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|
/*
* Copyright (C) 2016 "IoT.bzh"
* Author Fulup Ar Foll <fulup@iot.bzh>
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*
* references:
* https://gist.github.com/ghedo/963382
* http://alsa-utils.sourcearchive.com/documentation/1.0.15/aplay_8c-source.html
*/
#define _GNU_SOURCE
#define BUFFER_FRAME_COUNT 10 /* max frames in buffer */
#define WAIT_TIMER_US 1000000 /* default waiting timer 1s */
#define I2C_MAX_DATA_SZ 32 /* max. number of bytes to be written to i2c */
#define CTRL_MAX_DATA_SZ 45 /* max. number of bytes to be written to control
* channel */
#include <systemd/sd-event.h>
#include <sys/types.h>
#include <sys/stat.h>
#include <stdio.h>
#include <fcntl.h>
#include <string.h>
#include <unistd.h>
#include <time.h>
#include <assert.h>
#include <errno.h>
#include <dirent.h>
#include "ucs_binding.h"
#include "ucs_interface.h"
#include <wrap-json.h>
#define MAX_FILENAME_LEN (100)
#define RX_BUFFER (64)
#define XML_CONFIG_FOLDER "/var/"
#define XML_CONFIG_FILE "config_multichannel_audio_kit.xml"
/** Internal structure, enabling multiple instances of this component.
* \note Do not access any of this variables.
* */
typedef struct {
int fileHandle;
int fileFlags;
char fileName[MAX_FILENAME_LEN];
uint8_t rxBuffer[RX_BUFFER];
uint32_t rxLen;
} CdevData_t;
typedef struct {
CdevData_t rx;
CdevData_t tx;
UCSI_Data_t ucsiData;
UcsXmlVal_t* ucsConfig;
} ucsContextT;
typedef struct {
afb_event_t node_event;
} EventData_t;
typedef struct {
afb_event_t rx_event;
} EventDataRx_t;
static ucsContextT *ucsContextS = NULL;
static EventData_t *eventData = NULL;
static EventDataRx_t *eventDataRx = NULL;
PUBLIC void UcsXml_CB_OnError(const char format[], uint16_t vargsCnt, ...) {
/*AFB_API_DEBUG (afbBindingRoot, afbIface, format, args); */
va_list args;
va_start (args, vargsCnt);
vfprintf (stderr, format, args);
va_end(args);
va_list argptr;
char outbuf[300];
va_start(argptr, vargsCnt);
vsprintf(outbuf, format, argptr);
va_end(argptr);
AFB_API_WARNING (afbBindingRoot, "%s", outbuf);
}
PUBLIC uint16_t UCSI_CB_OnGetTime(void *pTag) {
struct timespec currentTime;
uint16_t timer;
pTag = pTag;
if (clock_gettime(CLOCK_MONOTONIC_RAW, ¤tTime)) {
assert(false);
return 0;
}
timer = (uint16_t) ((currentTime.tv_sec * 1000 ) + ( currentTime.tv_nsec / 1000000 ));
return(timer);
}
STATIC int onTimerCB (sd_event_source* source,uint64_t timer, void* pTag) {
ucsContextT *ucsContext = (ucsContextT*) pTag;
sd_event_source_unref(source);
UCSI_Timeout(&ucsContext->ucsiData);
return 0;
}
void UCSI_CB_OnNetworkState(void *pTag, bool isAvailable, uint16_t packetBandwidth, uint8_t amountOfNodes)
{
AFB_API_NOTICE (afbBindingRoot, "Network is available=%d, bw=%d, nodeCnt=%d", isAvailable, packetBandwidth, amountOfNodes);
}
/* UCS2 Interface Timer Callback */
PUBLIC void UCSI_CB_OnSetServiceTimer(void *pTag, uint16_t timeout) {
uint64_t usec;
/* set a timer with 250ms accuracy */
sd_event_now(afb_api_get_event_loop(afbBindingRoot), CLOCK_BOOTTIME, &usec);
sd_event_add_time(afb_api_get_event_loop(afbBindingRoot), NULL, CLOCK_MONOTONIC, usec + (timeout*1000), 250, onTimerCB, pTag);
}
/**
* \brief Callback when ever an Unicens forms a human readable message.
* This can be error events or when enabled also debug messages.
* \note This function must be implemented by the integrator
* \param pTag - Pointer given by the integrator by UCSI_Init
* \param format - Zero terminated format string (following printf rules)
* \param vargsCnt - Amount of parameters stored in "..."
*/
void UCSI_CB_OnUserMessage(void *pTag, bool isError, const char format[],
uint16_t vargsCnt, ...) {
va_list argptr;
char outbuf[300];
pTag = pTag;
va_start(argptr, vargsCnt);
vsprintf(outbuf, format, argptr);
va_end(argptr);
AFB_API_NOTICE (afbBindingRoot, "%s",outbuf);
}
/** UCSI_Service cannot be called directly within UNICENS context, need to service stack through mainloop */
STATIC int OnServiceRequiredCB (sd_event_source *source, uint64_t usec, void *pTag) {
ucsContextT *ucsContext = (ucsContextT*) pTag;
sd_event_source_unref(source);
UCSI_Service(&ucsContext->ucsiData);
return (0);
}
/* UCS Callback fire when ever UNICENS needs to be serviced */
PUBLIC void UCSI_CB_OnServiceRequired(void *pTag) {
/* push an asynchronous request for loopback to call UCSI_Service */
sd_event_add_time(afb_api_get_event_loop(afbBindingRoot), NULL, CLOCK_MONOTONIC, 0, 0, OnServiceRequiredCB, pTag);
}
/* Callback when ever this UNICENS wants to send a message to INIC. */
PUBLIC void UCSI_CB_OnTxRequest(void *pTag, const uint8_t *pData, uint32_t len) {
ucsContextT *ucsContext = (ucsContextT*) pTag;
CdevData_t *cdevTx = &ucsContext->tx;
uint32_t total = 0;
if (NULL == pData || 0 == len) return;
if (O_RDONLY == cdevTx->fileFlags) return;
if (-1 == cdevTx->fileHandle)
cdevTx->fileHandle = open(cdevTx->fileName, cdevTx->fileFlags);
if (-1 == cdevTx->fileHandle)
return;
while(total < len) {
ssize_t written = write(cdevTx->fileHandle, &pData[total], (len - total));
if (0 >= written)
{
/* Silently ignore write error (only occur in non-blocking mode) */
break;
}
total += (uint32_t) written;
}
}
/** UcsXml_FreeVal be called directly within UNICENS context, need to service stack through mainloop */
STATIC int OnStopCB (sd_event_source *source, uint64_t usec, void *pTag) {
if (NULL != ucsContextS && NULL != ucsContextS->ucsConfig) {
UcsXml_FreeVal(ucsContextS->ucsConfig);
ucsContextS->ucsConfig = NULL;
}
return 0;
}
/**
* \brief Callback when UNICENS instance has been stopped.
* \note This event can be used to free memory holding the resources
* passed with UCSI_NewConfig
* \note This function must be implemented by the integrator
* \param pTag - Pointer given by the integrator by UCSI_Init
*/
void UCSI_CB_OnStop(void *pTag) {
AFB_API_NOTICE (afbBindingRoot, "UNICENS stopped");
/* push an asynchronous request for loopback to call UcsXml_FreeVal */
sd_event_add_time(afb_api_get_event_loop(afbBindingRoot), NULL, CLOCK_MONOTONIC, 0, 0, OnStopCB, pTag);
}
/* helper function: wraps Rx message in json and triggers notification */
STATIC void NotifyEventRxMsg(uint16_t src_addr, uint16_t msg_id, uint8_t *data_ptr, uint32_t data_sz) {
if (!eventDataRx)
return;
if (data_sz > CTRL_MAX_DATA_SZ) {
AFB_API_NOTICE(afbBindingRoot, "RX-MSG: discarded, payload exceeds %d bytes", CTRL_MAX_DATA_SZ);
return;
}
json_object *j_query = NULL;
int node = (int)src_addr;
int msgid = (int)msg_id;
size_t data_size = (size_t)data_sz;
/* skip data attribute if possible, wrap_json_unpack may fail to deal with
* an empty Base64 string */
if (data_size > 0)
wrap_json_pack(&j_query, "{s:i, s:i, s:Y*}", "node", node, "msgid", msgid, "data", data_ptr, data_size);
else
wrap_json_pack(&j_query, "{s:i, s:i}", "node", node, "msgid", msgid);
afb_event_push(eventDataRx->rx_event, j_query);
}
/** Asynchronous processing of Rx messages in mainloop is recommended */
STATIC int OnAmsMessageReceivedCB (sd_event_source *source, void *pTag) {
ucsContextT *ucsContext = (ucsContextT*) pTag;
uint32_t data_sz = 0U;
uint8_t *data_ptr = NULL;
uint16_t msg_id = 0U;
uint16_t src_addr = 0U;
while (UCSI_GetAmsMessage(&ucsContext->ucsiData, &msg_id, &src_addr, &data_ptr, &data_sz)) {
NotifyEventRxMsg(src_addr, msg_id, data_ptr, data_sz);
AFB_API_DEBUG(afbBindingRoot, "RX-MSG: src=0x%04X, msg_id=0x%04X, size=%d", src_addr, msg_id, data_sz);
UCSI_ReleaseAmsMessage(&ucsContext->ucsiData);
}
return 0;
}
/** This callback will be raised, when ever an applicative message on the control channel arrived */
void UCSI_CB_OnAmsMessageReceived(void *pTag)
{
static sd_event_source *src_ptr = NULL;
if (!src_ptr)
{
/* first time usage: create and trigger event source */
sd_event_add_defer(afb_api_get_event_loop(afbBindingRoot), &src_ptr, &OnAmsMessageReceivedCB, pTag);
}
else
{
sd_event_source_set_enabled(src_ptr, SD_EVENT_ONESHOT);
}
}
void UCSI_CB_OnRouteResult(void *pTag, uint16_t routeId, bool isActive, uint16_t connectionLabel)
{
AFB_API_NOTICE (afbBindingRoot, "Route 0x%X is active=%d, connection label=0x%X", routeId, isActive, connectionLabel);
}
void UCSI_CB_OnGpioStateChange(void *pTag, uint16_t nodeAddress, uint8_t gpioPinId, bool isHighState)
{
AFB_API_NOTICE (afbBindingRoot, "GPIO state of node 0x%X changed, pin=%d isHigh=%d", nodeAddress, gpioPinId, isHighState);
}
PUBLIC void UCSI_CB_OnMgrReport(void *pTag, Ucs_MgrReport_t code, uint16_t nodeAddress, Ucs_Rm_Node_t *pNode){
bool available;
if (code == UCS_MGR_REP_AVAILABLE) {
available = true;
}
else if (code == UCS_MGR_REP_NOT_AVAILABLE) {
available = false;
}
else {
/*untracked event - just exit*/
return;
}
if (eventData) {
json_object *j_event_info = json_object_new_object();
json_object_object_add(j_event_info, "node", json_object_new_int(nodeAddress));
json_object_object_add(j_event_info, "available", json_object_new_boolean(available));
afb_event_push(eventData->node_event, j_event_info);
}
}
bool Cdev_Init(CdevData_t *d, const char *fileName, bool read, bool write)
{
if (NULL == d || NULL == fileName) goto OnErrorExit;
memset(d, 0, sizeof(CdevData_t));
strncpy(d->fileName, fileName, MAX_FILENAME_LEN);
d->fileHandle = -1;
if (read && write)
d->fileFlags = O_RDWR | O_NONBLOCK;
else if (read)
d->fileFlags = O_RDONLY | O_NONBLOCK;
else if (write)
d->fileFlags = O_WRONLY | O_NONBLOCK;
/* open file to enable event loop */
d->fileHandle = open(d->fileName, d->fileFlags);
if (d->fileHandle <= 0) goto OnErrorExit;
return true;
OnErrorExit:
return false;
}
static bool InitializeCdevs(ucsContextT *ucsContext)
{
if(!Cdev_Init(&ucsContext->tx, CONTROL_CDEV_TX, false, true))
return false;
if(!Cdev_Init(&ucsContext->rx, CONTROL_CDEV_RX, true, false))
return false;
return true;
}
/* Callback fire when something is avaliable on MOST cdev */
int onReadCB (sd_event_source* src, int fileFd, uint32_t revents, void* pTag) {
ucsContextT *ucsContext =( ucsContextT*) pTag;
ssize_t len;
uint8_t pBuffer[RX_BUFFER];
int ok;
len = read (ucsContext->rx.fileHandle, &pBuffer, sizeof(pBuffer));
if (0 == len)
return 0;
ok= UCSI_ProcessRxData(&ucsContext->ucsiData, pBuffer, (uint16_t)len);
if (!ok) {
AFB_API_DEBUG (afbBindingRoot, "Buffer overrun (not handle)");
/* Buffer overrun could replay pBuffer */
}
return 0;
}
STATIC char* GetDefaultConfig(void) {
char const *data_path = getenv("AFM_APP_INSTALL_DIR");
if (!data_path) {
AFB_API_ERROR(afbBindingRoot, "AFM_APP_INSTALL_DIR is not defined");
}
else {
size_t size;
char * config_path;
AFB_API_NOTICE(afbBindingRoot, "AFM_APP_INSTALL_DIR is: %s", data_path);
size = strlen(data_path) + strlen(XML_CONFIG_FOLDER) + strlen(XML_CONFIG_FILE) + 2;
config_path = malloc(size);
if (config_path != NULL) {
snprintf(config_path, size, "%s%s%s", data_path, XML_CONFIG_FOLDER, XML_CONFIG_FILE);
if(access(config_path, R_OK ) == 0) {
AFB_API_NOTICE(afbBindingRoot, "Default configuration: %s", config_path);
return config_path;
}
}
}
return NULL;
}
STATIC UcsXmlVal_t* ParseFile(const char *filename) {
char *xmlBuffer;
ssize_t readSize;
int fdHandle ;
struct stat fdStat;
UcsXmlVal_t *ucsConfig = NULL;
fdHandle = open(filename, O_RDONLY);
if (fdHandle <= 0) {
AFB_API_ERROR(afbBindingRoot, "File not accessible: '%s' err=%s", filename, strerror(fdHandle));
goto OnErrorExit;
}
/* read file into buffer as a \0 terminated string */
fstat(fdHandle, &fdStat);
xmlBuffer = (char*)alloca(fdStat.st_size + 1);
readSize = read(fdHandle, xmlBuffer, fdStat.st_size);
close(fdHandle);
xmlBuffer[readSize] = '\0'; /* In any case, terminate it. */
if (readSize != fdStat.st_size) {
AFB_API_ERROR(afbBindingRoot, "File to read fullfile '%s' size(%d!=%d)", filename, (int)readSize, (int)fdStat.st_size);
goto OnErrorExit;
}
ucsConfig = UcsXml_Parse(xmlBuffer);
if (!ucsConfig) {
AFB_API_ERROR(afbBindingRoot, "File XML invalid: '%s'", filename);
goto OnErrorExit;
}
AFB_API_NOTICE (afbBindingRoot, "Parsing result: %d Nodes, %d Scripts, Ethernet Bandwith %d bytes = %.2f MBit/s", ucsConfig->nodSize, ucsConfig->routesSize, ucsConfig->packetBw, (48 * 8 * ucsConfig->packetBw / 1000.0));
return (ucsConfig);
OnErrorExit:
return NULL;
}
PUBLIC int StartConfiguration(const char *filename) {
static ucsContextT ucsContext = { 0 };
sd_event_source *evtSource;
int err;
/* Read and parse XML file */
ucsContext.ucsConfig = ParseFile(filename);
if (NULL == ucsContext.ucsConfig) {
AFB_API_ERROR (afbBindingRoot, "Cannot access or load file: '%s'", filename);
goto OnErrorExit;
}
/* When ucsContextS is set, do not initalize UNICENS, CDEVs or system hooks, just load new XML */
if (!ucsContextS)
{
if (!ucsContextS && !InitializeCdevs(&ucsContext)) {
AFB_API_ERROR (afbBindingRoot, "Fail to initialise device [rx=%s tx=%s]", CONTROL_CDEV_RX, CONTROL_CDEV_TX);
goto OnErrorExit;
}
/* Initialise UNICENS Config Data Structure */
UCSI_Init(&ucsContext.ucsiData, &ucsContext);
/* register aplayHandle file fd into binder mainloop */
err = sd_event_add_io(afb_api_get_event_loop(afbBindingRoot), &evtSource, ucsContext.rx.fileHandle, EPOLLIN, onReadCB, &ucsContext);
if (err < 0) {
AFB_API_ERROR (afbBindingRoot, "Cannot hook events to mainloop");
goto OnErrorExit;
}
/* save this in a statical variable until ucs2vol move to C */
ucsContextS = &ucsContext;
}
/* Initialise UNICENS with parsed config */
if (!UCSI_NewConfig(&ucsContext.ucsiData, ucsContext.ucsConfig)) {
AFB_API_ERROR (afbBindingRoot, "Fail to initialize UNICENS");
goto OnErrorExit;
}
return 0;
OnErrorExit:
return -1;
}
PUBLIC void ucs2_initialise (afb_req_t request) {
const char *filename = afb_req_value(request, "filename");
if (!filename) {
afb_req_reply (request, NULL, "filename-missing", "No filename given");
goto OnErrorExit;
}
if (StartConfiguration(filename) != 0) {
afb_req_reply (request, NULL, "load-failed", "Cannot parse file and start UNICENS");
goto OnErrorExit;
}
afb_req_reply(request,NULL, NULL,"UNICENS-active");
OnErrorExit:
return;
}
// List Avaliable Configuration Files
PUBLIC void ucs2_listconfig (afb_req_t request) {
struct json_object *queryJ, *tmpJ, *responseJ;
DIR *dirHandle;
char *dirPath, *dirList;
int error=0;
queryJ = afb_req_json(request);
if (queryJ && json_object_object_get_ex (queryJ, "cfgpath" , &tmpJ)) {
dirList = strdup (json_object_get_string(tmpJ));
} else {
dirList = strdup (UCS2_CFG_PATH);
AFB_API_NOTICE (afbBindingRoot, "fgpath:missing uses UCS2_CFG_PATH=%s", UCS2_CFG_PATH);
}
responseJ = json_object_new_array();
for (dirPath= strtok(dirList, ":"); dirPath && *dirPath; dirPath=strtok(NULL,":")) {
struct dirent *dirEnt;
dirHandle = opendir (dirPath);
if (!dirHandle) {
AFB_API_NOTICE (afbBindingRoot, "ucs2_listconfig dir=%s not readable", dirPath);
error++;
continue;
}
AFB_API_NOTICE (afbBindingRoot, "ucs2_listconfig scanning: %s", dirPath);
while ((dirEnt = readdir(dirHandle)) != NULL) {
// Unknown type is accepted to support dump filesystems
if (dirEnt->d_type == DT_REG || dirEnt->d_type == DT_UNKNOWN) {
struct json_object *pathJ = json_object_new_object();
json_object_object_add(pathJ, "dirpath", json_object_new_string(dirPath));
json_object_object_add(pathJ, "basename", json_object_new_string(dirEnt->d_name));
json_object_array_add(responseJ, pathJ);
}
}
}
free (dirList);
if (!error) afb_req_reply(request,responseJ, NULL,NULL);
else {
char info[40];
snprintf (info, sizeof(info), "[%d] where not scanned", error);
afb_req_reply(request,responseJ, NULL, info);
}
return;
}
PUBLIC void ucs2_subscribe (afb_req_t request) {
if (!eventData) {
eventData = malloc(sizeof(EventData_t));
if (eventData) {
eventData->node_event = afb_api_make_event (afbBindingRoot, "node-availibility");
}
if (!eventData || !afb_event_is_valid(eventData->node_event)) {
afb_req_reply (request, NULL, "create-event", "Cannot create or register event");
goto OnExitError;
}
}
if (afb_req_subscribe(request, eventData->node_event) != 0) {
afb_req_reply (request, NULL, "subscribe-event", "Cannot subscribe to event");
goto OnExitError;
}
afb_req_reply(request,NULL, NULL,"event subscription successful");
OnExitError:
return;
}
PUBLIC void ucs2_subscriberx (afb_req_t request) {
if (!eventDataRx) {
eventDataRx = malloc(sizeof(EventDataRx_t));
if (eventDataRx) {
eventDataRx->rx_event = afb_api_make_event(afbBindingRoot, "rx-message");
}
if (!eventDataRx || !afb_event_is_valid(eventDataRx->rx_event)) {
afb_req_reply(request, NULL, "create-event", "Cannot create or register event");
goto OnExitError;
}
}
if (afb_req_subscribe(request, eventDataRx->rx_event) != 0) {
afb_req_reply (request, NULL, "subscribe-event", "Cannot subscribe to event");
goto OnExitError;
}
afb_req_reply(request,NULL, NULL,"event subscription successful");
OnExitError:
return;
}
static json_object * ucs2_validate_command (afb_req_t request,
const char* func_name) {
struct json_object *j_obj = NULL;
if (!ucsContextS) { /* check UNICENS is initialized */
afb_req_reply_f(request, NULL, "unicens-init",
"Load a configuration before calling %s.",
func_name);
goto OnErrorExit;
}
j_obj = afb_req_json(request);
if (!j_obj) {
afb_req_reply_f(request, NULL,
"query-notjson","query=%s not a valid json entry",
afb_req_value(request,""));
goto OnErrorExit;
}
AFB_API_DEBUG(afbBindingRoot, "request: %s", json_object_to_json_string(j_obj));
if (json_object_get_type(j_obj)==json_type_array) {
int len = json_object_array_length(j_obj);
if (len == 1) { /* only support 1 command in array */
j_obj = json_object_array_get_idx(j_obj, 0);
}
else {
afb_req_reply_f(request, NULL,
"query-array",
"query of multiple %s commands is not supported",
func_name);
j_obj = NULL;
goto OnErrorExit;
}
}
OnErrorExit:
return j_obj;
}
STATIC void ucs2_writei2c_CB (void *result_ptr, void *request_ptr) {
if (request_ptr){
afb_req_t req = request_ptr;
Ucs_I2c_ResultCode_t *res = (Ucs_I2c_ResultCode_t *)result_ptr;
if (!res) {
afb_req_reply(req, NULL, "processing","busy or lost initialization");
}
else if (*res != UCS_I2C_RES_SUCCESS){
afb_req_reply_f(req, NULL, "error-result", "result code: %d", *res);
}
else {
afb_req_reply(req, NULL, NULL, "success");
}
afb_req_unref(req);
}
else {
AFB_API_NOTICE(afbBindingRoot, "write_i2c: ambiguous response data");
}
}
/* write a single i2c command */
STATIC void ucs2_writei2c_cmd(afb_req_t request, json_object *j_obj) {
static uint8_t i2c_data[I2C_MAX_DATA_SZ];
uint8_t i2c_data_sz = 0;
uint16_t node_addr = 0;
json_object *j_tmp;
json_bool key_found;
if (json_object_object_get_ex(j_obj, "node", &j_tmp)) {
node_addr = (uint16_t)json_object_get_int(j_tmp);
AFB_API_NOTICE(afbBindingRoot, "node_address: 0x%02X", node_addr);
if (node_addr == 0) {
afb_req_reply(request, NULL, "query-params","param node invalid type");
goto OnErrorExit;
}
}
else {
afb_req_reply(request, NULL, "query-params","param node missing");
goto OnErrorExit;
}
key_found = json_object_object_get_ex(j_obj, "data", &j_tmp);
if (key_found && (json_object_get_type(j_tmp)==json_type_array)) {
int size = json_object_array_length(j_tmp);
if ((size > 0) && (size <= I2C_MAX_DATA_SZ)) {
int32_t i;
int32_t val;
struct json_object *j_elem;
for (i = 0; i < size; i++) {
j_elem = json_object_array_get_idx(j_tmp, i);
val = json_object_get_int(j_elem);
if ((val < 0) && (val > 0xFF)){
i = 0;
break;
}
i2c_data[i] = (uint8_t)json_object_get_int(j_elem);
}
i2c_data_sz = (uint8_t)i;
}
}
if (i2c_data_sz == 0) {
AFB_API_NOTICE(afbBindingRoot, "data: invalid or not found");
afb_req_reply(request, NULL, "query-params","params wrong or missing");
goto OnErrorExit;
}
if (UCSI_I2CWrite( &ucsContextS->ucsiData, /* UCSI_Data_t *pPriv*/
node_addr, /* uint16_t targetAddress*/
false, /* bool isBurst*/
0u, /* block count */
0x2Au, /* i2c slave address */
0x03E8u, /* timeout 1000 milliseconds */
i2c_data_sz, /* uint8_t dataLen */
&i2c_data[0], /* uint8_t *pData */
&ucs2_writei2c_CB, /* callback*/
(void*)request /* callback argument */
)) {
/* asynchronous command is running */
afb_req_addref(request);
}
else {
AFB_API_NOTICE(afbBindingRoot, "i2c write: scheduling command failed");
afb_req_reply(request, NULL, "query-command-queue","command queue overload");
goto OnErrorExit;
}
OnErrorExit:
return;
}
/* parse array or single command */
PUBLIC void ucs2_writei2c (afb_req_t request) {
struct json_object *j_obj;
j_obj = ucs2_validate_command(request, "writei2c");
if (j_obj) {
ucs2_writei2c_cmd(request, j_obj);
}
}
PUBLIC void ucs2_sendmessage(afb_req_t req) {
uint8_t *data_ptr = NULL;
size_t data_sz = 0;
int ret, node_addr, msg_id = 0;
struct json_object *j_obj;
j_obj = ucs2_validate_command(req, "sendmessageb64");
if (!j_obj) {
AFB_API_NOTICE(afbBindingRoot, "validation of command failed");
goto OnErrorExit;
}
ret = wrap_json_unpack(j_obj, "{s:i, s:i, s?Y}", "node", &node_addr, "msgid", &msg_id, "data", &data_ptr, &data_sz);
if ((ret==0) &&
UCSI_SendAmsMessage(&ucsContextS->ucsiData, msg_id, node_addr, &data_ptr[0], data_sz)
) {
afb_req_reply(req, NULL, NULL, "sendmessageb64 started successful");
}
else {
AFB_API_ERROR(afbBindingRoot, "sendmessageb64: scheduling command failed. ret: %d", ret);
afb_req_reply(req, NULL, "query-command-queue","ambiguous command or queue overload");
goto OnErrorExit;
}
OnErrorExit:
if (data_ptr) {
free(data_ptr);
}
return;
}
PUBLIC int ucs2_initbinding(afb_api_t api) {
#ifndef DISABLE_AUTOSTART
char *filename = GetDefaultConfig();
if (filename != NULL) {
AFB_API_NOTICE(afbBindingRoot, "AUTO-LOAD configuration: %s", filename);
if (StartConfiguration(filename) == 0) {
AFB_API_NOTICE(afbBindingRoot, "AUTO-LOAD successful");
} else {
AFB_API_NOTICE(afbBindingRoot, "AUTO-LOAD failed");
}
free(filename);
}
#endif
return 0;
}
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