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gex-core/units/1wire/unit_1wire.c

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7.6 KiB

//
// Created by MightyPork on 2018/01/29.
//
#include "comm/messages.h"
#include "unit_base.h"
#include "unit_1wire.h"
// 1WIRE master
#define OW_INTERNAL
#include "_ow_internal.h"
#include "_ow_low_level.h"
/** Callback for sending a poll_ready success / failure report */
static void OW_TimerRespCb(Job *job)
{
Unit *unit = job->unit;
assert_param(unit);
struct priv *priv = unit->data;
bool success = (bool) job->data1;
if (success) {
com_respond_ok(priv->busyRequestId);
} else {
com_respond_error(priv->busyRequestId, E_HW_TIMEOUT);
}
priv->busy = false;
}
/**
* 1-Wire timer callback, used for the 'wait_ready' function.
*
* - In parasitic mode, this is a simple 750ms wait, after which a SUCCESS response is sent.
* - In 3-wire mode, the callback is fired periodically and performs a Read operation on the bus.
* The unit responds with 0 while the operation is ongoing. On receiving 1 a SUCCESS response is sent.
* The polling is abandoned after a timeout, sending a TIMEOUT response.
*
* @param xTimer
*/
void OW_TimerCb(TimerHandle_t xTimer)
{
Unit *unit = pvTimerGetTimerID(xTimer);
assert_param(unit);
struct priv *priv = unit->data;
assert_param(priv->busy);
if (priv->parasitic) {
// this is the end of the 750ms measurement time
goto halt_ok;
} else {
bool ready = ow_read_bit(unit);
if (ready) {
goto halt_ok;
}
uint32_t time = PTIM_GetTime();
if (time - priv->busyStart > 1000) {
xTimerStop(xTimer, 100);
Job j = {
.unit = unit,
.data1 = 0, // failure
.cb = OW_TimerRespCb,
};
scheduleJob(&j);
}
}
return;
halt_ok:
xTimerStop(xTimer, 100);
Job j = {
.unit = unit,
.data1 = 1, // success
.cb = OW_TimerRespCb,
};
scheduleJob(&j);
}
enum PinCmd_ {
CMD_CHECK_PRESENCE = 0, // simply tests that any devices are attached
CMD_SEARCH_ADDR = 1, // perform a scan of the bus, retrieving all found device ROMs
CMD_SEARCH_ALARM = 2, // like normal scan, but retrieve only devices with alarm
CMD_SEARCH_CONTINUE = 3, // continue the previously started scan, retrieving more devices
CMD_READ_ADDR = 4, // read the ROM code from a single device (for single-device bus)
CMD_WRITE = 10, // write multiple bytes using the SKIP_ROM command
CMD_READ = 11, // write multiple bytes using a ROM address
CMD_POLL_FOR_1 = 20,
CMD_TEST = 100,
};
/** Handle a request message */
static error_t OW_handleRequest(Unit *unit, TF_ID frame_id, uint8_t command, PayloadParser *pp)
{
struct priv *priv = unit->data;
bool presence;
uint64_t addr;
uint32_t remain;
const uint8_t *tail;
if (priv->busy) return E_BUSY;
bool with_alarm = false;
bool search_reset = false;
switch (command) {
/**
* This is the delay function for DS1820 measurements.
*
* Parasitic: Returns success after the required 750ms
* Non-parasitic: Returns SUCCESS after device responds '1', HW_TIMEOUT after 1s
*/
case CMD_POLL_FOR_1:
// This can't be exposed via the UU API, due to being async
if (priv->parasitic) {
assert_param(pdPASS == xTimerChangePeriod(priv->busyWaitTimer, 750, 100));
} else {
// every 10 ticks
assert_param(pdPASS == xTimerChangePeriod(priv->busyWaitTimer, 10, 100));
}
assert_param(pdPASS == xTimerStart(priv->busyWaitTimer, 100));
priv->busy = true;
priv->busyStart = PTIM_GetTime();
priv->busyRequestId = frame_id;
return E_SUCCESS; // We will respond when the timer expires
/** Search devices with alarm. No payload, restarts the search. */
case CMD_SEARCH_ALARM:
with_alarm = true;
// fall-through
/** Search all devices. No payload, restarts the search. */
case CMD_SEARCH_ADDR:
search_reset = true;
// fall-through
/** Continue a previously begun search. */
case CMD_SEARCH_CONTINUE:;
uint32_t found_count = 0;
bool have_more = false;
if (!search_reset && priv->searchState.status != OW_SEARCH_MORE) {
dbg("Search not ongoing!");
return E_PROTOCOL_BREACH;
}
TRY(UU_1WIRE_Search(unit, with_alarm, search_reset,
(void *) unit_tmp512, UNIT_TMP_LEN/8, &found_count,
&have_more));
// use multipart to avoid allocating extra buffer
uint8_t status_code = (uint8_t) have_more;
TF_Msg msg = {
.frame_id = frame_id,
.type = MSG_SUCCESS,
.len = (TF_LEN) (found_count * 8 + 1),
};
TF_Respond_Multipart(comm, &msg);
TF_Multipart_Payload(comm, &status_code, 1);
// the codes are back-to-back stored inside the buffer, we send it directly
// (it's already little-endian, as if built by PayloadBuilder)
TF_Multipart_Payload(comm, (uint8_t *) unit_tmp512, found_count * 8);
TF_Multipart_Close(comm);
return E_SUCCESS;
/** Simply check presence of any devices on the bus. Responds with SUCCESS or HW_TIMEOUT */
case CMD_CHECK_PRESENCE:
TRY(UU_1WIRE_CheckPresence(unit, &presence));
com_respond_u8(frame_id, (uint8_t) presence);
return E_SUCCESS;
/** Read address of the single device on the bus - returns u64 */
case CMD_READ_ADDR:
TRY(UU_1WIRE_ReadAddress(unit, &addr));
// build response
PayloadBuilder pb = pb_start(unit_tmp512, UNIT_TMP_LEN, NULL);
pb_u64(&pb, addr);
com_respond_pb(frame_id, MSG_SUCCESS, &pb);
return E_SUCCESS;
/**
* Write payload to the bus, no confirmation (unless requested).
*
* Payload:
* addr:u64, rest:write_data
* if addr is 0, use SKIP_ROM
*/
case CMD_WRITE:
addr = pp_u64(pp);
tail = pp_tail(pp, &remain);
TRY(UU_1WIRE_Write(unit, addr, tail, remain));
return E_SUCCESS;
/**
* Write and read.
*
* Payload:
* addr:u64, read_len:u16, rest:write_data
* if addr is 0, use SKIP_ROM
*/
case CMD_READ:
addr = pp_u64(pp);
uint16_t rcount = pp_u16(pp);
bool test_crc = pp_bool(pp);
tail = pp_tail(pp, &remain);
TRY(UU_1WIRE_Read(unit, addr,
tail, remain,
(uint8_t *) unit_tmp512, rcount,
test_crc));
// build response
com_respond_buf(frame_id, MSG_SUCCESS, (uint8_t *) unit_tmp512, rcount);
return E_SUCCESS;
default:
return E_UNKNOWN_COMMAND;
}
}
// ------------------------------------------------------------------------
/** Unit template */
const UnitDriver UNIT_1WIRE = {
.name = "1WIRE",
.description = "1-Wire master",
// Settings
.preInit = OW_preInit,
.cfgLoadBinary = OW_loadBinary,
.cfgWriteBinary = OW_writeBinary,
.cfgLoadIni = OW_loadIni,
.cfgWriteIni = OW_writeIni,
// Init
.init = OW_init,
.deInit = OW_deInit,
// Function
.handleRequest = OW_handleRequest,
};