
*/
void set_received_data(uint8_t *pointer);
private:
uint8_t _data_received_flag;
bool _tx_complete_signal;
uint16_t _rx_event_opcode;
uint16_t _free_buffers;
uint16_t _buffer_length;
uint16_t _buffer_size;
uint16_t _rx_data_pending;
uint16_t _sent_packets;
uint16_t _released_packets;
int32_t _transmit_data_error;
uint8_t *_received_data;
uint8_t _rx_buffer[CC3000_RX_BUFFER_SIZE];
uint8_t _tx_buffer[CC3000_TX_BUFFER_SIZE];
private:
/* Not used currently */
int8_t *(* _fFWPatches)(uint32_t *length);
int8_t *(* _fDriverPatches)(uint32_t *length);
int8_t *(* _fBootLoaderPatches)(uint32_t *length);
};
/** Forward declaration classes
*/
class cc3000_hci;
class cc3000_nvmem;
class cc3000_spi;
class cc3000;
/** Event layer
*/
class cc3000_event {
public:
/**
* \brief
* \param
* \return
*/
cc3000_event(cc3000_simple_link &simplelink, cc3000_hci &hci, cc3000_spi &spi, cc3000 &cc3000);
/**
* \brief
* \param
* \return
*/
~cc3000_event();
/**
* \brief
* \param
* \return
*/
void hci_unsol_handle_patch_request(uint8_t *event_hdr);
/**
* \brief
* \param
* \return
*/
uint8_t *hci_event_handler(void *ret_param, uint8_t *from, uint8_t *fromlen);
/**
* \brief
* \param
* \return
*/
int32_t hci_unsol_event_handler(uint8_t *event_hdr);
/**
* \brief
* \param
* \return
*/
int32_t hci_unsolicited_event_handler(void);
/**
* \brief
* \param
* \return
*/
int32_t get_socket_active_status(int32_t sd);
/**
* \brief
* \param
* \return
*/
void set_socket_active_status(int32_t sd, int32_t status);
/**
* \brief
* \param
* \return
*/
int32_t hci_event_unsol_flowcontrol_handler(uint8_t *event);
/**
* \brief
* \param
* \return
*/
void update_socket_active_status(uint8_t *resp_params);
/**
* \brief
* \param
* \return
*/
void simplelink_wait_event(uint16_t op_code, void *ret_param);
/**
* \brief
* \param
* \return
*/
void simplelink_wait_data(uint8_t *buffer, uint8_t *from, uint8_t *fromlen);
/**
* \brief
* \param
* \return
*/
void received_handler(uint8_t *buffer);
private:
uint32_t socket_active_status;
cc3000_simple_link &_simple_link;
cc3000_hci &_hci;
cc3000_spi &_spi;
cc3000 &_cc3000;
};
/** Netapp layer
*/
class cc3000_netapp {
public:
/**
* \brief
* \param
* \return
*/
cc3000_netapp(cc3000_simple_link &simple_link, cc3000_nvmem &nvmem, cc3000_hci &hci, cc3000_event &event);
/**
* \brief
* \param
* \return
*/
~cc3000_netapp();
/**
* \brief
* \param
* \return
*/
int32_t config_mac_adrress(uint8_t *mac);
/**
* \brief
* \param
* \return
*/
int32_t dhcp(uint32_t *ip, uint32_t *subnet_mask,uint32_t *default_gateway, uint32_t *dns_server);
#ifndef CC3000_TINY_DRIVER
/**
* \brief
* \param
* \return
*/
void ipconfig(tNetappIpconfigRetArgs *ipconfig);
/**
* \brief
* \param
* \return
*/
int32_t timeout_values(uint32_t *dhcp, uint32_t *arp,uint32_t *keep_alive, uint32_t *inactivity);
/**
* \brief
* \param
* \return
*/
int32_t ping_send(uint32_t *ip, uint32_t ping_attempts, uint32_t ping_size, uint32_t ping_timeout);
/**
* \brief
* \param
* \return
*/
void ping_report();
/**
* \brief
* \param
* \return
*/
int32_t ping_stop();
/**
* \brief
* \param
* \return
*/
int32_t arp_flush();
#endif
private:
cc3000_simple_link &_simple_link;
cc3000_nvmem &_nvmem;
cc3000_hci &_hci;
cc3000_event &_event;
};
#ifndef CC3000_UNENCRYPTED_SMART_CONFIG
/** Security class used only if encrypted smart config is set
*/
class cc3000_security {
public:
/**
* \brief
* \param
* \return
*/
void expandKey(uint8_t *expanded_key, uint8_t *key);
/**
* \brief
* \param
* \return
*/
uint8_t galois_mul2(uint8_t value);
/**
* \brief
* \param
* \return
*/
void aes_encr(uint8_t *state, uint8_t *expanded_key);
/**
* \brief
* \param
* \return
*/
void aes_decr(uint8_t *state, uint8_t *expanded_key);
/**
* \brief
* \param
* \return
*/
void aes_encrypt(uint8_t *state, uint8_t *key);
/**
* \brief
* \param
* \return
*/
void aes_decrypt(uint8_t *state, uint8_t *key);
/**
* \brief
* \param
* \return
*/
int32_t aes_read_key(uint8_t *key);
/**
* \brief
* \param
* \return
*/
int32_t aes_write_key(uint8_t *key);
private:
uint8_t _expanded_key[176];
};
#endif
/** Socket layer
*/
class cc3000_socket {
public:
/**
* \brief
* \param
* \return
*/
cc3000_socket(cc3000_simple_link &simplelink, cc3000_hci &hci, cc3000_event &event);
/**
* \brief
* \param
* \return
*/
~cc3000_socket();
/**
* \brief
* \param
* \return
*/
int32_t socket(int32_t domain, int32_t type, int32_t protocol);
/**
* \brief
* \param
* \return
*/
int32_t accept(int32_t sd, sockaddr *addr, socklen_t *addrlen);
/**
* \brief
* \param
* \return
*/
int32_t bind(int32_t sd, const sockaddr *addr, int32_t addrlen);
/**
* \brief
* \param
* \return
*/
int32_t HostFlowControlConsumeBuff(int32_t sd);
/**
* \brief
* \param
* \return
*/
int32_t closesocket(int32_t sd);
/**
* \brief
* \param
* \return
*/
int32_t listen(int32_t sd, int32_t backlog);
/**
* \brief
* \param
* \return
*/
int32_t connect(int32_t sd, const sockaddr *addr, int32_t addrlen);
/**
* \brief
* \param
* \return
*/
int32_t select(int32_t nfds, fd_set *readsds, fd_set *writesds, fd_set *exceptsds, struct timeval *timeout);
/**
* \brief
* \param
* \return
*/
int32_t getsockopt (int32_t sd, int32_t level, int32_t optname, void *optval, socklen_t *optlen);
/**
* \brief
* \param
* \return
*/
int32_t simple_link_recv(int32_t sd, void *buf, int32_t len, int32_t flags, sockaddr *from, socklen_t *fromlen, int32_t opcode);
/**
* \brief
* \param
* \return
*/
int32_t simple_link_send(int32_t sd, const void *buf, int32_t len, int32_t flags, const sockaddr *to, int32_t tolen, int32_t opcode);
/**
* \brief
* \param
* \return
*/
int32_t recv(int32_t sd, void *buf, int32_t len, int32_t flags);
/**
* \brief
* \param
* \return
*/
int32_t recvfrom(int32_t sd, void *buf, int32_t len, int32_t flags, sockaddr *from, socklen_t *fromlen);
/**
* \brief
* \param
* \return
*/
int32_t send(int32_t sd, const void *buf, int32_t len, int32_t flags);
/**
* \brief
* \param
* \return
*/
int32_t sendto(int32_t sd, const void *buf, int32_t len, int32_t flags, const sockaddr *to, socklen_t tolen);
/**
* \brief
* \param
* \return
*/
int32_t mdns_advertiser(uint16_t mdns_enabled, uint8_t * device_service_name, uint16_t device_service_name_length);
#ifndef CC3000_TINY_DRIVER
/**
* \brief
* \param
* \return
*/
int32_t gethostbyname(uint8_t *hostname, uint16_t name_length, uint32_t *out_ip_addr);
/**
* \brief
* \param
* \return
*/
int32_t setsockopt(int32_t sd, int32_t level, int32_t optname, const void *optval, socklen_t optlen);
#endif
private:
cc3000_simple_link &_simple_link;
cc3000_hci &_hci;
cc3000_event &_event;
};
/** SPI communication layer
*/
class cc3000_spi {
public:
/**
* \brief Ctor
* \param none
* \return none
*/
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);
/**
* \brief Dtor
* \param none
* \return none
*/
~cc3000_spi();
/**
* \brief Close SPI - disables IRQ and set received buffer to 0
* \param none
* \return none
*/
void close();
/**
* \param none
* \return none
*/
void open();
/**
* \param buffer
* \param length
* \return none
*/
uint32_t first_write(uint8_t *buffer, uint16_t length);
/**
* \brief
* \param
* \return
*/
uint32_t write(uint8_t *buffer, uint16_t length);
/**
* \brief
* \param
* \return
*/
void write_synchronous(uint8_t *data, uint16_t size);
/**
* \brief
* \param
* \return
*/
void read_synchronous(uint8_t *data, uint16_t size);
/**
* \brief
* \param
* \return
*/
uint32_t read_data_cont();
/**
* \brief
* \param
* \return
*/
void wlan_irq_enable();
/**
* \brief
* \param
* \return
*/
void wlan_irq_disable();
/**
* \brief
* \param
* \return
*/
void wlan_irq_set(uint8_t value);
/**
* \brief
* \param
* \return
*/
uint32_t wlan_irq_read();
/**
* \brief
* \param
* \return
*/
void WLAN_IRQHandler();
/**
* \brief
* \param
* \return
*/
void write_wlan_en(uint8_t value);
private:
tSpiInfo _spi_info;
InterruptIn _wlan_irq;
DigitalOut _wlan_en;
DigitalOut _wlan_cs;
SPI _wlan_spi;
IRQn_Type _irq_port;
pFunctionPointer_t _function_pointer;
cc3000_event &_event;
cc3000_simple_link &_simple_link;
};
/** HCI layer
*/
class cc3000_hci {
public:
/**
* \brief Ctor
* \param spi Reference to spi object.
* \return none
*/
cc3000_hci(cc3000_spi &spi);
/**
* \brief Dtor
* \param none
* \return none
*/
~cc3000_hci();
/**
* \brief Initiate an HCI command.
* \param op_code command operation code
* \param buffer pointer to the command's arguments buffer
* \param length length of the arguments
* \return ???
*/
uint16_t command_send(uint16_t op_code, uint8_t *buffer, uint8_t length);
/**
* \brief Initiate an HCI data write operation
* \param op_code command operation code
* \param args pointer to the command's arguments buffer
* \param arg_length length of the arguments
* \param data_length length od data
* \param tail pointer to the data buffer
* \param tail_length buffer length
* \return ???
*/
uint32_t data_send(uint8_t op_code, uint8_t *args, uint16_t arg_length,
uint16_t data_length, const uint8_t *tail, uint16_t tail_length);
/**
* \brief Prepare HCI header and initiate an HCI data write operation.
* \param op_code command operation code
* \param buffer pointer to the data buffer
* \param arg_length arguments length
* \param data_length data length
* \return none
*/
void data_command_send(uint16_t op_code, uint8_t *buffer, uint8_t arg_length,
uint16_t data_length);
/**
* \brief Prepare HCI header and initiate an HCI patch write operation.
* \param op_code command operation code
* \param buffer pointer to the command's arguments buffer
* \param patch pointer to patch content buffer
* \param data_length data length
* \return none
*/
void patch_send(uint8_t op_code, uint8_t *buffer, uint8_t *patch, uint16_t data_length);
private:
cc3000_spi &_spi;
};
/** NVMEM layer
*/
class cc3000_nvmem {
public:
/**
* \brief Ctor
* \param hci Reference to hci object.
* \param event Reference to event object.
* \param simple_link Reference to simple link object.
* \return none
*/
cc3000_nvmem(cc3000_hci &hci, cc3000_event &event, cc3000_simple_link &simple_link);
/**
* \brief Dtor
* \param none
* \return none
*/
~cc3000_nvmem();
/**
* \brief Reads data from the file referred by the file_id parameter.
* Reads data from file offset till length. Err if the file can't be used,
* is invalid, or if the read is out of bounds.
* \param file_id nvmem file id.
* \param length number of bytes to read.
* \param offset offset in file from where to read.
* \param buff output buffer pointer.
* \return
* Number of bytes read, otherwise error.
*/
int32_t read(uint32_t file_id, uint32_t length, uint32_t offset, uint8_t *buff);
/**
* \brief Write data to nvmem.
* \param file_id Nvmem file id
* \param length number of bytes to write
* \param entry_offset offset in file to start write operation from
* \param buff data to write
* \return
* On success 0, error otherwise.
*/
int32_t write(uint32_t file_id, uint32_t length, uint32_t entry_offset, uint8_t *buff);
/**
* \brief Write MAC address to EEPROM.
* \param mac Mac address to be set
* \return
* On success 0, error otherwise.
*/
uint8_t set_mac_address(uint8_t *mac);
/**
* \brief Read MAC address from EEPROM.
* \param mac Mac address
* \return
* On success 0, error otherwise.
*/
uint8_t get_mac_address(uint8_t *mac);
/**
* \brief Program a patch to a specific file ID. The SP data is assumed to be organized in 2-dimensional.
* Each line is SP_PORTION_SIZE bytes long.
* \param file_id nvmem file id/
* \param length number of bytes to write
* \param data SP data to write
* \return
* On success 0, error otherwise.
*/
uint8_t write_patch(uint32_t file_id, uint32_t length, const uint8_t *data);
/**
* \brief Create new file entry and allocate space on the NVMEM. Applies only to user files.
* \param file_id nvmem file Id
* \param new_len entry ulLength
* \return
*/
int32_t create_entry(uint32_t file_id, uint32_t new_len);
#ifndef CC3000_TINY_DRIVER
/**
* \brief Read patch version. read package version (WiFi FW patch, river-supplicant-NS patch,
* bootloader patch)
* \param patch_ver First number indicates package ID and the second number indicates
* package build number
* \return
* On success 0, error otherwise.
*/
uint8_t read_sp_version(uint8_t* patch_ver);
#endif
private:
cc3000_hci &_hci;
cc3000_event &_event;
cc3000_simple_link &_simple_link;
};
/** WLAN layer
*/
class cc3000_wlan {
public:
/**
* \brief Ctor
* \param simple_link Reference to simple link object.
* \param event Reference to event object.
* \param spi Reference to spi object.
* \param hci Reference to hci object.
* \return none
*/
cc3000_wlan(cc3000_simple_link &simple_link, cc3000_event &event, cc3000_spi &spi, cc3000_hci &hci);
/**
* \brief Dtor
* \param none
* \return none
*/
~cc3000_wlan();
/**
* \brief Send SIMPLE LINK START to cc3000.
* \param patches_available_host Flag to indicate if patches are available.
* \return none
*/
void simpleLink_init_start(uint16_t patches_available_host);
/**
* \brief Start wlan device. Blocking call until init is completed.
* \param patches_available_host Flag to indicate if patches are available.
* \return none
*/
void start(uint16_t patches_available_host);
/**
* \brief Stop wlan device
* \param none
* \return none
*/
void stop(void);
#ifndef CC3000_TINY_DRIVER
/**
* \brief Connect to AP.
* \param sec_type Security option.
* \param ssid up to 32 bytes, ASCII SSID
* \param ssid_length length of SSID
* \param b_ssid 6 bytes specified the AP bssid
* \param key up to 16 bytes specified the AP security key
* \param key_len key length
* \return
* On success, zero is returned. On error, negative is returned.
*/
int32_t connect(uint32_t sec_type, const uint8_t *ssid, int32_t ssid_length, uint8_t *b_ssid, uint8_t *key, int32_t key_len);
/**
* \brief Add profile. Up to 7 profiles are supported.
* \param sec_type Security option.
* \param ssid Up to 32 bytes, ASCII SSID
* \param ssid_length Length of SSID
* \param b_ssid 6 bytes specified the AP bssid
* \param priority Up to 16 bytes specified the AP security key
* \param pairwise_cipher_or_tx_key_len Key length
* \param group_cipher_tx_key_index Key length for WEP security
* \param key_mgmt KEY management
* \param pf_or_key Security key
* \param pass_phrase_length Security key length for WPA\WPA2
* \return
* On success, zero is returned. On error, negative is returned.
*/
int32_t add_profile(uint32_t sec_type, uint8_t* ssid, uint32_t ssid_length, uint8_t *b_ssid, uint32_t priority, uint32_t pairwise_cipher_or_tx_key_len, uint32_t group_cipher_tx_key_index,
uint32_t key_mgmt, uint8_t* pf_or_key, uint32_t pass_phrase_length);
/**
* \brief Gets entry from scan result table. The scan results are returned
* one by one, and each entry represents a single AP found in the area.
* \param scan_timeout Not supported yet
* \param results Scan result
* \return
* On success, zero is returned. On error, -1 is returned
*/
int32_t ioctl_get_scan_results(uint32_t scan_timeout, uint8_t *results);
/**
* \brief Start and stop scan procedure. Set scan parameters.
* \param enable Start/stop application scan
* \param min_dwell_time Minimum dwell time value to be used for each channel, in ms. (Default: 20)
* \param max_dwell_time Maximum dwell time value to be used for each channel, in ms. (Default: 30)
* \param num_probe_requests Max probe request between dwell time. (Default:2)
* \param channel_mask Bitwise, up to 13 channels (0x1fff).
* \param rssi_threshold RSSI threshold. Saved: yes (Default: -80)
* \param snr_threshold NSR threshold. Saved: yes (Default: 0)
* \param default_tx_power probe Tx power. Saved: yes (Default: 205)
* \param interval_list Pointer to array with 16 entries (16 channels)
* \return
* On success, zero is returned. On error, -1 is returned.
*/
int32_t ioctl_set_scan_params(uint32_t enable, uint32_t min_dwell_time, uint32_t max_dwell_time, uint32_t num_probe_requests,
uint32_t channel_mask, int32_t rssi_threshold, uint32_t snr_threshold, uint32_t default_tx_power, uint32_t *interval_list);
/**
* \brief Get wlan status: disconnected, scanning, connecting or connected
* \param none
* \return
* WLAN_STATUS_DISCONNECTED, WLAN_STATUS_SCANING, STATUS_CONNECTING or WLAN_STATUS_CONNECTED
*/
int32_t ioctl_statusget(void);
#else
/**
* \brief Connect to AP
* \param ssid Up to 32 bytes and is ASCII SSID of the AP
* \param ssid_length Length of the SSID
* \return
* On success, zero is returned. On error, negative is returned.
*/
int32_t connect(const uint8_t *ssid, int32_t ssid_length);
/**
* \brief When auto start is enabled, the device connects to station from the profiles table.
* If several profiles configured the device choose the highest priority profile.
* \param sec_type WLAN_SEC_UNSEC,WLAN_SEC_WEP,WLAN_SEC_WPA,WLAN_SEC_WPA2
* \param ssid SSID up to 32 bytes
* \param ssid_length SSID length
* \param b_ssid bssid 6 bytes
* \param priority Profile priority. Lowest priority:0.
* \param pairwise_cipher_or_tx_key_len Key length for WEP security
* \param group_cipher_tx_key_index Key index
* \param key_mgmt KEY management
* \param pf_or_key Security key
* \param pass_phrase_length Security key length for WPA\WPA2
* \return
* On success, zero is returned. On error, -1 is returned
*/
int32_t add_profile(uint32_t sec_type, uint8_t *ssid, uint32_t ssid_length, uint8_t *b_ssid, uint32_t priority,
uint32_t pairwise_cipher_or_tx_key_len, uint32_t group_cipher_tx_key_index, uint32_t key_mgmt,
uint8_t* pf_or_key, uint32_t pass_phrase_length);
#endif
#ifndef CC3000_UNENCRYPTED_SMART_CONFIG
/**
* \brief Process the acquired data and store it as a profile.
* \param none
* \return
* On success, zero is returned. On error, -1 is returned.
*/
int32_t smart_config_process(void);
#endif
/**
* \brief Disconnect connection from AP.
* \param none
* \return
* 0 if disconnected done, other CC3000 already disconnected.
*/
int32_t disconnect();
/**
* \brief When auto is enabled, the device tries to connect according the following policy:
* 1) If fast connect is enabled and last connection is valid, the device will try to
* connect to it without the scanning procedure (fast). The last connection will be
* marked as invalid, due to adding/removing profile.
* 2) If profile exists, the device will try to connect it (Up to seven profiles).
* 3) If fast and profiles are not found, and open mode is enabled, the device
* will try to connect to any AP.
* Note that the policy settings are stored in the CC3000 NVMEM.
* \param should_connect_to_open_ap Enable(1), disable(0) connect to any available AP.
* \param use_fast_connect Enable(1), disable(0). if enabled, tries to
* connect to the last connected AP.
* \param use_profiles Enable(1), disable(0) auto connect after reset.
* and periodically reconnect if needed.
* \return
* On success, zero is returned. On error, -1 is returned
*/
int32_t ioctl_set_connection_policy(uint32_t should_connect_to_open_ap, uint32_t use_fast_connect, uint32_t use_profiles);
/**
* \brief Delete WLAN profile
* \param index Number of profile to delete
* \return
* On success, zero is returned. On error, -1 is returned
*/
int32_t ioctl_del_profile(uint32_t index);
/**
* \brief Mask event according to bit mask. In case that event is
* masked (1), the device will not send the masked event to host.
* \param mask event mask
* \return
* On success, zero is returned. On error, -1 is returned
*/
int32_t set_event_mask(uint32_t mask);
/**
* \brief Start to acquire device profile. The device acquire its own
* profile, if profile message is found.
* \param encrypted_flag Indicates whether the information is encrypted
* \return
* On success, zero is returned. On error, -1 is returned.
*/
int32_t smart_config_start(uint32_t encrypted_flag);
/**
* \brief Stop the acquire profile procedure.
* \param none
* \return
* On success, zero is returned. On error, -1 is returned
*/
int32_t smart_config_stop(void);
/**
* \brief Configure station ssid prefix.
* \param new_prefix 3 bytes identify the SSID prefix for the Smart Config.
* \return
* On success, zero is returned. On error, -1 is returned.
*/
int32_t smart_config_set_prefix(uint8_t *new_prefix);
private:
cc3000_simple_link &_simple_link;
cc3000_event &_event;
cc3000_spi &_spi;
cc3000_hci &_hci;
};
/** The main object of cc3000 implementation
*/
class cc3000 {
public:
/** status structure */
typedef struct {
bool dhcp;
bool connected;
uint8_t socket;
bool smart_config_complete;
bool stop_smart_config;
bool dhcp_configured;
bool ok_to_shut_down;
} tStatus;
/**
* \brief Ctor.
* \param cc3000_irq IRQ pin
* \param cc3000_en Enable pin
* \param cc3000_cs Chip select pin
* \param cc3000_spi SPI interface
* \param irq_port IRQ pin's port
*/
cc3000(PinName cc3000_irq, PinName cc3000_en, PinName cc3000_cs, SPI cc3000_spi, IRQn_Type irq_port);
/**
* \brief Dtor.
*/
~cc3000();
/**
* \brief Initiate cc3000. It starts the wlan communication and deletes profiles.
* \param patch Patch
*/
void start(uint8_t patch);
/**
* \brief Stops the wlan communication.
*/
void stop();
/**
* \brief Restarts the wlan communication.
*/
void restart(uint8_t patch);
/**
* \brief Disconnect wlan device
*
*/
bool disconnect(void);
/**
* \brief Callback which is called from the event class. This updates status of cc3000.
* \param event_type Type of the event
* \param data Pointer to data
* \param length Length of data
* \return none
*/
void usync_callback(int32_t event_type, uint8_t *data, uint8_t length);
/**
* \brief Connect to SSID (open/secured) with timeout (10ms).
* \param ssid SSID name
* \param key Security key (if key = 0, open connection)
* \param security_mode Security mode
* \return true if connection was established, false otherwise.
*/
bool connect_to_AP(const uint8_t *ssid, const uint8_t *key, int32_t security_mode);
/**
* \brief Connect to SSID which is secured
* \param ssid SSID name
* \param key Security key
* \param security_mode Security mode
* \return true if connection was established, false otherwise.
*/
bool connect_secure(const uint8_t *ssid, const uint8_t *key, int32_t security_mode);
/**
* \brief Connect to SSID which is open (no security)
* \param ssid SSID name
* \return true if connection was established, false otherwise.
*/
bool connect_open(const uint8_t *ssid);
/**
* \brief Status of the cc3000 connection.
* \return true if it's connected, false otherwise.
*/
bool is_connected();
/**
* \brief Status of DHCP.
* \param none
* \return true if DCHP is configured, false otherwise.
*/
bool is_dhcp_configured();
/**
* \brief Status of smart confing completation.
* \param none
* \return smart config was set, false otherwise.
*/
bool is_smart_confing_completed();
/**
* \brief Return the cc3000's mac address.
* \param address Retreived mac address.
* \return
*/
uint8_t get_mac_address(uint8_t address[6]);
/**
* \brief Set the cc3000's mac address.
* \param address Mac address to be set.
* \return
*/
uint8_t set_mac_address(uint8_t address[6]);
/**
* \brief Get user file info.
* \param info_file Pointer where info will be stored.
* \param size Available size.
* \return none
*/
void get_user_file_info(uint8_t *info_file, size_t size);
/**
* \brief Set user filo info.
* \param info_file Pointer to user's info.
* \return none
*/
void set_user_file_info(uint8_t *info_file, size_t size);
/**
* \brief Start smart config.
* \param smart_config_key Pointer to smart config key.
* \return none
*/
void start_smart_config(const uint8_t *smart_config_key); /* TODO enable AES ? */
#ifndef CC3000_TINY_DRIVER
/**
* \brief Return ip configuration.
* \param ip_config Pointer to ipconfig data.
* \return true if it's connected and info was retrieved, false otherwise.
*/
bool get_ip_config(tNetappIpconfigRetArgs *ip_config);
#endif
/**
* \brief Delete all stored profiles.
* \param none
* \return none
*/
void delete_profiles(void);
/**
* \brief Ping an ip address.
* \param ip Destination IP address
* \param attempts Number of attempts
* \param timeout Time to wait for a response,in milliseconds.
* \param size Send buffer size which may be up to 1400 bytes
*/
uint32_t ping(uint32_t ip, uint8_t attempts, uint16_t timeout, uint8_t size);
/**
* \brief Returns cc3000 instance. Used in Socket interface.
* \param none
* \return Pointer to cc3000 object
*/
static cc3000 *get_instance() {
return _inst;
}
public:
cc3000_simple_link _simple_link;
cc3000_event _event;
#ifndef CC3000_UNENCRYPTED_SMART_CONFIG
cc3000_security _security;
#endif
cc3000_socket _socket;
cc3000_spi _spi;
cc3000_hci _hci;
cc3000_nvmem _nvmem;
cc3000_netapp _netapp;
cc3000_wlan _wlan;
protected:
static cc3000 *_inst;
private:
tStatus _status;
netapp_pingreport_args_t _ping_report;
bool _closed_sockets[MAX_SOCKETS];
};
/**
* Copy 32 bit to stream while converting to little endian format.
* @param p pointer to the new stream
* @param u32 pointer to the 32 bit
* @return pointer to the new stream
*/
uint8_t *UINT32_TO_STREAM_f (uint8_t *p, uint32_t u32);
/**
* Copy 16 bit to stream while converting to little endian format.
* @param p pointer to the new stream
* @param u32 pointer to the 16 bit
* @return pointer to the new stream
*/
uint8_t *UINT16_TO_STREAM_f (uint8_t *p, uint16_t u16);
/**
* Copy received stream to 16 bit in little endian format.
* @param p pointer to the stream
* @param offset offset in the stream
* @return pointer to the new 16 bit
*/
uint16_t STREAM_TO_UINT16_f(uint8_t* p, uint16_t offset);
/**
* Copy received stream to 32 bit in little endian format.
* @param p pointer to the stream
* @param offset offset in the stream
* @return pointer to the new 32 bit
*/
uint32_t STREAM_TO_UINT32_f(uint8_t* p, uint16_t offset);
} /* end of mbed_cc3000 namespace */
#endif