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|
/*
* Copyright (C) 2018 "IoT.bzh"
* Author Jonathan Aillet <jonathan.aillet@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.
*/
#define _GNU_SOURCE
#include <stdio.h>
#include <string.h>
#include <wrap-json.h>
#include <afb/afb-binding.h>
#include "4a-hal-utilities-data.h"
#include "4a-hal-utilities-alsa-data.h"
/*******************************************************************************
* Internal Hal - Linked list cleaning function declaration *
******************************************************************************/
void HalUtlFreeSelectedProbedDeviceAllocation(struct InternalHalProbedDevice *probedDeviceToFree);
void HalUtlFreeSelectedMixerDataAllocation(struct InternalHalMixerData *mixerDataToFree);
void HalUtlFreeSelectedHalAllocation(struct HalData *halDataToFree);
/*******************************************************************************
* Internal Hal - Generic function for linked list *
******************************************************************************/
void *HalUtlAddNodeInList(struct cds_list_head *listHead, enum LinkedListType listType)
{
void *returned = NULL;
struct cds_list_head *nodeToAdd;
if(! listHead)
return NULL;
switch(listType) {
case LINKED_LIST_FOR_DEPENDENCIES_DATA:
returned = calloc(1, sizeof(struct InternalHalProbedDevice));
if(! returned)
return NULL;
nodeToAdd = &((struct InternalHalProbedDevice *) returned)->node;
break;
case LINKED_LIST_FOR_MIXER_DATA:
returned = calloc(1, sizeof(struct InternalHalMixerData));
if(! returned)
return NULL;
nodeToAdd = &((struct InternalHalMixerData *) returned)->node;
break;
case LINKED_LIST_FOR_HAL_DATA:
returned = calloc(1, sizeof(struct HalData));
if(! returned)
return NULL;
nodeToAdd = &((struct HalData *) returned)->node;
break;
default:
return NULL;
}
cds_list_add_tail(nodeToAdd, listHead);
return returned;
}
int HalUtlRemoveNodeFromList(struct cds_list_head *listHead, void *dataToRemove, enum LinkedListType listType)
{
if(! listHead || cds_list_empty(listHead) || ! dataToRemove)
return -1;
switch(listType) {
case LINKED_LIST_FOR_DEPENDENCIES_DATA:
cds_list_del(&((struct InternalHalProbedDevice *) dataToRemove)->node);
HalUtlFreeSelectedProbedDeviceAllocation((struct InternalHalProbedDevice *) dataToRemove);
break;
case LINKED_LIST_FOR_MIXER_DATA:
cds_list_del(&((struct InternalHalMixerData *) dataToRemove)->node);
HalUtlFreeSelectedMixerDataAllocation((struct InternalHalMixerData *) dataToRemove);
break;
case LINKED_LIST_FOR_HAL_DATA:
cds_list_del(&((struct HalData *) dataToRemove)->node);
HalUtlFreeSelectedHalAllocation((struct HalData *) dataToRemove);
break;
default:
return -2;
}
return 0;
}
int HalUtlRemoveAllNodeFromList(struct cds_list_head *listHead, enum LinkedListType listType)
{
int nodesRemoved = 0;
struct cds_list_head *nodeToRemove, *savedNode;
if(! listHead)
return -1;
if(cds_list_empty(listHead))
return 0;
cds_list_for_each_safe(nodeToRemove, savedNode, listHead) {
switch(listType) {
case LINKED_LIST_FOR_DEPENDENCIES_DATA:
if(HalUtlRemoveSelectedProbedDeviceFromList(listHead,
cds_list_entry(nodeToRemove, struct InternalHalProbedDevice, node)))
return -2;
break;
case LINKED_LIST_FOR_MIXER_DATA:
if(HalUtlRemoveSelectedMixerData(listHead,
cds_list_entry(nodeToRemove, struct InternalHalMixerData, node)))
return -3;
break;
case LINKED_LIST_FOR_HAL_DATA:
if(HalUtlRemoveSelectedHalFromList(listHead,
cds_list_entry(nodeToRemove, struct HalData, node)))
return -4;
break;
default:
return -5;
}
nodesRemoved++;
}
return nodesRemoved;
}
int HalUtlGetNumberOfNodesInList(struct cds_list_head *listHead)
{
int numberOfNodes = 0;
struct cds_list_head *listNode;
if(! listHead)
return -1;
if(cds_list_empty(listHead))
return 0;
cds_list_for_each(listNode, listHead)
numberOfNodes++;
return numberOfNodes;
}
/*******************************************************************************
* Internal Hal - Probed devices structure handling functions *
******************************************************************************/
enum ProbedDeviceClasses HalUtlGetProbedDeviceClassFromString(char *probedDeviceString)
{
if(! probedDeviceString)
return INVALID_PROBED_DEVICE;
if(! strcasecmp("static", probedDeviceString))
return STATIC_PROBED_DEVICE;
if(! strcasecmp("dynamic", probedDeviceString))
return DYNAMIC_PROBED_DEVICE;
if(! strcasecmp("mandatory", probedDeviceString))
return MANDATORY_PROBED_DEVICE;
return INVALID_PROBED_DEVICE;
}
char *HalUtlGetProbedDeviceClassString(enum ProbedDeviceClasses deviceClass)
{
switch(deviceClass) {
case STATIC_PROBED_DEVICE:
return "static";
case DYNAMIC_PROBED_DEVICE:
return "dynamic";
case MANDATORY_PROBED_DEVICE:
return "mandatory";
case INVALID_PROBED_DEVICE:
return "invalid";
default:
return "unknown";
}
return NULL;
}
int HalUtlIsDependencySelected(struct InternalHalProbedDevice *probedDevice, enum DependencyStatus requestedStatus)
{
if(! probedDevice) {
return 0;
}
switch(requestedStatus) {
case UNAVAILABLE_DEPENDENCY:
if(! probedDevice->deviceData)
return 1;
else
return 0;
case AVAILABLE_DEPENDENCY:
if(probedDevice->deviceData)
return 1;
else
return 0;
case ALL_DEPENDENCY:
return 1;
default:
return 0;
}
}
void HalUtlFreeSelectedProbedDeviceDataAllocation(struct InternalHalDeviceData *probedDeviceDataToFree)
{
if(! probedDeviceDataToFree)
return;
free(probedDeviceDataToFree->extendedCardNb);
free(probedDeviceDataToFree->cardId);
free(probedDeviceDataToFree->cardShortName);
free(probedDeviceDataToFree->cardLongName);
free(probedDeviceDataToFree->cardDriver);
free(probedDeviceDataToFree->cardMixerName);
free(probedDeviceDataToFree->cardComponents);
free(probedDeviceDataToFree->playbackDeviceId);
free(probedDeviceDataToFree->playbackDeviceName);
free(probedDeviceDataToFree);
}
void HalUtlFreeSelectedProbedDeviceAllocation(struct InternalHalProbedDevice *probedDeviceToFree)
{
if(! probedDeviceToFree)
return;
free(probedDeviceToFree->uid);
HalUtlFreeSelectedProbedDeviceDataAllocation(probedDeviceToFree->deviceData);
if(probedDeviceToFree->requestedDeviceJ)
json_object_put(probedDeviceToFree->requestedDeviceJ);
free(probedDeviceToFree);
}
struct InternalHalProbedDevice *HalUtlAddProbedDeviceToProbedDeviceList(struct cds_list_head *probedDevicesListHead)
{
return (struct InternalHalProbedDevice *) HalUtlAddNodeInList(probedDevicesListHead, LINKED_LIST_FOR_DEPENDENCIES_DATA);
}
int HalUtlRemoveSelectedProbedDeviceFromList(struct cds_list_head *probedDevicesListHead,
struct InternalHalProbedDevice *probedDeviceToRemove)
{
return HalUtlRemoveNodeFromList(probedDevicesListHead, (void *) probedDeviceToRemove, LINKED_LIST_FOR_DEPENDENCIES_DATA);
}
int HalUtlRemoveAllProbedDevicesFromList(struct cds_list_head *probedDevicesListHead)
{
return HalUtlRemoveAllNodeFromList(probedDevicesListHead, LINKED_LIST_FOR_DEPENDENCIES_DATA);
}
int HalUtlGetNumberOfProbedDevicesInList(struct cds_list_head *probedDevicesListHead)
{
return HalUtlGetNumberOfNodesInList(probedDevicesListHead);
}
struct InternalHalProbedDevice *HalUtlSearchProbedDeviceDataById(struct cds_list_head *probedDevicesListHead,
char *uid)
{
struct InternalHalProbedDevice *currentProbedDevice;
if(! probedDevicesListHead || cds_list_empty(probedDevicesListHead) || ! uid)
return NULL;
cds_list_for_each_entry(currentProbedDevice, probedDevicesListHead, node) {
if(! strcmp(uid, currentProbedDevice->uid))
return currentProbedDevice;
}
return NULL;
}
int HalUtlGetProbedDeviceCardNbUsingUid(struct cds_list_head *probedDevicesListHead, char *uid)
{
struct InternalHalProbedDevice *currentProbedDeviceData;
currentProbedDeviceData = HalUtlSearchProbedDeviceDataById(probedDevicesListHead, uid);
if(! currentProbedDeviceData ||
! currentProbedDeviceData->deviceData)
return HAL_UNKNOWN_DEVICE;
return currentProbedDeviceData->deviceData->cardNb;
}
struct InternalHalDeviceData *HalUtlAllocateAndFillProbedDeviceDataUsingInfoGetResponse(json_object *responseJ)
{
struct InternalHalDeviceData *currentProbedDeviceData;
char *cardId,
*cardShortName,
*cardLongName,
*cardDriver,
*cardMixerName,
*cardComponents,
*playbackDeviceId = NULL,
*playbackDeviceName = NULL;
if(! responseJ)
return NULL;
currentProbedDeviceData = calloc(1, sizeof(struct InternalHalDeviceData));
if(! currentProbedDeviceData)
return NULL;
currentProbedDeviceData->cardNb = HAL_UNKNOWN_DEVICE;
currentProbedDeviceData->playbackDeviceNb = HAL_UNKNOWN_DEVICE;
if(wrap_json_unpack(responseJ, "{s:i, s:s, s:s, s:s, s:s, s:s, s:s, s?:i, s?:s, s?:s !}",
"cardNb", ¤tProbedDeviceData->cardNb,
"cardId", &cardId,
"cardShortName", &cardShortName,
"cardLongName", &cardLongName,
"cardDriver", &cardDriver,
"cardMixerName", &cardMixerName,
"cardComponents", &cardComponents,
"playbackDeviceNb", ¤tProbedDeviceData->playbackDeviceNb,
"playbackDeviceId", &playbackDeviceId,
"playbackDeviceName", &playbackDeviceName) ||
currentProbedDeviceData->cardNb == HAL_UNKNOWN_DEVICE ||
(currentProbedDeviceData->playbackDeviceNb == HAL_UNKNOWN_DEVICE &&
asprintf(¤tProbedDeviceData->extendedCardNb, "hw:%i", currentProbedDeviceData->cardNb) < 0) ||
(currentProbedDeviceData->playbackDeviceNb != HAL_UNKNOWN_DEVICE &&
asprintf(¤tProbedDeviceData->extendedCardNb, "hw:%i,%i",
currentProbedDeviceData->cardNb,
currentProbedDeviceData->playbackDeviceNb) < 0)) {
HalUtlFreeSelectedProbedDeviceDataAllocation(currentProbedDeviceData);
return NULL;
}
currentProbedDeviceData->cardId = strdup(cardId);
if(! currentProbedDeviceData->cardId) {
HalUtlFreeSelectedProbedDeviceDataAllocation(currentProbedDeviceData);
return NULL;
}
currentProbedDeviceData->cardShortName = strdup(cardShortName);
if(! currentProbedDeviceData->cardShortName) {
HalUtlFreeSelectedProbedDeviceDataAllocation(currentProbedDeviceData);
return NULL;
}
currentProbedDeviceData->cardLongName = strdup(cardLongName);
if(! currentProbedDeviceData->cardLongName) {
HalUtlFreeSelectedProbedDeviceDataAllocation(currentProbedDeviceData);
return NULL;
}
currentProbedDeviceData->cardDriver = strdup(cardDriver);
if(! currentProbedDeviceData->cardDriver) {
HalUtlFreeSelectedProbedDeviceDataAllocation(currentProbedDeviceData);
return NULL;
}
currentProbedDeviceData->cardMixerName = strdup(cardMixerName);
if(! currentProbedDeviceData->cardMixerName) {
HalUtlFreeSelectedProbedDeviceDataAllocation(currentProbedDeviceData);
return NULL;
}
currentProbedDeviceData->cardComponents = strdup(cardComponents);
if(! currentProbedDeviceData->cardComponents) {
HalUtlFreeSelectedProbedDeviceDataAllocation(currentProbedDeviceData);
return NULL;
}
if(playbackDeviceId) {
currentProbedDeviceData->playbackDeviceId = strdup(playbackDeviceId);
if(! currentProbedDeviceData->playbackDeviceId) {
HalUtlFreeSelectedProbedDeviceDataAllocation(currentProbedDeviceData);
return NULL;
}
}
if(playbackDeviceName) {
currentProbedDeviceData->playbackDeviceName = strdup(playbackDeviceName);
if(! currentProbedDeviceData->playbackDeviceName) {
HalUtlFreeSelectedProbedDeviceDataAllocation(currentProbedDeviceData);
return NULL;
}
}
return currentProbedDeviceData;
}
json_object *HalUtlGetCompactJsonForSpecificDependencies(afb_api_t apiHandle,
struct InternalHalProbedDevice *requestedProbedDevice)
{
int wrapRet;
char *cardNb;
json_object *requestedProbedDeviceJ;
if(! apiHandle) {
AFB_API_ERROR(apiHandle, "Api handle is not valid");
return NULL;
}
if(! requestedProbedDevice) {
AFB_API_ERROR(apiHandle, "Requested dependency is not valid");
return NULL;
}
if(! requestedProbedDevice->deviceData ||
requestedProbedDevice->deviceData->cardNb == HAL_UNKNOWN_DEVICE)
cardNb = NULL;
else
cardNb = requestedProbedDevice->deviceData->extendedCardNb;
wrapRet = wrap_json_pack(&requestedProbedDeviceJ,
"{s:s s:s}",
"uid", requestedProbedDevice->uid,
"cardNb", cardNb ? cardNb : "none");
if(wrapRet) {
AFB_API_ERROR(apiHandle,
"Didn't succeed to allocate (uid: '%s') dependency compact json object",
requestedProbedDevice->uid);
return NULL;
}
return requestedProbedDeviceJ;
}
json_object *HalUtlGetFullJsonForSpecificDependencies(afb_api_t apiHandle,
struct InternalHalProbedDevice *requestedProbedDevice)
{
int wrapRet;
json_object *requestedProbedDeviceJ, *additionalInfoJ;
if(! apiHandle) {
AFB_API_ERROR(apiHandle, "Api handle is not valid");
return NULL;
}
if(! requestedProbedDevice) {
AFB_API_ERROR(apiHandle, "Requested dependency is not valid");
return NULL;
}
wrapRet = wrap_json_pack(&requestedProbedDeviceJ,
"{s:s s:s s:b}",
"uid", requestedProbedDevice->uid,
"class", HalUtlGetProbedDeviceClassString(requestedProbedDevice->deviceClass),
"available", requestedProbedDevice->deviceData ? 1 : 0);
if(wrapRet) {
AFB_API_ERROR(apiHandle,
"Didn't succeed to allocate first part of requested (uid: '%s') dependency full json object",
requestedProbedDevice->uid);
return NULL;
}
if(! requestedProbedDevice->deviceData ||
requestedProbedDevice->deviceData->cardNb == HAL_UNKNOWN_DEVICE)
return requestedProbedDeviceJ;
wrapRet = wrap_json_pack(&additionalInfoJ,
"{s:i s:s s:s s:s s:s s:s s:s s:s}",
"cardNb", requestedProbedDevice->deviceData->cardNb,
"cardId", requestedProbedDevice->deviceData->cardId,
"cardShortName", requestedProbedDevice->deviceData->cardShortName,
"cardLongName", requestedProbedDevice->deviceData->cardLongName,
"cardDriver", requestedProbedDevice->deviceData->cardDriver,
"cardMixerName", requestedProbedDevice->deviceData->cardMixerName,
"cardComponents", requestedProbedDevice->deviceData->cardComponents,
"extendedCardNb", requestedProbedDevice->deviceData->extendedCardNb);
if(wrapRet) {
AFB_API_ERROR(apiHandle,
"Didn't succeed to allocate second part of requested (uid: '%s') dependency full json object",
requestedProbedDevice->uid);
json_object_put(requestedProbedDeviceJ);
return NULL;
}
wrap_json_object_add(requestedProbedDeviceJ, additionalInfoJ);
if(requestedProbedDevice->deviceData->playbackDeviceNb == HAL_UNKNOWN_DEVICE)
return requestedProbedDeviceJ;
wrapRet = wrap_json_pack(&additionalInfoJ,
"{s:i s:s s:s}",
"playbackDeviceNb", requestedProbedDevice->deviceData->playbackDeviceNb,
"playbackDeviceId", requestedProbedDevice->deviceData->playbackDeviceId,
"playbackDeviceName", requestedProbedDevice->deviceData->playbackDeviceName);
if(wrapRet) {
AFB_API_ERROR(apiHandle,
"Didn't succeed to allocate third part of requested (uid: '%s') dependency full json object",
requestedProbedDevice->uid);
json_object_put(requestedProbedDeviceJ);
return NULL;
}
wrap_json_object_add(requestedProbedDeviceJ, additionalInfoJ);
return requestedProbedDeviceJ;
}
json_object *HalUtlGetJsonForSpecificDependencies(afb_api_t apiHandle,
struct InternalHalProbedDevice *requestedProbedDevice,
enum DependencyInfoJsonFormat jsonFormat)
{
json_object *requestedProbedDeviceJ;
if(! apiHandle) {
AFB_API_ERROR(apiHandle, "Api handle is not valid");
return NULL;
}
if(! requestedProbedDevice) {
AFB_API_ERROR(apiHandle, "Requested dependency is not valid");
return NULL;
}
switch(jsonFormat) {
case DEPENDENCY_COMPACT_JSON:
requestedProbedDeviceJ = HalUtlGetCompactJsonForSpecificDependencies(apiHandle,requestedProbedDevice);
if(! requestedProbedDeviceJ) {
AFB_API_ERROR(apiHandle,
"An error happened when generating compact json for selected dependency (uid: '%s')",
requestedProbedDevice->uid);
return NULL;
}
return requestedProbedDeviceJ;
case DEPENDENCY_FULL_JSON:
requestedProbedDeviceJ = HalUtlGetFullJsonForSpecificDependencies(apiHandle,requestedProbedDevice);
if(! requestedProbedDeviceJ) {
AFB_API_ERROR(apiHandle,
"An error happened when generating full json for selected dependency (uid: '%s')",
requestedProbedDevice->uid);
return NULL;
}
return requestedProbedDeviceJ;
default:
AFB_API_ERROR(apiHandle, "Unrecognized requested json format");
return NULL;
}
}
json_object *HalUtlGetJsonForSpecificDependenciesUsingUid(afb_api_t apiHandle,
struct cds_list_head *probedDevicesListHead,
char *uid,
enum DependencyInfoJsonFormat jsonFormat)
{
json_object *requestedProbedDeviceJ;
struct InternalHalProbedDevice *requestedProbedDevice;
if(! apiHandle) {
AFB_API_ERROR(apiHandle, "Api handle is not valid");
return NULL;
}
if(! probedDevicesListHead || cds_list_empty(probedDevicesListHead)) {
AFB_API_ERROR(apiHandle, "Probed device list is empty");
return NULL;
}
if(! uid) {
AFB_API_ERROR(apiHandle, "Requested dependency uid is not valid");
return NULL;
}
requestedProbedDevice = HalUtlSearchProbedDeviceDataById(probedDevicesListHead, uid);
if(! requestedProbedDevice) {
AFB_API_ERROR(apiHandle,
"Requested dependency uid ('%s) was not found in probed device list",
uid);
return NULL;
}
requestedProbedDeviceJ = HalUtlGetJsonForSpecificDependencies(apiHandle, requestedProbedDevice, jsonFormat);
if(! requestedProbedDeviceJ) {
AFB_API_ERROR(apiHandle,
"An error happened when generating json for selected dependency (uid: '%s')",
requestedProbedDevice->uid);
return NULL;
}
return requestedProbedDeviceJ;
}
json_object *HalUtlGetJsonArrayForSelectedDependencies(afb_api_t apiHandle,
struct cds_list_head *probedDevicesListHead,
enum DependencyInfoJsonFormat jsonFormat,
enum DependencyStatus requestedStatus)
{
json_object *requestedProbedDeviceJ, *requestedDependenciesInfoJ;
struct InternalHalProbedDevice *currentProbedDevice;
if(! apiHandle) {
AFB_API_ERROR(apiHandle, "Api handle is not valid");
return NULL;
}
if(! probedDevicesListHead || cds_list_empty(probedDevicesListHead)) {
AFB_API_ERROR(apiHandle, "Probed device list is empty");
return NULL;
}
requestedDependenciesInfoJ = json_object_new_array();
if(! requestedDependenciesInfoJ) {
AFB_API_ERROR(apiHandle, "Didn't succeed to allocate probed devices (dependencies) json array");
return NULL;
}
cds_list_for_each_entry(currentProbedDevice, probedDevicesListHead, node) {
requestedProbedDeviceJ = NULL;
if(HalUtlIsDependencySelected(currentProbedDevice, requestedStatus)) {
requestedProbedDeviceJ = HalUtlGetJsonForSpecificDependencies(apiHandle,
currentProbedDevice,
jsonFormat);
if(! requestedProbedDeviceJ) {
AFB_API_ERROR(apiHandle,
"Didn't succeed to get json for probed devices (dependencies) with uid : '%s'",
currentProbedDevice->uid);
json_object_put(requestedDependenciesInfoJ);
return NULL;
}
}
if(requestedProbedDeviceJ)
json_object_array_add(requestedDependenciesInfoJ, requestedProbedDeviceJ);
}
return requestedDependenciesInfoJ;
}
json_object *HalUtlGetJsonArrayForAvailableDependencies(afb_api_t apiHandle,
struct cds_list_head *probedDevicesListHead,
enum DependencyInfoJsonFormat jsonFormat)
{
json_object *requestedDependenciesInfoJ;
if(! apiHandle) {
AFB_API_ERROR(apiHandle, "Api handle is not valid");
return NULL;
}
if(! probedDevicesListHead || cds_list_empty(probedDevicesListHead)) {
AFB_API_ERROR(apiHandle, "Probed device list is empty");
return NULL;
}
requestedDependenciesInfoJ = HalUtlGetJsonArrayForSelectedDependencies(apiHandle,
probedDevicesListHead,
jsonFormat,
AVAILABLE_DEPENDENCY);
if(! requestedDependenciesInfoJ) {
AFB_API_ERROR(apiHandle, "Didn't succeed get available devices (dependencies) info");
return NULL;
}
return requestedDependenciesInfoJ;
}
json_object *HalUtlGetJsonArrayForAllDependencies(afb_api_t apiHandle,
struct cds_list_head *probedDevicesListHead,
enum DependencyInfoJsonFormat jsonFormat)
{
json_object *requestedDependenciesInfoJ;
if(! apiHandle) {
AFB_API_ERROR(apiHandle, "Api handle is not valid");
return NULL;
}
if(! probedDevicesListHead || cds_list_empty(probedDevicesListHead)) {
AFB_API_ERROR(apiHandle, "Probed device list is empty");
return NULL;
}
requestedDependenciesInfoJ = HalUtlGetJsonArrayForSelectedDependencies(apiHandle,
probedDevicesListHead,
jsonFormat,
ALL_DEPENDENCY);
if(! requestedDependenciesInfoJ) {
AFB_API_ERROR(apiHandle, "Didn't succeed get available devices (dependencies) info");
return NULL;
}
return requestedDependenciesInfoJ;
}
/*******************************************************************************
* Internal Hal - Streams data handling functions *
******************************************************************************/
void HalUtlFreeSelectedMixerDataAllocation(struct InternalHalMixerData *mixerDataToFree)
{
if(! mixerDataToFree)
return;
free(mixerDataToFree->verb);
free(mixerDataToFree->verbToCall);
free(mixerDataToFree->streamCardId);
free(mixerDataToFree);
}
struct InternalHalMixerData *HalUtlAddMixerDataToMixerDataList(struct cds_list_head *mixerDataListHead)
{
return (struct InternalHalMixerData *) HalUtlAddNodeInList(mixerDataListHead, LINKED_LIST_FOR_MIXER_DATA);
}
int HalUtlRemoveSelectedMixerData(struct cds_list_head *mixerDataListHead,
struct InternalHalMixerData *mixerDataToRemove)
{
return HalUtlRemoveNodeFromList(mixerDataListHead, (void *) mixerDataToRemove, LINKED_LIST_FOR_MIXER_DATA);
}
int HalUtlRemoveAllMixerData(struct cds_list_head *mixerDataListHead)
{
return HalUtlRemoveAllNodeFromList(mixerDataListHead, LINKED_LIST_FOR_MIXER_DATA);
}
int HalUtlGetNumberOfMixerDataInList(struct cds_list_head *mixerDataListHead)
{
return HalUtlGetNumberOfNodesInList(mixerDataListHead);
}
struct InternalHalMixerData *HalUtlSearchMixerDataByProperties(struct cds_list_head *mixerDataListHead,
char *verb,
char *verbToCall,
char *streamCardId)
{
struct InternalHalMixerData *currentMixerData;
if(! mixerDataListHead || cds_list_empty(mixerDataListHead) || ! verb || ! verbToCall)
return NULL;
cds_list_for_each_entry(currentMixerData, mixerDataListHead, node) {
if(! strcmp(verb, currentMixerData->verb) &&
! strcmp(verbToCall, currentMixerData->verbToCall) &&
((! streamCardId && ! currentMixerData->streamCardId) ||
(streamCardId && currentMixerData->streamCardId && ! strcmp(streamCardId, currentMixerData->streamCardId))))
return currentMixerData;
}
return NULL;
}
json_object *HalUtlGetJsonArrayForSpecificMixerData(afb_api_t apiHandle, struct InternalHalMixerData *mixerData)
{
int wrapRet;
json_object *currentMixerDataJ;
if(! apiHandle) {
AFB_API_ERROR(apiHandle, "Api handle is not valid");
return NULL;
}
if(! mixerData) {
AFB_API_ERROR(apiHandle, "Mixer data to use to generate json object are empty");
return NULL;
}
wrapRet = wrap_json_pack(¤tMixerDataJ,
"{s:s s:s}",
"name", mixerData->verb,
"cardId", mixerData->streamCardId);
if(wrapRet) {
AFB_API_ERROR(apiHandle, "Didn't succeed to allocate current mixer json object");
return NULL;
}
return currentMixerDataJ;
}
json_object *HalUtlGetJsonArrayForAllMixersData(afb_api_t apiHandle, struct cds_list_head *mixerDataListHead)
{
json_object *mixerDataArrayJ, *currentMixerDataJ;
struct InternalHalMixerData *currentMixerData;
if(! apiHandle) {
AFB_API_ERROR(apiHandle, "Api handle is not valid");
return NULL;
}
mixerDataArrayJ = json_object_new_array();
if(! mixerDataArrayJ) {
AFB_API_ERROR(apiHandle, "Didn't succeed to allocate requested mixer data json array");
return NULL;
}
cds_list_for_each_entry(currentMixerData, mixerDataListHead, node) {
currentMixerDataJ = HalUtlGetJsonArrayForSpecificMixerData(apiHandle, currentMixerData);
if(! currentMixerDataJ) {
AFB_API_ERROR(apiHandle, "Didn't succeed to generate current mixer data json object");
json_object_put(mixerDataArrayJ);
return NULL;
}
json_object_array_add(mixerDataArrayJ, currentMixerDataJ);
}
return mixerDataArrayJ;
}
/*******************************************************************************
* Hal data handling functions *
******************************************************************************/
void HalUtlFreeSelectedHalAllocation(struct HalData *halDataToFree)
{
if(! halDataToFree)
return;
if(halDataToFree->internal) {
free(halDataToFree->internalHalData->mixerApiName);
free(halDataToFree->internalHalData->prefix);
HalUtlRemoveAllProbedDevicesFromList(&halDataToFree->internalHalData->probedDevicesListHead);
HalUtlRemoveAllMixerData(&halDataToFree->internalHalData->streamsDataListHead);
HalUtlFreeAlsaCtlsMap(halDataToFree->internalHalData->alsaMapT);
free(halDataToFree->internalHalData);
}
free(halDataToFree);
}
struct HalData *HalUtlAddHalToHalList(struct cds_list_head *halDataListHead)
{
return (struct HalData *) HalUtlAddNodeInList(halDataListHead, LINKED_LIST_FOR_HAL_DATA);
}
int HalUtlRemoveSelectedHalFromList(struct cds_list_head *halDataListHead, struct HalData *halToRemove)
{
return HalUtlRemoveNodeFromList(halDataListHead, (void *) halToRemove, LINKED_LIST_FOR_HAL_DATA);
}
int HalUtlRemoveAllHalFromList(struct cds_list_head *halDataListHead)
{
return HalUtlRemoveAllNodeFromList(halDataListHead, LINKED_LIST_FOR_HAL_DATA);
}
int HalUtlGetNumberOfHalInList(struct cds_list_head *halDataListHead)
{
return HalUtlGetNumberOfNodesInList(halDataListHead);
}
struct HalData *HalUtlSearchHalDataByApiName(struct cds_list_head *halDataListHead, char *apiName)
{
struct HalData *currentHalData;
if(! halDataListHead || cds_list_empty(halDataListHead) || ! apiName)
return NULL;
cds_list_for_each_entry(currentHalData, halDataListHead, node) {
if(! strcmp(apiName, currentHalData->apiName))
return currentHalData;
}
return NULL;
}
/*******************************************************************************
* Hal Manager data handling functions *
******************************************************************************/
int HalUtlInitializeHalMgrData(afb_api_t apiHandle, struct HalMgrData *halMgrData, char *apiName, char *info)
{
if(! apiHandle || ! halMgrData || ! apiName || ! info)
return -1;
// Allocate and fill apiName and info strings
halMgrData->apiName = strdup(apiName);
if(! halMgrData->apiName)
return -2;
halMgrData->info = strdup(info);
if(! halMgrData->info)
return -3;
halMgrData->apiHandle = apiHandle;
return 0;
}
void HalUtlRemoveHalMgrData(struct HalMgrData *halMgrData)
{
if(! halMgrData)
return;
HalUtlRemoveAllHalFromList(&halMgrData->halDataListHead);
free(halMgrData->apiName);
free(halMgrData->info);
free(halMgrData);
}
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