/* * Copyright (C) 2010 The Android Open Source Project * * 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 LOG_TAG "EffectsFactory" //#define LOG_NDEBUG 0 #include "EffectsFactory.h" #include #include #include #include #include #include static list_elem_t *gEffectList; // list of effect_entry_t: all currently created effects static list_elem_t *gLibraryList; // list of lib_entry_t: all currently loaded libraries // list of effect_descriptor and list of sub effects : all currently loaded // It does not contain effects without sub effects. static list_sub_elem_t *gSubEffectList; static pthread_mutex_t gLibLock = PTHREAD_MUTEX_INITIALIZER; // controls access to gLibraryList static uint32_t gNumEffects; // total number number of effects static list_elem_t *gCurLib; // current library in enumeration process static list_elem_t *gCurEffect; // current effect in enumeration process static uint32_t gCurEffectIdx; // current effect index in enumeration process static lib_entry_t *gCachedLibrary; // last library accessed by getLibrary() static int gInitDone; // true is global initialization has been preformed static int gCanQueryEffect; // indicates that call to EffectQueryEffect() is valid, i.e. that the list of effects // was not modified since last call to EffectQueryNumberEffects() ///////////////////////////////////////////////// // Local functions prototypes ///////////////////////////////////////////////// static int init(); static int loadEffectConfigFile(const char *path); static int loadLibraries(cnode *root); static int loadLibrary(cnode *root, const char *name); static int loadEffects(cnode *root); static int loadEffect(cnode *node); // To get and add the effect pointed by the passed node to the gSubEffectList static int addSubEffect(cnode *root); static lib_entry_t *getLibrary(const char *path); static void resetEffectEnumeration(); static uint32_t updateNumEffects(); static int findEffect(const effect_uuid_t *type, const effect_uuid_t *uuid, lib_entry_t **lib, effect_descriptor_t **desc); // To search a subeffect in the gSubEffectList int findSubEffect(const effect_uuid_t *uuid, lib_entry_t **lib, effect_descriptor_t **desc); static void dumpEffectDescriptor(effect_descriptor_t *desc, char *str, size_t len); static int stringToUuid(const char *str, effect_uuid_t *uuid); static int uuidToString(const effect_uuid_t *uuid, char *str, size_t maxLen); ///////////////////////////////////////////////// // Effect Control Interface functions ///////////////////////////////////////////////// int Effect_Process(effect_handle_t self, audio_buffer_t *inBuffer, audio_buffer_t *outBuffer) { int ret = init(); if (ret < 0) { return ret; } effect_entry_t *fx = (effect_entry_t *)self; pthread_mutex_lock(&gLibLock); if (fx->lib == NULL) { pthread_mutex_unlock(&gLibLock); return -EPIPE; } pthread_mutex_lock(&fx->lib->lock); pthread_mutex_unlock(&gLibLock); ret = (*fx->subItfe)->process(fx->subItfe, inBuffer, outBuffer); pthread_mutex_unlock(&fx->lib->lock); return ret; } int Effect_Command(effect_handle_t self, uint32_t cmdCode, uint32_t cmdSize, void *pCmdData, uint32_t *replySize, void *pReplyData) { int ret = init(); if (ret < 0) { return ret; } effect_entry_t *fx = (effect_entry_t *)self; pthread_mutex_lock(&gLibLock); if (fx->lib == NULL) { pthread_mutex_unlock(&gLibLock); return -EPIPE; } pthread_mutex_lock(&fx->lib->lock); pthread_mutex_unlock(&gLibLock); ret = (*fx->subItfe)->command(fx->subItfe, cmdCode, cmdSize, pCmdData, replySize, pReplyData); pthread_mutex_unlock(&fx->lib->lock); return ret; } int Effect_GetDescriptor(effect_handle_t self, effect_descriptor_t *desc) { int ret = init(); if (ret < 0) { return ret; } effect_entry_t *fx = (effect_entry_t *)self; pthread_mutex_lock(&gLibLock); if (fx->lib == NULL) { pthread_mutex_unlock(&gLibLock); return -EPIPE; } pthread_mutex_lock(&fx->lib->lock); pthread_mutex_unlock(&gLibLock); ret = (*fx->subItfe)->get_descriptor(fx->subItfe, desc); pthread_mutex_unlock(&fx->lib->lock); return ret; } int Effect_ProcessReverse(effect_handle_t self, audio_buffer_t *inBuffer, audio_buffer_t *outBuffer) { int ret = init(); if (ret < 0) { return ret; } effect_entry_t *fx = (effect_entry_t *)self; pthread_mutex_lock(&gLibLock); if (fx->lib == NULL) { pthread_mutex_unlock(&gLibLock); return -EPIPE; } pthread_mutex_lock(&fx->lib->lock); pthread_mutex_unlock(&gLibLock); if ((*fx->subItfe)->process_reverse != NULL) { ret = (*fx->subItfe)->process_reverse(fx->subItfe, inBuffer, outBuffer); } else { ret = -ENOSYS; } pthread_mutex_unlock(&fx->lib->lock); return ret; } const struct effect_interface_s gInterface = { Effect_Process, Effect_Command, Effect_GetDescriptor, NULL }; const struct effect_interface_s gInterfaceWithReverse = { Effect_Process, Effect_Command, Effect_GetDescriptor, Effect_ProcessReverse }; ///////////////////////////////////////////////// // Effect Factory Interface functions ///////////////////////////////////////////////// int EffectQueryNumberEffects(uint32_t *pNumEffects) { int ret = init(); if (ret < 0) { return ret; } if (pNumEffects == NULL) { return -EINVAL; } pthread_mutex_lock(&gLibLock); *pNumEffects = gNumEffects; gCanQueryEffect = 1; pthread_mutex_unlock(&gLibLock); ALOGV("EffectQueryNumberEffects(): %d", *pNumEffects); return ret; } int EffectQueryEffect(uint32_t index, effect_descriptor_t *pDescriptor) { int ret = init(); if (ret < 0) { return ret; } if (pDescriptor == NULL || index >= gNumEffects) { return -EINVAL; } if (gCanQueryEffect == 0) { return -ENOSYS; } pthread_mutex_lock(&gLibLock); ret = -ENOENT; if (index < gCurEffectIdx) { resetEffectEnumeration(); } while (gCurLib) { if (gCurEffect) { if (index == gCurEffectIdx) { *pDescriptor = *(effect_descriptor_t *)gCurEffect->object; ret = 0; break; } else { gCurEffect = gCurEffect->next; gCurEffectIdx++; } } else { gCurLib = gCurLib->next; gCurEffect = ((lib_entry_t *)gCurLib->object)->effects; } } #if (LOG_NDEBUG == 0) char str[256]; dumpEffectDescriptor(pDescriptor, str, 256); ALOGV("EffectQueryEffect() desc:%s", str); #endif pthread_mutex_unlock(&gLibLock); return ret; } int EffectGetDescriptor(const effect_uuid_t *uuid, effect_descriptor_t *pDescriptor) { lib_entry_t *l = NULL; effect_descriptor_t *d = NULL; int ret = init(); if (ret < 0) { return ret; } if (pDescriptor == NULL || uuid == NULL) { return -EINVAL; } pthread_mutex_lock(&gLibLock); ret = findEffect(NULL, uuid, &l, &d); if (ret == 0) { *pDescriptor = *d; } pthread_mutex_unlock(&gLibLock); return ret; } int EffectCreate(const effect_uuid_t *uuid, int32_t sessionId, int32_t ioId, effect_handle_t *pHandle) { list_elem_t *e = gLibraryList; lib_entry_t *l = NULL; effect_descriptor_t *d = NULL; effect_handle_t itfe; effect_entry_t *fx; int found = 0; int ret; if (uuid == NULL || pHandle == NULL) { return -EINVAL; } ALOGV("EffectCreate() UUID: %08X-%04X-%04X-%04X-%02X%02X%02X%02X%02X%02X\n", uuid->timeLow, uuid->timeMid, uuid->timeHiAndVersion, uuid->clockSeq, uuid->node[0], uuid->node[1],uuid->node[2], uuid->node[3],uuid->node[4],uuid->node[5]); ret = init(); if (ret < 0) { ALOGW("EffectCreate() init error: %d", ret); return ret; } pthread_mutex_lock(&gLibLock); ret = findEffect(NULL, uuid, &l, &d); if (ret < 0){ // Sub effects are not associated with the library->effects, // so, findEffect will fail. Search for the effect in gSubEffectList. ret = findSubEffect(uuid, &l, &d); if (ret < 0 ) { goto exit; } } // create effect in library ret = l->desc->create_effect(uuid, sessionId, ioId, &itfe); if (ret != 0) { ALOGW("EffectCreate() library %s: could not create fx %s, error %d", l->name, d->name, ret); goto exit; } // add entry to effect list fx = (effect_entry_t *)malloc(sizeof(effect_entry_t)); fx->subItfe = itfe; if ((*itfe)->process_reverse != NULL) { fx->itfe = (struct effect_interface_s *)&gInterfaceWithReverse; ALOGV("EffectCreate() gInterfaceWithReverse"); } else { fx->itfe = (struct effect_interface_s *)&gInterface; ALOGV("EffectCreate() gInterface"); } fx->lib = l; e = (list_elem_t *)malloc(sizeof(list_elem_t)); e->object = fx; e->next = gEffectList; gEffectList = e; *pHandle = (effect_handle_t)fx; ALOGV("EffectCreate() created entry %p with sub itfe %p in library %s", *pHandle, itfe, l->name); exit: pthread_mutex_unlock(&gLibLock); return ret; } int EffectRelease(effect_handle_t handle) { effect_entry_t *fx; list_elem_t *e1; list_elem_t *e2; int ret = init(); if (ret < 0) { return ret; } // remove effect from effect list pthread_mutex_lock(&gLibLock); e1 = gEffectList; e2 = NULL; while (e1) { if (e1->object == handle) { if (e2) { e2->next = e1->next; } else { gEffectList = e1->next; } fx = (effect_entry_t *)e1->object; free(e1); break; } e2 = e1; e1 = e1->next; } if (e1 == NULL) { ret = -ENOENT; goto exit; } // release effect in library if (fx->lib == NULL) { ALOGW("EffectRelease() fx %p library already unloaded", handle); } else { pthread_mutex_lock(&fx->lib->lock); fx->lib->desc->release_effect(fx->subItfe); pthread_mutex_unlock(&fx->lib->lock); } free(fx); exit: pthread_mutex_unlock(&gLibLock); return ret; } int EffectIsNullUuid(const effect_uuid_t *uuid) { if (memcmp(uuid, EFFECT_UUID_NULL, sizeof(effect_uuid_t))) { return 0; } return 1; } // Function to get the sub effect descriptors of the effect whose uuid // is pointed by the first argument. It searches the gSubEffectList for the // matching uuid and then copies the corresponding sub effect descriptors // to the inout param int EffectGetSubEffects(const effect_uuid_t *uuid, sub_effect_entry_t **pSube, size_t size) { ALOGV("EffectGetSubEffects() UUID: %08X-%04X-%04X-%04X-%02X%02X%02X%02X%02X" "%02X\n",uuid->timeLow, uuid->timeMid, uuid->timeHiAndVersion, uuid->clockSeq, uuid->node[0], uuid->node[1],uuid->node[2], uuid->node[3],uuid->node[4],uuid->node[5]); // Check if the size of the desc buffer is large enough for 2 subeffects if ((uuid == NULL) || (pSube == NULL) || (size < 2)) { ALOGW("NULL pointer or insufficient memory. Cannot query subeffects"); return -EINVAL; } int ret = init(); if (ret < 0) return ret; list_sub_elem_t *e = gSubEffectList; sub_effect_entry_t *subeffect; effect_descriptor_t *d; int count = 0; while (e != NULL) { d = (effect_descriptor_t*)e->object; if (memcmp(uuid, &d->uuid, sizeof(effect_uuid_t)) == 0) { ALOGV("EffectGetSubEffects: effect found in the list"); list_elem_t *subefx = e->sub_elem; while (subefx != NULL) { subeffect = (sub_effect_entry_t*)subefx->object; pSube[count++] = subeffect; subefx = subefx->next; } ALOGV("EffectGetSubEffects end - copied the sub effect structures"); return count; } e = e->next; } return -ENOENT; } ///////////////////////////////////////////////// // Local functions ///////////////////////////////////////////////// int init() { int hdl; if (gInitDone) { return 0; } pthread_mutex_init(&gLibLock, NULL); if (access(AUDIO_EFFECT_VENDOR_CONFIG_FILE, R_OK) == 0) { loadEffectConfigFile(AUDIO_EFFECT_VENDOR_CONFIG_FILE); } else if (access(AUDIO_EFFECT_DEFAULT_CONFIG_FILE, R_OK) == 0) { loadEffectConfigFile(AUDIO_EFFECT_DEFAULT_CONFIG_FILE); } updateNumEffects(); gInitDone = 1; ALOGV("init() done"); return 0; } int loadEffectConfigFile(const char *path) { cnode *root; char *data; data = load_file(path, NULL); if (data == NULL) { return -ENODEV; } root = config_node("", ""); config_load(root, data); loadLibraries(root); loadEffects(root); config_free(root); free(root); free(data); return 0; } int loadLibraries(cnode *root) { cnode *node; node = config_find(root, LIBRARIES_TAG); if (node == NULL) { return -ENOENT; } node = node->first_child; while (node) { loadLibrary(node, node->name); node = node->next; } return 0; } int loadLibrary(cnode *root, const char *name) { cnode *node; void *hdl; audio_effect_library_t *desc; list_elem_t *e; lib_entry_t *l; node = config_find(root, PATH_TAG); if (node == NULL) { return -EINVAL; } hdl = dlopen(node->value, RTLD_NOW); if (hdl == NULL) { ALOGW("loadLibrary() failed to open %s", node->value); goto error; } desc = (audio_effect_library_t *)dlsym(hdl, AUDIO_EFFECT_LIBRARY_INFO_SYM_AS_STR); if (desc == NULL) { ALOGW("loadLibrary() could not find symbol %s", AUDIO_EFFECT_LIBRARY_INFO_SYM_AS_STR); goto error; } if (AUDIO_EFFECT_LIBRARY_TAG != desc->tag) { ALOGW("getLibrary() bad tag %08x in lib info struct", desc->tag); goto error; } if (EFFECT_API_VERSION_MAJOR(desc->version) != EFFECT_API_VERSION_MAJOR(EFFECT_LIBRARY_API_VERSION)) { ALOGW("loadLibrary() bad lib version %08x", desc->version); goto error; } // add entry for library in gLibraryList l = malloc(sizeof(lib_entry_t)); l->name = strndup(name, PATH_MAX); l->path = strndup(node->value, PATH_MAX); l->handle = hdl; l->desc = desc; l->effects = NULL; pthread_mutex_init(&l->lock, NULL); e = malloc(sizeof(list_elem_t)); e->object = l; pthread_mutex_lock(&gLibLock); e->next = gLibraryList; gLibraryList = e; pthread_mutex_unlock(&gLibLock); ALOGV("getLibrary() linked library %p for path %s", l, node->value); return 0; error: if (hdl != NULL) { dlclose(hdl); } return -EINVAL; } // This will find the library and UUID tags of the sub effect pointed by the // node, gets the effect descriptor and lib_entry_t and adds the subeffect - // sub_entry_t to the gSubEffectList int addSubEffect(cnode *root) { ALOGV("addSubEffect"); cnode *node; effect_uuid_t uuid; effect_descriptor_t *d; lib_entry_t *l; list_elem_t *e; node = config_find(root, LIBRARY_TAG); if (node == NULL) { return -EINVAL; } l = getLibrary(node->value); if (l == NULL) { ALOGW("addSubEffect() could not get library %s", node->value); return -EINVAL; } node = config_find(root, UUID_TAG); if (node == NULL) { return -EINVAL; } if (stringToUuid(node->value, &uuid) != 0) { ALOGW("addSubEffect() invalid uuid %s", node->value); return -EINVAL; } d = malloc(sizeof(effect_descriptor_t)); if (l->desc->get_descriptor(&uuid, d) != 0) { char s[40]; uuidToString(&uuid, s, 40); ALOGW("Error querying effect %s on lib %s", s, l->name); free(d); return -EINVAL; } #if (LOG_NDEBUG==0) char s[256]; dumpEffectDescriptor(d, s, 256); ALOGV("addSubEffect() read descriptor %p:%s",d, s); #endif if (EFFECT_API_VERSION_MAJOR(d->apiVersion) != EFFECT_API_VERSION_MAJOR(EFFECT_CONTROL_API_VERSION)) { ALOGW("Bad API version %08x on lib %s", d->apiVersion, l->name); free(d); return -EINVAL; } sub_effect_entry_t *sub_effect = malloc(sizeof(sub_effect_entry_t)); sub_effect->object = d; // lib_entry_t is stored since the sub effects are not linked to the library sub_effect->lib = l; e = malloc(sizeof(list_elem_t)); e->object = sub_effect; e->next = gSubEffectList->sub_elem; gSubEffectList->sub_elem = e; ALOGV("addSubEffect end"); return 0; } int loadEffects(cnode *root) { cnode *node; node = config_find(root, EFFECTS_TAG); if (node == NULL) { return -ENOENT; } node = node->first_child; while (node) { loadEffect(node); node = node->next; } return 0; } int loadEffect(cnode *root) { cnode *node; effect_uuid_t uuid; lib_entry_t *l; effect_descriptor_t *d; list_elem_t *e; node = config_find(root, LIBRARY_TAG); if (node == NULL) { return -EINVAL; } l = getLibrary(node->value); if (l == NULL) { ALOGW("loadEffect() could not get library %s", node->value); return -EINVAL; } node = config_find(root, UUID_TAG); if (node == NULL) { return -EINVAL; } if (stringToUuid(node->value, &uuid) != 0) { ALOGW("loadEffect() invalid uuid %s", node->value); return -EINVAL; } d = malloc(sizeof(effect_descriptor_t)); if (l->desc->get_descriptor(&uuid, d) != 0) { char s[40]; uuidToString(&uuid, s, 40); ALOGW("Error querying effect %s on lib %s", s, l->name); free(d); return -EINVAL; } #if (LOG_NDEBUG==0) char s[256]; dumpEffectDescriptor(d, s, 256); ALOGV("loadEffect() read descriptor %p:%s",d, s); #endif if (EFFECT_API_VERSION_MAJOR(d->apiVersion) != EFFECT_API_VERSION_MAJOR(EFFECT_CONTROL_API_VERSION)) { ALOGW("Bad API version %08x on lib %s", d->apiVersion, l->name); free(d); return -EINVAL; } e = malloc(sizeof(list_elem_t)); e->object = d; e->next = l->effects; l->effects = e; // After the UUID node in the config_tree, if node->next is valid, // that would be sub effect node. // Find the sub effects and add them to the gSubEffectList node = node->next; int count = 2; bool hwSubefx = false, swSubefx = false; list_sub_elem_t *sube = NULL; if (node != NULL) { ALOGV("Adding the effect to gEffectSubList as there are sub effects"); sube = malloc(sizeof(list_sub_elem_t)); sube->object = d; sube->sub_elem = NULL; sube->next = gSubEffectList; gSubEffectList = sube; } while (node != NULL && count) { if (addSubEffect(node)) { ALOGW("loadEffect() could not add subEffect %s", node->value); // Change the gSubEffectList to point to older list; gSubEffectList = sube->next; free(sube->sub_elem);// Free an already added sub effect sube->sub_elem = NULL; free(sube); return -ENOENT; } sub_effect_entry_t *subEntry = (sub_effect_entry_t*)gSubEffectList->sub_elem->object; effect_descriptor_t *subEffectDesc = (effect_descriptor_t*)(subEntry->object); // Since we return a dummy descriptor for the proxy during // get_descriptor call,we replace it with the correspoding // sw effect descriptor, but with Proxy UUID // check for Sw desc if (!((subEffectDesc->flags & EFFECT_FLAG_HW_ACC_MASK) == EFFECT_FLAG_HW_ACC_TUNNEL)) { swSubefx = true; *d = *subEffectDesc; d->uuid = uuid; ALOGV("loadEffect() Changed the Proxy desc"); } else hwSubefx = true; count--; node = node->next; } // 1 HW and 1 SW sub effect found. Set the offload flag in the Proxy desc if (hwSubefx && swSubefx) { d->flags |= EFFECT_FLAG_OFFLOAD_SUPPORTED; } return 0; } // Searches the sub effect matching to the specified uuid // in the gSubEffectList. It gets the lib_entry_t for // the matched sub_effect . Used in EffectCreate of sub effects int findSubEffect(const effect_uuid_t *uuid, lib_entry_t **lib, effect_descriptor_t **desc) { list_sub_elem_t *e = gSubEffectList; list_elem_t *subefx; sub_effect_entry_t *effect; lib_entry_t *l = NULL; effect_descriptor_t *d = NULL; int found = 0; int ret = 0; if (uuid == NULL) return -EINVAL; while (e != NULL && !found) { subefx = (list_elem_t*)(e->sub_elem); while (subefx != NULL) { effect = (sub_effect_entry_t*)subefx->object; l = (lib_entry_t *)effect->lib; d = (effect_descriptor_t *)effect->object; if (memcmp(&d->uuid, uuid, sizeof(effect_uuid_t)) == 0) { ALOGV("uuid matched"); found = 1; break; } subefx = subefx->next; } e = e->next; } if (!found) { ALOGV("findSubEffect() effect not found"); ret = -ENOENT; } else { ALOGV("findSubEffect() found effect: %s in lib %s", d->name, l->name); *lib = l; if (desc != NULL) { *desc = d; } } return ret; } lib_entry_t *getLibrary(const char *name) { list_elem_t *e; if (gCachedLibrary && !strncmp(gCachedLibrary->name, name, PATH_MAX)) { return gCachedLibrary; } e = gLibraryList; while (e) { lib_entry_t *l = (lib_entry_t *)e->object; if (!strcmp(l->name, name)) { gCachedLibrary = l; return l; } e = e->next; } return NULL; } void resetEffectEnumeration() { gCurLib = gLibraryList; gCurEffect = NULL; if (gCurLib) { gCurEffect = ((lib_entry_t *)gCurLib->object)->effects; } gCurEffectIdx = 0; } uint32_t updateNumEffects() { list_elem_t *e; uint32_t cnt = 0; resetEffectEnumeration(); e = gLibraryList; while (e) { lib_entry_t *l = (lib_entry_t *)e->object; list_elem_t *efx = l->effects; while (efx) { cnt++; efx = efx->next; } e = e->next; } gNumEffects = cnt; gCanQueryEffect = 0; return cnt; } int findEffect(const effect_uuid_t *type, const effect_uuid_t *uuid, lib_entry_t **lib, effect_descriptor_t **desc) { list_elem_t *e = gLibraryList; lib_entry_t *l = NULL; effect_descriptor_t *d = NULL; int found = 0; int ret = 0; while (e && !found) { l = (lib_entry_t *)e->object; list_elem_t *efx = l->effects; while (efx) { d = (effect_descriptor_t *)efx->object; if (type != NULL && memcmp(&d->type, type, sizeof(effect_uuid_t)) == 0) { found = 1; break; } if (uuid != NULL && memcmp(&d->uuid, uuid, sizeof(effect_uuid_t)) == 0) { found = 1; break; } efx = efx->next; } e = e->next; } if (!found) { ALOGV("findEffect() effect not found"); ret = -ENOENT; } else { ALOGV("findEffect() found effect: %s in lib %s", d->name, l->name); *lib = l; if (desc) { *desc = d; } } return ret; } void dumpEffectDescriptor(effect_descriptor_t *desc, char *str, size_t len) { char s[256]; snprintf(str, len, "\nEffect Descriptor %p:\n", desc); strncat(str, "- TYPE: ", len); uuidToString(&desc->uuid, s, 256); snprintf(str, len, "- UUID: %s\n", s); uuidToString(&desc->type, s, 256); snprintf(str, len, "- TYPE: %s\n", s); sprintf(s, "- apiVersion: %08X\n- flags: %08X\n", desc->apiVersion, desc->flags); strncat(str, s, len); sprintf(s, "- name: %s\n", desc->name); strncat(str, s, len); sprintf(s, "- implementor: %s\n", desc->implementor); strncat(str, s, len); } int stringToUuid(const char *str, effect_uuid_t *uuid) { int tmp[10]; if (sscanf(str, "%08x-%04x-%04x-%04x-%02x%02x%02x%02x%02x%02x", tmp, tmp+1, tmp+2, tmp+3, tmp+4, tmp+5, tmp+6, tmp+7, tmp+8, tmp+9) < 10) { return -EINVAL; } uuid->timeLow = (uint32_t)tmp[0]; uuid->timeMid = (uint16_t)tmp[1]; uuid->timeHiAndVersion = (uint16_t)tmp[2]; uuid->clockSeq = (uint16_t)tmp[3]; uuid->node[0] = (uint8_t)tmp[4]; uuid->node[1] = (uint8_t)tmp[5]; uuid->node[2] = (uint8_t)tmp[6]; uuid->node[3] = (uint8_t)tmp[7]; uuid->node[4] = (uint8_t)tmp[8]; uuid->node[5] = (uint8_t)tmp[9]; return 0; } int uuidToString(const effect_uuid_t *uuid, char *str, size_t maxLen) { snprintf(str, maxLen, "%08x-%04x-%04x-%04x-%02x%02x%02x%02x%02x%02x", uuid->timeLow, uuid->timeMid, uuid->timeHiAndVersion, uuid->clockSeq, uuid->node[0], uuid->node[1], uuid->node[2], uuid->node[3], uuid->node[4], uuid->node[5]); return 0; }