WizziLab
/
D7A_1x_demo_send_file_data
Featured
Important changes to repositories hosted on mbed.com
Mbed hosted mercurial repositories are deprecated and are due to be permanently deleted in July 2026.
To keep a copy of this software download the repository Zip archive or clone locally using Mercurial.
It is also possible to export all your personal repositories from the account settings page.
Dependencies: modem_ref_helper CRC DebouncedInterrupt
main.cpp
- Committer:
- Jeej
- Date:
- 2017-05-12
- Revision:
- 3:3811610b75cd
- Parent:
- 2:992b87360140
- Child:
- 4:999305b576c0
File content as of revision 3:3811610b75cd:
// @autor: jeremie@wizzilab.com
// @date: 2017-05-02
#include "mbed.h"
#include "rtos.h"
#include "DebouncedInterrupt.h"
#include "WizziDebug.h"
#include "WizziCom.h"
#include "hwcfg.h"
#include "files.h"
#include "ram_fs.h"
#include "modem_callbacks.h"
#include "revision.h"
#include "alp_spec.h"
#include "alp_helpers.h"
#include "modem_ref.h"
#include "kal_fs.h"
#include "d7a_1x.h"
#include "alp.h"
WizziCom* g_modem_com;
Semaphore button_user(0);
Semaphore modem_ready(0);
Queue<void, 8> modem_resp;
uint8_t g_main_id, g_report_id;
enum {
MODEM_RESP_NO,
MODEM_RESP_TERMINAL,
MODEM_RESP_DONE,
};
TYPEDEF_STRUCT_PACKED {
uint8_t type;
d7a_sp_cfg_t cfg;
} alp_d7a_itf_t;
#define D7A_CTF_VAL(mant,exp) ((uint8_t)(mant|(exp<<5)))
#define ALP_ITF_TYPE_D7A 0xD7
alp_d7a_itf_t alarm_itf = {
.type = ALP_ITF_TYPE_D7A,
.cfg.to = 0,
.cfg.te = 0,
.cfg.qos.bf.record = 0,
.cfg.qos.bf.stop_on_err = 0,
.cfg.qos.bf.resp = D7A_RESP_PREFERRED,
.cfg.addressee.ctrl.bf.nls = D7A_NLS_AES_CCM_64,
.cfg.addressee.ctrl.bf.idf = D7A_ID_NBID,
.cfg.addressee.xcl.bf = {.s = 0x2, .m = 0x1},// XXX D7A_XCL_GW,
.cfg.addressee.id[0] = D7A_CTF_VAL(1,1),
.cfg.qos.bf.retry = 1 // XXX WM_RPOL_RARE_SINGLE_CHECK,
};
#define MY_D7_ITF_SIZE(_itf) (1+my_alp_itf_d7a_cfg_size(&(_itf)->cfg))
int my_alp_itf_d7a_cfg_size(d7a_sp_cfg_t* cfg)
{
int size = sizeof(d7a_sp_cfg_t) - sizeof(d7a_addressee_t);
size += D7A_ADDR_LEN(cfg->addressee.ctrl);
return size;
}
// Interrupt Service Routine on button press.
void button_push_isr( void )
{
button_user.release();
}
// Callback for broadcast read
void my_response_callback(uint8_t terminal, int8_t err, uint8_t id)
{
(void)id;
PRINT("TERMINAL %d STATUS %d\r\n", terminal, err);
if (terminal)
{
modem_resp.put((void*)MODEM_RESP_TERMINAL);
}
else
{
if (ALP_ERR_NONE == err)
{
modem_resp.put((void*)MODEM_RESP_DONE);
}
}
}
void button_user_thread()
{
FPRINT("(id:0x%08x)\r\n", osThreadGetId());
osEvent evt;
uint32_t resp;
uint8_t alarm;
uint8_t my_user_id = modem_get_id(my_response_callback);
d7a_sp_res_t istat;
uint8_t nb = 0;
// Load alarm value
ram_fs_read(FID_ALARM, 0, 1, &alarm);
// Send initial value
modem_send_file_content((uint8_t*)&alarm_itf, MY_D7_ITF_SIZE(&alarm_itf), (void*)&istat, FID_ALARM, &alarm, 0, 1, g_main_id);
modem_ready.wait();
while (true)
{
// Wait for button press
button_user.wait();
// load/save value to keep choerency in case of remote access...
ram_fs_read(FID_ALARM, 0, 1, &alarm);
// Toggle alarm state
alarm = !alarm;
ram_fs_write(FID_ALARM, 0, 1, &alarm);
PRINT("BUTTON ALARM %d\r\n", alarm);
modem_send_file_content((uint8_t*)&alarm_itf, MY_D7_ITF_SIZE(&alarm_itf), (void*)&istat, FID_ALARM, &alarm, 0, 1, my_user_id);
do
{
evt = modem_resp.get();
resp = (evt.status == osEventMessage)? (uint32_t)evt.value.p : NULL;
if (MODEM_RESP_DONE == resp)
{
nb++;
PRINT("ACK %d: ", nb);
PRINT_DATA("UID:", "%02X", istat.addressee.id, 8, " ");
PRINT("rxlev:%d lb:%d\n", istat.rxlev, istat.lb);
}
} while (MODEM_RESP_TERMINAL != resp);
PRINT("BUTTON ALARM DONE\r\n");
}
}
// Misc
// ============================================================{{{
void my_get_alp_file_props(uint8_t fid, alp_file_header_t* hdr)
{
memcpy(hdr, ram_fs_get_header(fid), sizeof(alp_file_header_t));
}
void print_status(int status)
{
switch (status)
{
case ALP_ERR_NONE:
PRINT("Status: OK\n");
break;
case ALP_ERR_FILE_EXIST:
PRINT("Status: Already registered\n");
break;
default:
PRINT("Status: error %d\n", status);
break;
}
}
void print_resp(int status)
{
switch (status)
{
case ALP_ERR_NONE:
PRINT("Resp: OK\n");
break;
case ALP_ERR_FILE_EXIST:
PRINT("Resp: Already registered\n");
break;
default:
PRINT("Resp: error %d\n", status);
break;
}
}
// ============================================================}}}
// Serial adapters to WizziLab's own architecture
// ============================================================{{{
void my_serial_input(WizziCom* com, WizziComPacket_t* pkt)
{
modem_input(wizzicom_type_to_flow(pkt->type), pkt->data, pkt->length);
FREE(pkt);
}
int my_serial_send(uint8_t* data1, uint8_t size1, uint8_t* data2, uint8_t size2)
{
(void)size1;
g_modem_com->send((WizziComPacketType)wizzicom_flow_to_type(data1[4]), size2, data2);
return (size1 + size2);
}
modem_callbacks_t callbacks = {
.read = my_read,
.write = my_write,
.read_fprop = my_read_fprop,
.flush = my_flush,
.remove = my_delete,
.lqual = my_lqual,
.ldown = my_ldown,
.reset = my_reset,
.boot = my_boot
};
// Callback for g_main_id User
void my_main_callback(uint8_t terminal, int8_t err, uint8_t id)
{
(void)id;
if (terminal)
{
print_status(err);
modem_ready.release();
}
else
{
print_resp(err);
}
}
void modem_update_file(uint8_t fid, alp_file_header_t* header, uint8_t* data)
{
alp_file_header_t remote_header;
memset(&remote_header, 0, sizeof(alp_file_header_t));
// Read remote header
modem_read_fprop(fid, &remote_header, g_main_id);
modem_ready.wait();
// Add file in local file system
ram_fs_new(fid, (uint8_t*)header, data);
// Update file
if (memcmp(&remote_header, header, sizeof(alp_file_header_t)))
{
PRINT("Updating file %d\n", fid);
// Delete
modem_delete_file(fid, g_main_id);
modem_ready.wait();
// Restore in local file system
ram_fs_new(fid, (uint8_t*)header, data);
// Re-create
if (data)
{
modem_declare_file(fid, header, g_main_id);
}
else
{
modem_create_file(fid, header, g_main_id);
}
modem_ready.wait();
}
else
{
PRINT("File %d up to date\n", fid);
}
}
/*** Main function ------------------------------------------------------------- ***/
int main()
{
// Start & initialize
DBG_OPEN(DEBUG_LED);
PRINT("\r\n--- Starting new run ---\r\n");
FPRINT("(id:0x%08x)\r\n", osThreadGetId());
static union {
uint8_t b[8];
uint32_t w[2];
} uid;
revision_t rev;
// Hardware reset
DigitalOut reset_low(MODEM_PIN_RESET, 0);
Thread::wait(100);
// Release reset
DigitalIn reset_release(MODEM_PIN_RESET);
Thread::wait(1000);
// Open modem Com port
g_modem_com = new WizziCom(MODEM_PIN_TX, MODEM_PIN_RX, MODEM_PIN_IRQ_OUT, MODEM_PIN_IRQ_IN);
// Redirect All Port traffic to my_serial_input
g_modem_com->attach(my_serial_input, WizziComPacketOther);
modem_open(my_serial_send, &callbacks);
g_main_id = modem_get_id(my_main_callback);
PRINT("Start Modem Process (id=%d)\n", g_main_id);
Thread::wait(1000);
modem_read_file(0, (uint8_t*)&uid.b[0], 0, 8, g_main_id);
modem_ready.wait();
modem_read_file(2, (uint8_t*)&rev, 0, sizeof(revision_t), g_main_id);
modem_ready.wait();
PRINT("------------ D7A Modem infos ------------\r\n");
PRINT_DATA(" - UID: ", "%02X", uid.b, 8, "\r\n");
PRINT(" - Manufacturer ID: %08X\r\n", rev.manufacturer_id);
PRINT(" - Device ID: %08X\r\n", rev.device_id);
PRINT(" - Hardware version: %08X\r\n", rev.hw_version);
PRINT(" - Firmware version: v%d.%d.%d\r\n", rev.fw_version.major, rev.fw_version.minor, rev.fw_version.patch);
PRINT(" - File system CRC: 0x%08x\r\n", rev.fs_crc);
PRINT("-----------------------------------------\r\n");
PRINT("Register Files\n");
// The modem keeps file's headers permanently.
// if the file header changed, you have to delete it before declaring
// in order to update it.
// HOST Revision is a local file. Uses D7AActP Notification.
// Do not need to delete since it should never change
modem_update_file(FID_HOST_REV, (alp_file_header_t*)&h_rev, (uint8_t*)&f_rev);
// Button/Alarm is a local file. As we want to check the outcome of sending
// this, don't use D7AActP Notification but rather plain ALP ITF Forwarding.
// Declaration just allows remote access.
modem_update_file(FID_ALARM, (alp_file_header_t*)&h_alarm, (uint8_t*)&f_alarm);
// Configure URC: LQUAL on report file notification every 10 reports
PRINT("Setup URCs\n");
modem_enable_urc(ALP_URC_TYPE_LQUAL, IFID_REPORT, 10, true, g_main_id);
modem_ready.wait();
PRINT("Start D7A Stack\n");
modem_activate_itf(ALP_ITF_TYPE_D7A, 24, 0, ALP_D7A_ISTAT_RESP , true, g_main_id);
modem_ready.wait();
PRINT("Notify Modem Version\n");
modem_notify_file(FID_MODEM_REV, 0, SIZE_HOST_REV, g_main_id);
modem_ready.wait();
PRINT("Notify FW Version\n");
modem_notify_file(FID_HOST_REV, 0, SIZE_HOST_REV, g_main_id);
modem_ready.wait();
#ifdef DEBUG_BUTTON
DebouncedInterrupt user_interrupt(DEBUG_BUTTON);
user_interrupt.attach(button_push_isr, IRQ_FALL, 500, true);
Thread but_th(osPriorityNormal, 2048, NULL);
osStatus status = but_th.start(button_user_thread);
ASSERT(status == osOK, "Failed to start but thread (err: %d)\r\n", status);
#endif
#ifdef DEBUG_LED
DigitalOut my_led(DEBUG_LED);
#endif
// Set main task to lowest priority
osThreadSetPriority(osThreadGetId(), osPriorityIdle);
while(true)
{
Thread::wait(500);
#ifdef DEBUG_LED
my_led = !my_led;
#endif
}
}