/* * Siano core API module * * This file contains implementation for the interface to sms core component * * author: Uri Shkolnik * * Copyright (c), 2005-2008 Siano Mobile Silicon, Inc. * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License version 2 as * published by the Free Software Foundation; * * Software distributed under the License is distributed on an "AS IS" * basis, WITHOUT WARRANTY OF ANY KIND, either express or implied. * * See the GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software * Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA. */ #include #include #include #include #include #include #include #include #include #include #include #include "smscoreapi.h" #include "sms-cards.h" #include "smsir.h" #include "smsendian.h" static int sms_dbg; module_param_named(debug, sms_dbg, int, 0644); MODULE_PARM_DESC(debug, "set debug level (info=1, adv=2 (or-able))"); struct smscore_device_notifyee_t { struct list_head entry; hotplug_t hotplug; }; struct smscore_idlist_t { struct list_head entry; int id; int data_type; }; struct smscore_client_t { struct list_head entry; struct smscore_device_t *coredev; void *context; struct list_head idlist; onresponse_t onresponse_handler; onremove_t onremove_handler; }; void smscore_set_board_id(struct smscore_device_t *core, int id) { core->board_id = id; } int smscore_led_state(struct smscore_device_t *core, int led) { if (led >= 0) core->led_state = led; return core->led_state; } EXPORT_SYMBOL_GPL(smscore_set_board_id); int smscore_get_board_id(struct smscore_device_t *core) { return core->board_id; } EXPORT_SYMBOL_GPL(smscore_get_board_id); struct smscore_registry_entry_t { struct list_head entry; char devpath[32]; int mode; enum sms_device_type_st type; }; static struct list_head g_smscore_notifyees; static struct list_head g_smscore_devices; static struct mutex g_smscore_deviceslock; static struct list_head g_smscore_registry; static struct mutex g_smscore_registrylock; static int default_mode = 4; module_param(default_mode, int, 0644); MODULE_PARM_DESC(default_mode, "default firmware id (device mode)"); static struct smscore_registry_entry_t *smscore_find_registry(char *devpath) { struct smscore_registry_entry_t *entry; struct list_head *next; kmutex_lock(&g_smscore_registrylock); for (next = g_smscore_registry.next; next != &g_smscore_registry; next = next->next) { entry = (struct smscore_registry_entry_t *) next; if (!strcmp(entry->devpath, devpath)) { kmutex_unlock(&g_smscore_registrylock); return entry; } } entry = kmalloc(sizeof(struct smscore_registry_entry_t), GFP_KERNEL); if (entry) { entry->mode = default_mode; strcpy(entry->devpath, devpath); list_add(&entry->entry, &g_smscore_registry); } else sms_err("failed to create smscore_registry."); kmutex_unlock(&g_smscore_registrylock); return entry; } int smscore_registry_getmode(char *devpath) { struct smscore_registry_entry_t *entry; entry = smscore_find_registry(devpath); if (entry) return entry->mode; else sms_err("No registry found."); return default_mode; } EXPORT_SYMBOL_GPL(smscore_registry_getmode); static enum sms_device_type_st smscore_registry_gettype(char *devpath) { struct smscore_registry_entry_t *entry; entry = smscore_find_registry(devpath); if (entry) return entry->type; else sms_err("No registry found."); return -1; } void smscore_registry_setmode(char *devpath, int mode) { struct smscore_registry_entry_t *entry; entry = smscore_find_registry(devpath); if (entry) entry->mode = mode; else sms_err("No registry found."); } static void smscore_registry_settype(char *devpath, enum sms_device_type_st type) { struct smscore_registry_entry_t *entry; entry = smscore_find_registry(devpath); if (entry) entry->type = type; else sms_err("No registry found."); } static void list_add_locked(struct list_head *new, struct list_head *head, spinlock_t *lock) { unsigned long flags; spin_lock_irqsave(lock, flags); list_add(new, head); spin_unlock_irqrestore(lock, flags); } /** * register a client callback that called when device plugged in/unplugged * NOTE: if devices exist callback is called immediately for each device * * @param hotplug callback * * @return 0 on success, <0 on error. */ int smscore_register_hotplug(hotplug_t hotplug) { struct smscore_device_notifyee_t *notifyee; struct list_head *next, *first; int rc = 0; kmutex_lock(&g_smscore_deviceslock); notifyee = kmalloc(sizeof(struct smscore_device_notifyee_t), GFP_KERNEL); if (notifyee) { /* now notify callback about existing devices */ first = &g_smscore_devices; for (next = first->next; next != first && !rc; next = next->next) { struct smscore_device_t *coredev = (struct smscore_device_t *) next; rc = hotplug(coredev, coredev->device, 1); } if (rc >= 0) { notifyee->hotplug = hotplug; list_add(¬ifyee->entry, &g_smscore_notifyees); } else kfree(notifyee); } else rc = -ENOMEM; kmutex_unlock(&g_smscore_deviceslock); return rc; } EXPORT_SYMBOL_GPL(smscore_register_hotplug); /** * unregister a client callback that called when device plugged in/unplugged * * @param hotplug callback * */ void smscore_unregister_hotplug(hotplug_t hotplug) { struct list_head *next, *first; kmutex_lock(&g_smscore_deviceslock); first = &g_smscore_notifyees; for (next = first->next; next != first;) { struct smscore_device_notifyee_t *notifyee = (struct smscore_device_notifyee_t *) next; next = next->next; if (notifyee->hotplug == hotplug) { list_del(¬ifyee->entry); kfree(notifyee); } } kmutex_unlock(&g_smscore_deviceslock); } EXPORT_SYMBOL_GPL(smscore_unregister_hotplug); static void smscore_notify_clients(struct smscore_device_t *coredev) { struct smscore_client_t *client; /* the client must call smscore_unregister_client from remove handler */ while (!list_empty(&coredev->clients)) { client = (struct smscore_client_t *) coredev->clients.next; client->onremove_handler(client->context); } } static int smscore_notify_callbacks(struct smscore_device_t *coredev, struct device *device, int arrival) { struct list_head *next, *first; int rc = 0; /* note: must be called under g_deviceslock */ first = &g_smscore_notifyees; for (next = first->next; next != first; next = next->next) { rc = ((struct smscore_device_notifyee_t *) next)-> hotplug(coredev, device, arrival); if (rc < 0) break; } return rc; } static struct smscore_buffer_t *smscore_createbuffer(u8 *buffer, void *common_buffer, dma_addr_t common_buffer_phys) { struct smscore_buffer_t *cb = kmalloc(sizeof(struct smscore_buffer_t), GFP_KERNEL); if (!cb) { sms_info("kmalloc(...) failed"); return NULL; } cb->p = buffer; cb->offset_in_common = buffer - (u8 *) common_buffer; cb->phys = common_buffer_phys + cb->offset_in_common; return cb; } /** * creates coredev object for a device, prepares buffers, * creates buffer mappings, notifies registered hotplugs about new device. * * @param params device pointer to struct with device specific parameters * and handlers * @param coredev pointer to a value that receives created coredev object * * @return 0 on success, <0 on error. */ int smscore_register_device(struct smsdevice_params_t *params, struct smscore_device_t **coredev) { struct smscore_device_t *dev; u8 *buffer; dev = kzalloc(sizeof(struct smscore_device_t), GFP_KERNEL); if (!dev) { sms_info("kzalloc(...) failed"); return -ENOMEM; } /* init list entry so it could be safe in smscore_unregister_device */ INIT_LIST_HEAD(&dev->entry); /* init queues */ INIT_LIST_HEAD(&dev->clients); INIT_LIST_HEAD(&dev->buffers); /* init locks */ spin_lock_init(&dev->clientslock); spin_lock_init(&dev->bufferslock); /* init completion events */ init_completion(&dev->version_ex_done); init_completion(&dev->data_download_done); init_completion(&dev->trigger_done); init_completion(&dev->init_device_done); init_completion(&dev->reload_start_done); init_completion(&dev->resume_done); init_completion(&dev->gpio_configuration_done); init_completion(&dev->gpio_set_level_done); init_completion(&dev->gpio_get_level_done); init_completion(&dev->ir_init_done); /* Buffer management */ init_waitqueue_head(&dev->buffer_mng_waitq); /* alloc common buffer */ dev->common_buffer_size = params->buffer_size * params->num_buffers; dev->common_buffer = dma_alloc_coherent(NULL, dev->common_buffer_size, &dev->common_buffer_phys, GFP_KERNEL | GFP_DMA); if (!dev->common_buffer) { smscore_unregister_device(dev); return -ENOMEM; } /* prepare dma buffers */ for (buffer = dev->common_buffer; dev->num_buffers < params->num_buffers; dev->num_buffers++, buffer += params->buffer_size) { struct smscore_buffer_t *cb = smscore_createbuffer(buffer, dev->common_buffer, dev->common_buffer_phys); if (!cb) { smscore_unregister_device(dev); return -ENOMEM; } smscore_putbuffer(dev, cb); } sms_info("allocated %d buffers", dev->num_buffers); dev->mode = DEVICE_MODE_NONE; dev->context = params->context; dev->device = params->device; dev->setmode_handler = params->setmode_handler; dev->detectmode_handler = params->detectmode_handler; dev->sendrequest_handler = params->sendrequest_handler; dev->preload_handler = params->preload_handler; dev->postload_handler = params->postload_handler; dev->device_flags = params->flags; strcpy(dev->devpath, params->devpath); smscore_registry_settype(dev->devpath, params->device_type); /* add device to devices list */ kmutex_lock(&g_smscore_deviceslock); list_add(&dev->entry, &g_smscore_devices); kmutex_unlock(&g_smscore_deviceslock); *coredev = dev; sms_info("device %p created", dev); return 0; } EXPORT_SYMBOL_GPL(smscore_register_device); static int smscore_sendrequest_and_wait(struct smscore_device_t *coredev, void *buffer, size_t size, struct completion *completion) { int rc = coredev->sendrequest_handler(coredev->context, buffer, size); if (rc < 0) { sms_info("sendrequest returned error %d", rc); return rc; } return wait_for_completion_timeout(completion, msecs_to_jiffies(SMS_PROTOCOL_MAX_RAOUNDTRIP_MS)) ? 0 : -ETIME; } /** * Starts & enables IR operations * * @return 0 on success, < 0 on error. */ static int smscore_init_ir(struct smscore_device_t *coredev) { int ir_io; int rc; void *buffer; coredev->ir.dev = NULL; ir_io = sms_get_board(smscore_get_board_id(coredev))->board_cfg.ir; if (ir_io) {/* only if IR port exist we use IR sub-module */ sms_info("IR loading"); rc = sms_ir_init(coredev); if (rc != 0) sms_err("Error initialization DTV IR sub-module"); else { buffer = kmalloc(sizeof(struct SmsMsgData_ST2) + SMS_DMA_ALIGNMENT, GFP_KERNEL | GFP_DMA); if (buffer) { struct SmsMsgData_ST2 *msg = (struct SmsMsgData_ST2 *) SMS_ALIGN_ADDRESS(buffer); SMS_INIT_MSG(&msg->xMsgHeader, MSG_SMS_START_IR_REQ, sizeof(struct SmsMsgData_ST2)); msg->msgData[0] = coredev->ir.controller; msg->msgData[1] = coredev->ir.timeout; smsendian_handle_tx_message( (struct SmsMsgHdr_ST2 *)msg); rc = smscore_sendrequest_and_wait(coredev, msg, msg->xMsgHeader. msgLength, &coredev->ir_init_done); kfree(buffer); } else sms_err ("Sending IR initialization message failed"); } } else sms_info("IR port has not been detected"); return 0; } /** * sets initial device mode and notifies client hotplugs that device is ready * * @param coredev pointer to a coredev object returned by * smscore_register_device * * @return 0 on success, <0 on error. */ int smscore_start_device(struct smscore_device_t *coredev) { int rc = smscore_set_device_mode( coredev, smscore_registry_getmode(coredev->devpath)); if (rc < 0) { sms_info("set device mode faile , rc %d", rc); return rc; } kmutex_lock(&g_smscore_deviceslock); rc = smscore_notify_callbacks(coredev, coredev->device, 1); smscore_init_ir(coredev); sms_info("device %p started, rc %d", coredev, rc); kmutex_unlock(&g_smscore_deviceslock); return rc; } EXPORT_SYMBOL_GPL(smscore_start_device); static int smscore_load_firmware_family2(struct smscore_device_t *coredev, void *buffer, size_t size) { struct SmsFirmware_ST *firmware = (struct SmsFirmware_ST *) buffer; struct SmsMsgHdr_ST *msg; u32 mem_address; u8 *payload = firmware->Payload; int rc = 0; firmware->StartAddress = le32_to_cpu(firmware->StartAddress); firmware->Length = le32_to_cpu(firmware->Length); mem_address = firmware->StartAddress; sms_info("loading FW to addr 0x%x size %d", mem_address, firmware->Length); if (coredev->preload_handler) { rc = coredev->preload_handler(coredev->context); if (rc < 0) return rc; } /* PAGE_SIZE buffer shall be enough and dma aligned */ msg = kmalloc(PAGE_SIZE, GFP_KERNEL | GFP_DMA); if (!msg) return -ENOMEM; if (coredev->mode != DEVICE_MODE_NONE) { sms_debug("sending reload command."); SMS_INIT_MSG(msg, MSG_SW_RELOAD_START_REQ, sizeof(struct SmsMsgHdr_ST)); rc = smscore_sendrequest_and_wait(coredev, msg, msg->msgLength, &coredev->reload_start_done); mem_address = *(u32 *) &payload[20]; } while (size && rc >= 0) { struct SmsDataDownload_ST *DataMsg = (struct SmsDataDownload_ST *) msg; int payload_size = min((int) size, SMS_MAX_PAYLOAD_SIZE); SMS_INIT_MSG(msg, MSG_SMS_DATA_DOWNLOAD_REQ, (u16)(sizeof(struct SmsMsgHdr_ST) + sizeof(u32) + payload_size)); DataMsg->MemAddr = mem_address; memcpy(DataMsg->Payload, payload, payload_size); if ((coredev->device_flags & SMS_ROM_NO_RESPONSE) && (coredev->mode == DEVICE_MODE_NONE)) rc = coredev->sendrequest_handler( coredev->context, DataMsg, DataMsg->xMsgHeader.msgLength); else rc = smscore_sendrequest_and_wait( coredev, DataMsg, DataMsg->xMsgHeader.msgLength, &coredev->data_download_done); payload += payload_size; size -= payload_size; mem_address += payload_size; } if (rc >= 0) { if (coredev->mode == DEVICE_MODE_NONE) { struct SmsMsgData_ST *TriggerMsg = (struct SmsMsgData_ST *) msg; SMS_INIT_MSG(msg, MSG_SMS_SWDOWNLOAD_TRIGGER_REQ, sizeof(struct SmsMsgHdr_ST) + sizeof(u32) * 5); TriggerMsg->msgData[0] = firmware->StartAddress; /* Entry point */ TriggerMsg->msgData[1] = 5; /* Priority */ TriggerMsg->msgData[2] = 0x200; /* Stack size */ TriggerMsg->msgData[3] = 0; /* Parameter */ TriggerMsg->msgData[4] = 4; /* Task ID */ if (coredev->device_flags & SMS_ROM_NO_RESPONSE) { rc = coredev->sendrequest_handler( coredev->context, TriggerMsg, TriggerMsg->xMsgHeader.msgLength); msleep(100); } else rc = smscore_sendrequest_and_wait( coredev, TriggerMsg, TriggerMsg->xMsgHeader.msgLength, &coredev->trigger_done); } else { SMS_INIT_MSG(msg, MSG_SW_RELOAD_EXEC_REQ, sizeof(struct SmsMsgHdr_ST)); rc = coredev->sendrequest_handler(coredev->context, msg, msg->msgLength); } msleep(500); } sms_debug("rc=%d, postload=%p ", rc, coredev->postload_handler); kfree(msg); return ((rc >= 0) && coredev->postload_handler) ? coredev->postload_handler(coredev->context) : rc; } /** * loads specified firmware into a buffer and calls device loadfirmware_handler * * @param coredev pointer to a coredev object returned by * smscore_register_device * @param filename null-terminated string specifies firmware file name * @param loadfirmware_handler device handler that loads firmware * * @return 0 on success, <0 on error. */ static int smscore_load_firmware_from_file(struct smscore_device_t *coredev, char *filename, loadfirmware_t loadfirmware_handler) { int rc = -ENOENT; const struct firmware *fw; u8 *fw_buffer; if (loadfirmware_handler == NULL && !(coredev->device_flags & SMS_DEVICE_FAMILY2)) return -EINVAL; rc = request_firmware(&fw, filename, coredev->device); if (rc < 0) { sms_info("failed to open \"%s\"", filename); return rc; } sms_info("read FW %s, size=%zd", filename, fw->size); fw_buffer = kmalloc(ALIGN(fw->size, SMS_ALLOC_ALIGNMENT), GFP_KERNEL | GFP_DMA); if (fw_buffer) { memcpy(fw_buffer, fw->data, fw->size); rc = (coredev->device_flags & SMS_DEVICE_FAMILY2) ? smscore_load_firmware_family2(coredev, fw_buffer, fw->size) : loadfirmware_handler(coredev->context, fw_buffer, fw->size); kfree(fw_buffer); } else { sms_info("failed to allocate firmware buffer"); rc = -ENOMEM; } release_firmware(fw); return rc; } /** * notifies all clients registered with the device, notifies hotplugs, * frees all buffers and coredev object * * @param coredev pointer to a coredev object returned by * smscore_register_device * * @return 0 on success, <0 on error. */ void smscore_unregister_device(struct smscore_device_t *coredev) { struct smscore_buffer_t *cb; int num_buffers = 0; int retry = 0; kmutex_lock(&g_smscore_deviceslock); /* Release input device (IR) resources */ sms_ir_exit(coredev); smscore_notify_clients(coredev); smscore_notify_callbacks(coredev, NULL, 0); /* at this point all buffers should be back * onresponse must no longer be called */ while (1) { while (!list_empty(&coredev->buffers)) { cb = (struct smscore_buffer_t *) coredev->buffers.next; list_del(&cb->entry); kfree(cb); num_buffers++; } if (num_buffers == coredev->num_buffers) break; if (++retry > 10) { sms_info("exiting although " "not all buffers released."); break; } sms_info("waiting for %d buffer(s)", coredev->num_buffers - num_buffers); msleep(100); } sms_info("freed %d buffers", num_buffers); if (coredev->common_buffer) dma_free_coherent(NULL, coredev->common_buffer_size, coredev->common_buffer, coredev->common_buffer_phys); if (coredev->fw_buf != NULL) kfree(coredev->fw_buf); list_del(&coredev->entry); kfree(coredev); kmutex_unlock(&g_smscore_deviceslock); sms_info("device %p destroyed", coredev); } EXPORT_SYMBOL_GPL(smscore_unregister_device); static int smscore_detect_mode(struct smscore_device_t *coredev) { void *buffer = kmalloc(sizeof(struct SmsMsgHdr_ST) + SMS_DMA_ALIGNMENT, GFP_KERNEL | GFP_DMA); struct SmsMsgHdr_ST *msg = (struct SmsMsgHdr_ST *) SMS_ALIGN_ADDRESS(buffer); int rc; if (!buffer) return -ENOMEM; SMS_INIT_MSG(msg, MSG_SMS_GET_VERSION_EX_REQ, sizeof(struct SmsMsgHdr_ST)); rc = smscore_sendrequest_and_wait(coredev, msg, msg->msgLength, &coredev->version_ex_done); if (rc == -ETIME) { sms_err("MSG_SMS_GET_VERSION_EX_REQ failed first try"); if (wait_for_completion_timeout(&coredev->resume_done, msecs_to_jiffies(5000))) { rc = smscore_sendrequest_and_wait( coredev, msg, msg->msgLength, &coredev->version_ex_done); if (rc < 0) sms_err("MSG_SMS_GET_VERSION_EX_REQ failed " "second try, rc %d", rc); } else rc = -ETIME; } kfree(buffer); return rc; } static char *smscore_fw_lkup[][SMS_NUM_OF_DEVICE_TYPES] = { /*Stellar NOVA A0 Nova B0 VEGA*/ /*DVBT*/ {"none", "dvb_nova_12mhz.inp", "dvb_nova_12mhz_b0.inp", "none"}, /*DVBH*/ {"none", "dvb_nova_12mhz.inp", "dvb_nova_12mhz_b0.inp", "none"}, /*TDMB*/ {"none", "tdmb_nova_12mhz.inp", "tdmb_nova_12mhz_b0.inp", "none"}, /*DABIP*/ {"none", "none", "none", "none"}, /*BDA*/ {"none", "dvb_nova_12mhz.inp", "dvb_nova_12mhz_b0.inp", "none"}, /*ISDBT*/ {"none", "isdbt_nova_12mhz.inp", "isdbt_nova_12mhz_b0.inp", "none"}, /*ISDBTBDA*/ {"none", "isdbt_nova_12mhz.inp", "isdbt_nova_12mhz_b0.inp", "none"}, /*CMMB*/ {"none", "none", "none", "cmmb_vega_12mhz.inp"} }; static inline char *sms_get_fw_name(struct smscore_device_t *coredev, int mode, enum sms_device_type_st type) { char **fw = sms_get_board(smscore_get_board_id(coredev))->fw; return (fw && fw[mode]) ? fw[mode] : smscore_fw_lkup[mode][type]; } /** * calls device handler to change mode of operation * NOTE: stellar/usb may disconnect when changing mode * * @param coredev pointer to a coredev object returned by * smscore_register_device * @param mode requested mode of operation * * @return 0 on success, <0 on error. */ int smscore_set_device_mode(struct smscore_device_t *coredev, int mode) { void *buffer; int rc = 0; enum sms_device_type_st type; sms_debug("set device mode to %d", mode); if (coredev->device_flags & SMS_DEVICE_FAMILY2) { if (mode < DEVICE_MODE_DVBT || mode >= DEVICE_MODE_RAW_TUNER) { sms_err("invalid mode specified %d", mode); return -EINVAL; } smscore_registry_setmode(coredev->devpath, mode); if (!(coredev->device_flags & SMS_DEVICE_NOT_READY)) { rc = smscore_detect_mode(coredev); if (rc < 0) { sms_err("mode detect failed %d", rc); return rc; } } if (coredev->mode == mode) { sms_info("device mode %d already set", mode); return 0; } if (!(coredev->modes_supported & (1 << mode))) { char *fw_filename; type = smscore_registry_gettype(coredev->devpath); fw_filename = sms_get_fw_name(coredev, mode, type); rc = smscore_load_firmware_from_file(coredev, fw_filename, NULL); if (rc < 0) { sms_warn("error %d loading firmware: %s, " "trying again with default firmware", rc, fw_filename); /* try again with the default firmware */ fw_filename = smscore_fw_lkup[mode][type]; rc = smscore_load_firmware_from_file(coredev, fw_filename, NULL); if (rc < 0) { sms_warn("error %d loading " "firmware: %s", rc, fw_filename); return rc; } } sms_log("firmware download success: %s", fw_filename); } else sms_info("mode %d supported by running " "firmware", mode); buffer = kmalloc(sizeof(struct SmsMsgData_ST) + SMS_DMA_ALIGNMENT, GFP_KERNEL | GFP_DMA); if (buffer) { struct SmsMsgData_ST *msg = (struct SmsMsgData_ST *) SMS_ALIGN_ADDRESS(buffer); SMS_INIT_MSG(&msg->xMsgHeader, MSG_SMS_INIT_DEVICE_REQ, sizeof(struct SmsMsgData_ST)); msg->msgData[0] = mode; rc = smscore_sendrequest_and_wait( coredev, msg, msg->xMsgHeader.msgLength, &coredev->init_device_done); kfree(buffer); } else { sms_err("Could not allocate buffer for " "init device message."); rc = -ENOMEM; } } else { if (mode < DEVICE_MODE_DVBT || mode > DEVICE_MODE_DVBT_BDA) { sms_err("invalid mode specified %d", mode); return -EINVAL; } smscore_registry_setmode(coredev->devpath, mode); if (coredev->detectmode_handler) coredev->detectmode_handler(coredev->context, &coredev->mode); if (coredev->mode != mode && coredev->setmode_handler) rc = coredev->setmode_handler(coredev->context, mode); } if (rc >= 0) { coredev->mode = mode; coredev->device_flags &= ~SMS_DEVICE_NOT_READY; } if (rc < 0) sms_err("return error code %d.", rc); return rc; } /** * calls device handler to get current mode of operation * * @param coredev pointer to a coredev object returned by * smscore_register_device * * @return current mode */ int smscore_get_device_mode(struct smscore_device_t *coredev) { return coredev->mode; } EXPORT_SYMBOL_GPL(smscore_get_device_mode); /** * find client by response id & type within the clients list. * return client handle or NULL. * * @param coredev pointer to a coredev object returned by * smscore_register_device * @param data_type client data type (SMS_DONT_CARE for all types) * @param id client id (SMS_DONT_CARE for all id) * */ static struct smscore_client_t *smscore_find_client(struct smscore_device_t *coredev, int data_type, int id) { struct smscore_client_t *client = NULL; struct list_head *next, *first; unsigned long flags; struct list_head *firstid, *nextid; spin_lock_irqsave(&coredev->clientslock, flags); first = &coredev->clients; for (next = first->next; (next != first) && !client; next = next->next) { firstid = &((struct smscore_client_t *)next)->idlist; for (nextid = firstid->next; nextid != firstid; nextid = nextid->next) { if ((((struct smscore_idlist_t *)nextid)->id == id) && (((struct smscore_idlist_t *)nextid)->data_type == data_type || (((struct smscore_idlist_t *)nextid)->data_type == 0))) { client = (struct smscore_client_t *) next; break; } } } spin_unlock_irqrestore(&coredev->clientslock, flags); return client; } /** * find client by response id/type, call clients onresponse handler * return buffer to pool on error * * @param coredev pointer to a coredev object returned by * smscore_register_device * @param cb pointer to response buffer descriptor * */ void smscore_onresponse(struct smscore_device_t *coredev, struct smscore_buffer_t *cb) { struct SmsMsgHdr_ST *phdr = (struct SmsMsgHdr_ST *) ((u8 *) cb->p + cb->offset); struct smscore_client_t *client; int rc = -EBUSY; static unsigned long last_sample_time; /* = 0; */ static int data_total; /* = 0; */ unsigned long time_now = jiffies_to_msecs(jiffies); if (!last_sample_time) last_sample_time = time_now; if (time_now - last_sample_time > 10000) { sms_debug("\ndata rate %d bytes/secs", (int)((data_total * 1000) / (time_now - last_sample_time))); last_sample_time = time_now; data_total = 0; } data_total += cb->size; /* Do we need to re-route? */ if ((phdr->msgType == MSG_SMS_HO_PER_SLICES_IND) || (phdr->msgType == MSG_SMS_TRANSMISSION_IND)) { if (coredev->mode == DEVICE_MODE_DVBT_BDA) phdr->msgDstId = DVBT_BDA_CONTROL_MSG_ID; } client = smscore_find_client(coredev, phdr->msgType, phdr->msgDstId); /* If no client registered for type & id, * check for control client where type is not registered */ if (client) rc = client->onresponse_handler(client->context, cb); if (rc < 0) { switch (phdr->msgType) { case MSG_SMS_GET_VERSION_EX_RES: { struct SmsVersionRes_ST *ver = (struct SmsVersionRes_ST *) phdr; sms_debug("MSG_SMS_GET_VERSION_EX_RES " "id %d prots 0x%x ver %d.%d", ver->FirmwareId, ver->SupportedProtocols, ver->RomVersionMajor, ver->RomVersionMinor); coredev->mode = ver->FirmwareId == 255 ? DEVICE_MODE_NONE : ver->FirmwareId; coredev->modes_supported = ver->SupportedProtocols; complete(&coredev->version_ex_done); break; } case MSG_SMS_INIT_DEVICE_RES: sms_debug("MSG_SMS_INIT_DEVICE_RES"); complete(&coredev->init_device_done); break; case MSG_SW_RELOAD_START_RES: sms_debug("MSG_SW_RELOAD_START_RES"); complete(&coredev->reload_start_done); break; case MSG_SMS_DATA_DOWNLOAD_RES: complete(&coredev->data_download_done); break; case MSG_SW_RELOAD_EXEC_RES: sms_debug("MSG_SW_RELOAD_EXEC_RES"); break; case MSG_SMS_SWDOWNLOAD_TRIGGER_RES: sms_debug("MSG_SMS_SWDOWNLOAD_TRIGGER_RES"); complete(&coredev->trigger_done); break; case MSG_SMS_SLEEP_RESUME_COMP_IND: complete(&coredev->resume_done); break; case MSG_SMS_GPIO_CONFIG_EX_RES: sms_debug("MSG_SMS_GPIO_CONFIG_EX_RES"); complete(&coredev->gpio_configuration_done); break; case MSG_SMS_GPIO_SET_LEVEL_RES: sms_debug("MSG_SMS_GPIO_SET_LEVEL_RES"); complete(&coredev->gpio_set_level_done); break; case MSG_SMS_GPIO_GET_LEVEL_RES: { u32 *msgdata = (u32 *) phdr; coredev->gpio_get_res = msgdata[1]; sms_debug("MSG_SMS_GPIO_GET_LEVEL_RES gpio level %d", coredev->gpio_get_res); complete(&coredev->gpio_get_level_done); break; } case MSG_SMS_START_IR_RES: complete(&coredev->ir_init_done); break; case MSG_SMS_IR_SAMPLES_IND: sms_ir_event(coredev, (const char *) ((char *)phdr + sizeof(struct SmsMsgHdr_ST)), (int)phdr->msgLength - sizeof(struct SmsMsgHdr_ST)); break; default: break; } smscore_putbuffer(coredev, cb); } } EXPORT_SYMBOL_GPL(smscore_onresponse); /** * return pointer to next free buffer descriptor from core pool * * @param coredev pointer to a coredev object returned by * smscore_register_device * * @return pointer to descriptor on success, NULL on error. */ struct smscore_buffer_t *get_entry(struct smscore_device_t *coredev) { struct smscore_buffer_t *cb = NULL; unsigned long flags; spin_lock_irqsave(&coredev->bufferslock, flags); if (!list_empty(&coredev->buffers)) { cb = (struct smscore_buffer_t *) coredev->buffers.next; list_del(&cb->entry); } spin_unlock_irqrestore(&coredev->bufferslock, flags); return cb; } struct smscore_buffer_t *smscore_getbuffer(struct smscore_device_t *coredev) { struct smscore_buffer_t *cb = NULL; wait_event(coredev->buffer_mng_waitq, (cb = get_entry(coredev))); return cb; } EXPORT_SYMBOL_GPL(smscore_getbuffer); /** * return buffer descriptor to a pool * * @param coredev pointer to a coredev object returned by * smscore_register_device * @param cb pointer buffer descriptor * */ void smscore_putbuffer(struct smscore_device_t *coredev, struct smscore_buffer_t *cb) { wake_up_interruptible(&coredev->buffer_mng_waitq); list_add_locked(&cb->entry, &coredev->buffers, &coredev->bufferslock); } EXPORT_SYMBOL_GPL(smscore_putbuffer); static int smscore_validate_client(struct smscore_device_t *coredev, struct smscore_client_t *client, int data_type, int id) { struct smscore_idlist_t *listentry; struct smscore_client_t *registered_client; if (!client) { sms_err("bad parameter."); return -EINVAL; } registered_client = smscore_find_client(coredev, data_type, id); if (registered_client == client) return 0; if (registered_client) { sms_err("The msg ID already registered to another client."); return -EEXIST; } listentry = kzalloc(sizeof(struct smscore_idlist_t), GFP_KERNEL); if (!listentry) { sms_err("Can't allocate memory for client id."); return -ENOMEM; } listentry->id = id; listentry->data_type = data_type; list_add_locked(&listentry->entry, &client->idlist, &coredev->clientslock); return 0; } /** * creates smsclient object, check that id is taken by another client * * @param coredev pointer to a coredev object from clients hotplug * @param initial_id all messages with this id would be sent to this client * @param data_type all messages of this type would be sent to this client * @param onresponse_handler client handler that is called to * process incoming messages * @param onremove_handler client handler that is called when device is removed * @param context client-specific context * @param client pointer to a value that receives created smsclient object * * @return 0 on success, <0 on error. */ int smscore_register_client(struct smscore_device_t *coredev, struct smsclient_params_t *params, struct smscore_client_t **client) { struct smscore_client_t *newclient; /* check that no other channel with same parameters exists */ if (smscore_find_client(coredev, params->data_type, params->initial_id)) { sms_err("Client already exist."); return -EEXIST; } newclient = kzalloc(sizeof(struct smscore_client_t), GFP_KERNEL); if (!newclient) { sms_err("Failed to allocate memory for client."); return -ENOMEM; } INIT_LIST_HEAD(&newclient->idlist); newclient->coredev = coredev; newclient->onresponse_handler = params->onresponse_handler; newclient->onremove_handler = params->onremove_handler; newclient->context = params->context; list_add_locked(&newclient->entry, &coredev->clients, &coredev->clientslock); smscore_validate_client(coredev, newclient, params->data_type, params->initial_id); *client = newclient; sms_debug("%p %d %d", params->context, params->data_type, params->initial_id); return 0; } EXPORT_SYMBOL_GPL(smscore_register_client); /** * frees smsclient object and all subclients associated with it * * @param client pointer to smsclient object returned by * smscore_register_client * */ void smscore_unregister_client(struct smscore_client_t *client) { struct smscore_device_t *coredev = client->coredev; unsigned long flags; spin_lock_irqsave(&coredev->clientslock, flags); while (!list_empty(&client->idlist)) { struct smscore_idlist_t *identry = (struct smscore_idlist_t *) client->idlist.next; list_del(&identry->entry); kfree(identry); } sms_info("%p", client->context); list_del(&client->entry); kfree(client); spin_unlock_irqrestore(&coredev->clientslock, flags); } EXPORT_SYMBOL_GPL(smscore_unregister_client); /** * verifies that source id is not taken by another client, * calls device handler to send requests to the device * * @param client pointer to smsclient object returned by * smscore_register_client * @param buffer pointer to a request buffer * @param size size (in bytes) of request buffer * * @return 0 on success, <0 on error. */ int smsclient_sendrequest(struct smscore_client_t *client, void *buffer, size_t size) { struct smscore_device_t *coredev; struct SmsMsgHdr_ST *phdr = (struct SmsMsgHdr_ST *) buffer; int rc; if (client == NULL) { sms_err("Got NULL client"); return -EINVAL; } coredev = client->coredev; /* check that no other channel with same id exists */ if (coredev == NULL) { sms_err("Got NULL coredev"); return -EINVAL; } rc = smscore_validate_client(client->coredev, client, 0, phdr->msgSrcId); if (rc < 0) return rc; return coredev->sendrequest_handler(coredev->context, buffer, size); } EXPORT_SYMBOL_GPL(smsclient_sendrequest); /* old GPIO managements implementation */ int smscore_configure_gpio(struct smscore_device_t *coredev, u32 pin, struct smscore_config_gpio *pinconfig) { struct { struct SmsMsgHdr_ST hdr; u32 data[6]; } msg; if (coredev->device_flags & SMS_DEVICE_FAMILY2) { msg.hdr.msgSrcId = DVBT_BDA_CONTROL_MSG_ID; msg.hdr.msgDstId = HIF_TASK; msg.hdr.msgFlags = 0; msg.hdr.msgType = MSG_SMS_GPIO_CONFIG_EX_REQ; msg.hdr.msgLength = sizeof(msg); msg.data[0] = pin; msg.data[1] = pinconfig->pullupdown; /* Convert slew rate for Nova: Fast(0) = 3 / Slow(1) = 0; */ msg.data[2] = pinconfig->outputslewrate == 0 ? 3 : 0; switch (pinconfig->outputdriving) { case SMS_GPIO_OUTPUTDRIVING_16mA: msg.data[3] = 7; /* Nova - 16mA */ break; case SMS_GPIO_OUTPUTDRIVING_12mA: msg.data[3] = 5; /* Nova - 11mA */ break; case SMS_GPIO_OUTPUTDRIVING_8mA: msg.data[3] = 3; /* Nova - 7mA */ break; case SMS_GPIO_OUTPUTDRIVING_4mA: default: msg.data[3] = 2; /* Nova - 4mA */ break; } msg.data[4] = pinconfig->direction; msg.data[5] = 0; } else /* TODO: SMS_DEVICE_FAMILY1 */ return -EINVAL; return coredev->sendrequest_handler(coredev->context, &msg, sizeof(msg)); } int smscore_set_gpio(struct smscore_device_t *coredev, u32 pin, int level) { struct { struct SmsMsgHdr_ST hdr; u32 data[3]; } msg; if (pin > MAX_GPIO_PIN_NUMBER) return -EINVAL; msg.hdr.msgSrcId = DVBT_BDA_CONTROL_MSG_ID; msg.hdr.msgDstId = HIF_TASK; msg.hdr.msgFlags = 0; msg.hdr.msgType = MSG_SMS_GPIO_SET_LEVEL_REQ; msg.hdr.msgLength = sizeof(msg); msg.data[0] = pin; msg.data[1] = level ? 1 : 0; msg.data[2] = 0; return coredev->sendrequest_handler(coredev->context, &msg, sizeof(msg)); } /* new GPIO management implementation */ static int GetGpioPinParams(u32 PinNum, u32 *pTranslatedPinNum, u32 *pGroupNum, u32 *pGroupCfg) { *pGroupCfg = 1; if (PinNum <= 1) { *pTranslatedPinNum = 0; *pGroupNum = 9; *pGroupCfg = 2; } else if (PinNum >= 2 && PinNum <= 6) { *pTranslatedPinNum = 2; *pGroupNum = 0; *pGroupCfg = 2; } else if (PinNum >= 7 && PinNum <= 11) { *pTranslatedPinNum = 7; *pGroupNum = 1; } else if (PinNum >= 12 && PinNum <= 15) { *pTranslatedPinNum = 12; *pGroupNum = 2; *pGroupCfg = 3; } else if (PinNum == 16) { *pTranslatedPinNum = 16; *pGroupNum = 23; } else if (PinNum >= 17 && PinNum <= 24) { *pTranslatedPinNum = 17; *pGroupNum = 3; } else if (PinNum == 25) { *pTranslatedPinNum = 25; *pGroupNum = 6; } else if (PinNum >= 26 && PinNum <= 28) { *pTranslatedPinNum = 26; *pGroupNum = 4; } else if (PinNum == 29) { *pTranslatedPinNum = 29; *pGroupNum = 5; *pGroupCfg = 2; } else if (PinNum == 30) { *pTranslatedPinNum = 30; *pGroupNum = 8; } else if (PinNum == 31) { *pTranslatedPinNum = 31; *pGroupNum = 17; } else return -1; *pGroupCfg <<= 24; return 0; } int smscore_gpio_configure(struct smscore_device_t *coredev, u8 PinNum, struct smscore_gpio_config *pGpioConfig) { u32 totalLen; u32 TranslatedPinNum = 0; u32 GroupNum = 0; u32 ElectricChar; u32 groupCfg; void *buffer; int rc; struct SetGpioMsg { struct SmsMsgHdr_ST xMsgHeader; u32 msgData[6]; } *pMsg; if (PinNum > MAX_GPIO_PIN_NUMBER) return -EINVAL; if (pGpioConfig == NULL) return -EINVAL; totalLen = sizeof(struct SmsMsgHdr_ST) + (sizeof(u32) * 6); buffer = kmalloc(totalLen + SMS_DMA_ALIGNMENT, GFP_KERNEL | GFP_DMA); if (!buffer) return -ENOMEM; pMsg = (struct SetGpioMsg *) SMS_ALIGN_ADDRESS(buffer); pMsg->xMsgHeader.msgSrcId = DVBT_BDA_CONTROL_MSG_ID; pMsg->xMsgHeader.msgDstId = HIF_TASK; pMsg->xMsgHeader.msgFlags = 0; pMsg->xMsgHeader.msgLength = (u16) totalLen; pMsg->msgData[0] = PinNum; if (!(coredev->device_flags & SMS_DEVICE_FAMILY2)) { pMsg->xMsgHeader.msgType = MSG_SMS_GPIO_CONFIG_REQ; if (GetGpioPinParams(PinNum, &TranslatedPinNum, &GroupNum, &groupCfg) != 0) { rc = -EINVAL; goto free; } pMsg->msgData[1] = TranslatedPinNum; pMsg->msgData[2] = GroupNum; ElectricChar = (pGpioConfig->PullUpDown) | (pGpioConfig->InputCharacteristics << 2) | (pGpioConfig->OutputSlewRate << 3) | (pGpioConfig->OutputDriving << 4); pMsg->msgData[3] = ElectricChar; pMsg->msgData[4] = pGpioConfig->Direction; pMsg->msgData[5] = groupCfg; } else { pMsg->xMsgHeader.msgType = MSG_SMS_GPIO_CONFIG_EX_REQ; pMsg->msgData[1] = pGpioConfig->PullUpDown; pMsg->msgData[2] = pGpioConfig->OutputSlewRate; pMsg->msgData[3] = pGpioConfig->OutputDriving; pMsg->msgData[4] = pGpioConfig->Direction; pMsg->msgData[5] = 0; } smsendian_handle_tx_message((struct SmsMsgHdr_ST *)pMsg); rc = smscore_sendrequest_and_wait(coredev, pMsg, totalLen, &coredev->gpio_configuration_done); if (rc != 0) { if (rc == -ETIME) sms_err("smscore_gpio_configure timeout"); else sms_err("smscore_gpio_configure error"); } free: kfree(buffer); return rc; } int smscore_gpio_set_level(struct smscore_device_t *coredev, u8 PinNum, u8 NewLevel) { u32 totalLen; int rc; void *buffer; struct SetGpioMsg { struct SmsMsgHdr_ST xMsgHeader; u32 msgData[3]; /* keep it 3 ! */ } *pMsg; if ((NewLevel > 1) || (PinNum > MAX_GPIO_PIN_NUMBER)) return -EINVAL; totalLen = sizeof(struct SmsMsgHdr_ST) + (3 * sizeof(u32)); /* keep it 3 ! */ buffer = kmalloc(totalLen + SMS_DMA_ALIGNMENT, GFP_KERNEL | GFP_DMA); if (!buffer) return -ENOMEM; pMsg = (struct SetGpioMsg *) SMS_ALIGN_ADDRESS(buffer); pMsg->xMsgHeader.msgSrcId = DVBT_BDA_CONTROL_MSG_ID; pMsg->xMsgHeader.msgDstId = HIF_TASK; pMsg->xMsgHeader.msgFlags = 0; pMsg->xMsgHeader.msgType = MSG_SMS_GPIO_SET_LEVEL_REQ; pMsg->xMsgHeader.msgLength = (u16) totalLen; pMsg->msgData[0] = PinNum; pMsg->msgData[1] = NewLevel; /* Send message to SMS */ smsendian_handle_tx_message((struct SmsMsgHdr_ST *)pMsg); rc = smscore_sendrequest_and_wait(coredev, pMsg, totalLen, &coredev->gpio_set_level_done); if (rc != 0) { if (rc == -ETIME) sms_err("smscore_gpio_set_level timeout"); else sms_err("smscore_gpio_set_level error"); } kfree(buffer); return rc; } int smscore_gpio_get_level(struct smscore_device_t *coredev, u8 PinNum, u8 *level) { u32 totalLen; int rc; void *buffer; struct SetGpioMsg { struct SmsMsgHdr_ST xMsgHeader; u32 msgData[2]; } *pMsg; if (PinNum > MAX_GPIO_PIN_NUMBER) return -EINVAL; totalLen = sizeof(struct SmsMsgHdr_ST) + (2 * sizeof(u32)); buffer = kmalloc(totalLen + SMS_DMA_ALIGNMENT, GFP_KERNEL | GFP_DMA); if (!buffer) return -ENOMEM; pMsg = (struct SetGpioMsg *) SMS_ALIGN_ADDRESS(buffer); pMsg->xMsgHeader.msgSrcId = DVBT_BDA_CONTROL_MSG_ID; pMsg->xMsgHeader.msgDstId = HIF_TASK; pMsg->xMsgHeader.msgFlags = 0; pMsg->xMsgHeader.msgType = MSG_SMS_GPIO_GET_LEVEL_REQ; pMsg->xMsgHeader.msgLength = (u16) totalLen; pMsg->msgData[0] = PinNum; pMsg->msgData[1] = 0; /* Send message to SMS */ smsendian_handle_tx_message((struct SmsMsgHdr_ST *)pMsg); rc = smscore_sendrequest_and_wait(coredev, pMsg, totalLen, &coredev->gpio_get_level_done); if (rc != 0) { if (rc == -ETIME) sms_err("smscore_gpio_get_level timeout"); else sms_err("smscore_gpio_get_level error"); } kfree(buffer); /* Its a race between other gpio_get_level() and the copy of the single * global 'coredev->gpio_get_res' to the function's variable 'level' */ *level = coredev->gpio_get_res; return rc; } static int __init smscore_module_init(void) { int rc = 0; INIT_LIST_HEAD(&g_smscore_notifyees); INIT_LIST_HEAD(&g_smscore_devices); kmutex_init(&g_smscore_deviceslock); INIT_LIST_HEAD(&g_smscore_registry); kmutex_init(&g_smscore_registrylock); return rc; } static void __exit smscore_module_exit(void) { kmutex_lock(&g_smscore_deviceslock); while (!list_empty(&g_smscore_notifyees)) { struct smscore_device_notifyee_t *notifyee = (struct smscore_device_notifyee_t *) g_smscore_notifyees.next; list_del(¬ifyee->entry); kfree(notifyee); } kmutex_unlock(&g_smscore_deviceslock); kmutex_lock(&g_smscore_registrylock); while (!list_empty(&g_smscore_registry)) { struct smscore_registry_entry_t *entry = (struct smscore_registry_entry_t *) g_smscore_registry.next; list_del(&entry->entry); kfree(entry); } kmutex_unlock(&g_smscore_registrylock); sms_debug(""); } module_init(smscore_module_init); module_exit(smscore_module_exit); MODULE_DESCRIPTION("Siano MDTV Core module"); MODULE_AUTHOR("Siano Mobile Silicon, Inc. (uris@siano-ms.com)"); MODULE_LICENSE("GPL");