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gb_operation_response_send(struct gb_operation *operation, int errno); /* * Increment operation active count and add to connection list unless the * connection is going away. * * Caller holds operation reference. */ static int gb_operation_get_active(struct gb_operation *operation) { struct gb_connection *connection = operation->connection; unsigned long flags; spin_lock_irqsave(&connection->lock, flags); switch (connection->state) { case GB_CONNECTION_STATE_ENABLED: break; case GB_CONNECTION_STATE_ENABLED_TX: if (gb_operation_is_incoming(operation)) goto err_unlock; break; case GB_CONNECTION_STATE_DISCONNECTING: if (!gb_operation_is_core(operation)) goto err_unlock; break; default: goto err_unlock; } if (operation->active++ == 0) list_add_tail(&operation->links, &connection->operations); trace_gb_operation_get_active(operation); spin_unlock_irqrestore(&connection->lock, flags); return 0; err_unlock: spin_unlock_irqrestore(&connection->lock, flags); return -ENOTCONN; } /* Caller holds operation reference. */ static void gb_operation_put_active(struct gb_operation *operation) { struct gb_connection *connection = operation->connection; unsigned long flags; spin_lock_irqsave(&connection->lock, flags); trace_gb_operation_put_active(operation); if (--operation->active == 0) { list_del(&operation->links); if (atomic_read(&operation->waiters)) wake_up(&gb_operation_cancellation_queue); } spin_unlock_irqrestore(&connection->lock, flags); } static bool gb_operation_is_active(struct gb_operation *operation) { struct gb_connection *connection = operation->connection; unsigned long flags; bool ret; spin_lock_irqsave(&connection->lock, flags); ret = operation->active; spin_unlock_irqrestore(&connection->lock, flags); return ret; } /* * Set an operation's result. * * Initially an outgoing operation's errno value is -EBADR. * If no error occurs before sending the request message the only * valid value operation->errno can be set to is -EINPROGRESS, * indicating the request has been (or rather is about to be) sent. * At that point nobody should be looking at the result until the * response arrives. * * The first time the result gets set after the request has been * sent, that result "sticks." That is, if two concurrent threads * race to set the result, the first one wins. The return value * tells the caller whether its result was recorded; if not the * caller has nothing more to do. * * The result value -EILSEQ is reserved to signal an implementation * error; if it's ever observed, the code performing the request has * done something fundamentally wrong. It is an error to try to set * the result to -EBADR, and attempts to do so result in a warning, * and -EILSEQ is used instead. Similarly, the only valid result * value to set for an operation in initial state is -EINPROGRESS. * Attempts to do otherwise will also record a (successful) -EILSEQ * operation result. */ static bool gb_operation_result_set(struct gb_operation *operation, int result) { unsigned long flags; int prev; if (result == -EINPROGRESS) { /* * -EINPROGRESS is used to indicate the request is * in flight. It should be the first result value * set after the initial -EBADR. Issue a warning * and record an implementation error if it's * set at any other time. */ spin_lock_irqsave(&gb_operations_lock, flags); prev = operation->errno; if (prev == -EBADR) operation->errno = result; else operation->errno = -EILSEQ; spin_unlock_irqrestore(&gb_operations_lock, flags); WARN_ON(prev != -EBADR); return true; } /* * The first result value set after a request has been sent * will be the final result of the operation. Subsequent * attempts to set the result are ignored. * * Note that -EBADR is a reserved "initial state" result * value. Attempts to set this value result in a warning, * and the result code is set to -EILSEQ instead. */ if (WARN_ON(result == -EBADR)) result = -EILSEQ; /* Nobody should be setting -EBADR */ spin_lock_irqsave(&gb_operations_lock, flags); prev = operation->errno; if (prev == -EINPROGRESS) operation->errno = result; /* First and final result */ spin_unlock_irqrestore(&gb_operations_lock, flags); return prev == -EINPROGRESS; } int gb_operation_result(struct gb_operation *operation) { int result = operation->errno; WARN_ON(result == -EBADR); WARN_ON(result == -EINPROGRESS); return result; } EXPORT_SYMBOL_GPL(gb_operation_result); /* * Looks up an outgoing operation on a connection and returns a refcounted * pointer if found, or NULL otherwise. */ static struct gb_operation * gb_operation_find_outgoing(struct gb_connection *connection, u16 operation_id) { struct gb_operation *operation; unsigned long flags; bool found = false; spin_lock_irqsave(&connection->lock, flags); list_for_each_entry(operation, &connection->operations, links) if (operation->id == operation_id && !gb_operation_is_incoming(operation)) { gb_operation_get(operation); found = true; break; } spin_unlock_irqrestore(&connection->lock, flags); return found ? operation : NULL; } static int gb_message_send(struct gb_message *message, gfp_t gfp) { struct gb_connection *connection = message->operation->connection; trace_gb_message_send(message); return connection->hd->driver->message_send(connection->hd, connection->hd_cport_id, message, gfp); } /* * Cancel a message we have passed to the host device layer to be sent. */ static void gb_message_cancel(struct gb_message *message) { struct gb_host_device *hd = message->operation->connection->hd; hd->driver->message_cancel(message); } static void gb_operation_request_handle(struct gb_operation *operation) { struct gb_connection *connection = operation->connection; int status; int ret; if (connection->handler) { status = connection->handler(operation); } else { dev_err(&connection->hd->dev, "%s: unexpected incoming request of type 0x%02x\n", connection->name, operation->type); status = -EPROTONOSUPPORT; } ret = gb_operation_response_send(operation, status); if (ret) { dev_err(&connection->hd->dev, "%s: failed to send response %d for type 0x%02x: %d\n", connection->name, status, operation->type, ret); return; } } /* * Process operation work. * * For incoming requests, call the protocol request handler. The operation * result should be -EINPROGRESS at this point. * * For outgoing requests, the operation result value should have * been set before queueing this. The operation callback function * allows the original requester to know the request has completed * and its result is available. */ static void gb_operation_work(struct work_struct *work) { struct gb_operation *operation; int ret; operation = container_of(work, struct gb_operation, work); if (gb_operation_is_incoming(operation)) { gb_operation_request_handle(operation); } else { ret = del_timer_sync(&operation->timer); if (!ret) { /* Cancel request message if scheduled by timeout. */ if (gb_operation_result(operation) == -ETIMEDOUT) gb_message_cancel(operation->request); } operation->callback(operation); } gb_operation_put_active(operation); gb_operation_put(operation); } static void gb_operation_timeout(struct timer_list *t) { struct gb_operation *operation = from_timer(operation, t, timer); if (gb_operation_result_set(operation, -ETIMEDOUT)) { /* * A stuck request message will be cancelled from the * workqueue. */ queue_work(gb_operation_completion_wq, &operation->work); } } static void gb_operation_message_init(struct gb_host_device *hd, struct gb_message *message, u16 operation_id, size_t payload_size, u8 type) { struct gb_operation_msg_hdr *header; header = message->buffer; message->header = header; message->payload = payload_size ? header + 1 : NULL; message->payload_size = payload_size; /* * The type supplied for incoming message buffers will be * GB_REQUEST_TYPE_INVALID. Such buffers will be overwritten by * arriving data so there's no need to initialize the message header. */ if (type != GB_REQUEST_TYPE_INVALID) { u16 message_size = (u16)(sizeof(*header) + payload_size); /* * For a request, the operation id gets filled in * when the message is sent. For a response, it * will be copied from the request by the caller. * * The result field in a request message must be * zero. It will be set just prior to sending for * a response. */ header->size = cpu_to_le16(message_size); header->operation_id = 0; header->type = type; header->result = 0; } } /* * Allocate a message to be used for an operation request or response. * Both types of message contain a common header. The request message * for an outgoing operation is outbound, as is the response message * for an incoming operation. The message header for an outbound * message is partially initialized here. * * The headers for inbound messages don't need to be initialized; * they'll be filled in by arriving data. * * Our message buffers have the following layout: * message header \_ these combined are * message payload / the message size */ static struct gb_message * gb_operation_message_alloc(struct gb_host_device *hd, u8 type, size_t payload_size, gfp_t gfp_flags) { struct gb_message *message; struct gb_operation_msg_hdr *header; size_t message_size = payload_size + sizeof(*header); if (message_size > hd->buffer_size_max) { dev_warn(&hd->dev, "requested message size too big (%zu > %zu)\n", message_size, hd->buffer_size_max); return NULL; } /* Allocate the message structure and buffer. */ message = kmem_cache_zalloc(gb_message_cache, gfp_flags); if (!message) return NULL; message->buffer = kzalloc(message_size, gfp_flags); if (!message->buffer) goto err_free_message; /* Initialize the message. Operation id is filled in later. */ gb_operation_message_init(hd, message, 0, payload_size, type); return message; err_free_message: kmem_cache_free(gb_message_cache, message); return NULL; } static void gb_operation_message_free(struct gb_message *message) { kfree(message->buffer); kmem_cache_free(gb_message_cache, message); } /* * Map an enum gb_operation_status value (which is represented in a * message as a single byte) to an appropriate Linux negative errno. */ static int gb_operation_status_map(u8 status) { switch (status) { case GB_OP_SUCCESS: return 0; case GB_OP_INTERRUPTED: return -EINTR; case GB_OP_TIMEOUT: return -ETIMEDOUT; case GB_OP_NO_MEMORY: return -ENOMEM; case GB_OP_PROTOCOL_BAD: return -EPROTONOSUPPORT; case GB_OP_OVERFLOW: return -EMSGSIZE; case GB_OP_INVALID: return -EINVAL; case GB_OP_RETRY: return -EAGAIN; case GB_OP_NONEXISTENT: return -ENODEV; case GB_OP_MALFUNCTION: return -EILSEQ; case GB_OP_UNKNOWN_ERROR: default: return -EIO; } } /* * Map a Linux errno value (from operation->errno) into the value * that should represent it in a response message status sent * over the wire. Returns an enum gb_operation_status value (which * is represented in a message as a single byte). */ static u8 gb_operation_errno_map(int errno) { switch (errno) { case 0: return GB_OP_SUCCESS; case -EINTR: return GB_OP_INTERRUPTED; case -ETIMEDOUT: return GB_OP_TIMEOUT; case -ENOMEM: return GB_OP_NO_MEMORY; case -EPROTONOSUPPORT: return GB_OP_PROTOCOL_BAD; case -EMSGSIZE: return GB_OP_OVERFLOW; /* Could be underflow too */ case -EINVAL: return GB_OP_INVALID; case -EAGAIN: return GB_OP_RETRY; case -EILSEQ: return GB_OP_MALFUNCTION; case -ENODEV: return GB_OP_NONEXISTENT; case -EIO: default: return GB_OP_UNKNOWN_ERROR; } } bool gb_operation_response_alloc(struct gb_operation *operation, size_t response_size, gfp_t gfp) { struct gb_host_device *hd = operation->connection->hd; struct gb_operation_msg_hdr *request_header; struct gb_message *response; u8 type; type = operation->type | GB_MESSAGE_TYPE_RESPONSE; response = gb_operation_message_alloc(hd, type, response_size, gfp); if (!response) return false; response->operation = operation; /* * Size and type get initialized when the message is * allocated. The errno will be set before sending. All * that's left is the operation id, which we copy from the * request message header (as-is, in little-endian order). */ request_header = operation->request->header; response->header->operation_id = request_header->operation_id; operation->response = response; return true; } EXPORT_SYMBOL_GPL(gb_operation_response_alloc); /* * Create a Greybus operation to be sent over the given connection. * The request buffer will be big enough for a payload of the given * size. * * For outgoing requests, the request message's header will be * initialized with the type of the request and the message size. * Outgoing operations must also specify the response buffer size, * which must be sufficient to hold all expected response data. The * response message header will eventually be overwritten, so there's * no need to initialize it here. * * Request messages for incoming operations can arrive in interrupt * context, so they must be allocated with GFP_ATOMIC. In this case * the request buffer will be immediately overwritten, so there is * no need to initialize the message header. Responsibility for * allocating a response buffer lies with the incoming request * handler for a protocol. So we don't allocate that here. * * Returns a pointer to the new operation or a null pointer if an * error occurs. */ static struct gb_operation * gb_operation_create_common(struct gb_connection *connection, u8 type, size_t request_size, size_t response_size, unsigned long op_flags, gfp_t gfp_flags) { struct gb_host_device *hd = connection->hd; struct gb_operation *operation; operation = kmem_cache_zalloc(gb_operation_cache, gfp_flags); if (!operation) return NULL; operation->connection = connection; operation->request = gb_operation_message_alloc(hd, type, request_size, gfp_flags); if (!operation->request) goto err_cache; operation->request->operation = operation; /* Allocate the response buffer for outgoing operations */ if (!(op_flags & GB_OPERATION_FLAG_INCOMING)) { if (!gb_operation_response_alloc(operation, response_size, gfp_flags)) { goto err_request; } timer_setup(&operation->timer, gb_operation_timeout, 0); } operation->flags = op_flags; operation->type = type; operation->errno = -EBADR; /* Initial value--means "never set" */ INIT_WORK(&operation->work, gb_operation_work); init_completion(&operation->completion); kref_init(&operation->kref); atomic_set(&operation->waiters, 0); return operation; err_request: gb_operation_message_free(operation->request); err_cache: kmem_cache_free(gb_operation_cache, operation); return NULL; } /* * Create a new operation associated with the given connection. The * request and response sizes provided are the number of bytes * required to hold the request/response payload only. Both of * these are allowed to be 0. Note that 0x00 is reserved as an * invalid operation type for all protocols, and this is enforced * here. */ struct gb_operation * gb_operation_create_flags(struct gb_connection *connection, u8 type, size_t request_size, size_t response_size, unsigned long flags, gfp_t gfp) { struct gb_operation *operation; if (WARN_ON_ONCE(type == GB_REQUEST_TYPE_INVALID)) return NULL; if (WARN_ON_ONCE(type & GB_MESSAGE_TYPE_RESPONSE)) type &= ~GB_MESSAGE_TYPE_RESPONSE; if (WARN_ON_ONCE(flags & ~GB_OPERATION_FLAG_USER_MASK)) flags &= GB_OPERATION_FLAG_USER_MASK; operation = gb_operation_create_common(connection, type, request_size, response_size, flags, gfp); if (operation) trace_gb_operation_create(operation); return operation; } EXPORT_SYMBOL_GPL(gb_operation_create_flags); struct gb_operation * gb_operation_create_core(struct gb_connection *connection, u8 type, size_t request_size, size_t response_size, unsigned long flags, gfp_t gfp) { struct gb_operation *operation; flags |= GB_OPERATION_FLAG_CORE; operation = gb_operation_create_common(connection, type, request_size, response_size, flags, gfp); if (operation) trace_gb_operation_create_core(operation); return operation; } /* Do not export this function. */ size_t gb_operation_get_payload_size_max(struct gb_connection *connection) { struct gb_host_device *hd = connection->hd; return hd->buffer_size_max - sizeof(struct gb_operation_msg_hdr); } EXPORT_SYMBOL_GPL(gb_operation_get_payload_size_max); static struct gb_operation * gb_operation_create_incoming(struct gb_connection *connection, u16 id, u8 type, void *data, size_t size) { struct gb_operation *operation; size_t request_size; unsigned long flags = GB_OPERATION_FLAG_INCOMING; /* Caller has made sure we at least have a message header. */ request_size = size - sizeof(struct gb_operation_msg_hdr); if (!id) flags |= GB_OPERATION_FLAG_UNIDIRECTIONAL; operation = gb_operation_create_common(connection, type, request_size, GB_REQUEST_TYPE_INVALID, flags, GFP_ATOMIC); if (!operation) return NULL; operation->id = id; memcpy(operation->request->header, data, size); trace_gb_operation_create_incoming(operation); return operation; } /* * Get an additional reference on an operation. */ void gb_operation_get(struct gb_operation *operation) { kref_get(&operation->kref); } EXPORT_SYMBOL_GPL(gb_operation_get); /* * Destroy a previously created operation. */ static void _gb_operation_destroy(struct kref *kref) { struct gb_operation *operation; operation = container_of(kref, struct gb_operation, kref); trace_gb_operation_destroy(operation); if (operation->response) gb_operation_message_free(operation->response); gb_operation_message_free(operation->request); kmem_cache_free(gb_operation_cache, operation); } /* * Drop a reference on an operation, and destroy it when the last * one is gone. */ void gb_operation_put(struct gb_operation *operation) { if (WARN_ON(!operation)) return; kref_put(&operation->kref, _gb_operation_destroy); } EXPORT_SYMBOL_GPL(gb_operation_put); /* Tell the requester we're done */ static void gb_operation_sync_callback(struct gb_operation *operation) { complete(&operation->completion); } /** * gb_operation_request_send() - send an operation request message * @operation: the operation to initiate * @callback: the operation completion callback * @timeout: operation timeout in milliseconds, or zero for no timeout * @gfp: the memory flags to use for any allocations * * The caller has filled in any payload so the request message is ready to go. * The callback function supplied will be called when the response message has * arrived, a unidirectional request has been sent, or the operation is * cancelled, indicating that the operation is complete. The callback function * can fetch the result of the operation using gb_operation_result() if * desired. * * Return: 0 if the request was successfully queued in the host-driver queues, * or a negative errno. */ int gb_operation_request_send(struct gb_operation *operation, gb_operation_callback callback, unsigned int timeout, gfp_t gfp) { struct gb_connection *connection = operation->connection; struct gb_operation_msg_hdr *header; unsigned int cycle; int ret; if (gb_connection_is_offloaded(connection)) return -EBUSY; if (!callback) return -EINVAL; /* * Record the callback function, which is executed in * non-atomic (workqueue) context when the final result * of an operation has been set. */ operation->callback = callback; /* * Assign the operation's id, and store it in the request header. * Zero is a reserved operation id for unidirectional operations. */ if (gb_operation_is_unidirectional(operation)) { operation->id = 0; } else { cycle = (unsigned int)atomic_inc_return(&connection->op_cycle); operation->id = (u16)(cycle % U16_MAX + 1); } header = operation->request->header; header->operation_id = cpu_to_le16(operation->id); gb_operation_result_set(operation, -EINPROGRESS); /* * Get an extra reference on the operation. It'll be dropped when the * operation completes. */ gb_operation_get(operation); ret = gb_operation_get_active(operation); if (ret) goto err_put; ret = gb_message_send(operation->request, gfp); if (ret) goto err_put_active; if (timeout) { operation->timer.expires = jiffies + msecs_to_jiffies(timeout); add_timer(&operation->timer); } return 0; err_put_active: gb_operation_put_active(operation); err_put: gb_operation_put(operation); return ret; } EXPORT_SYMBOL_GPL(gb_operation_request_send); /* * Send a synchronous operation. This function is expected to * block, returning only when the response has arrived, (or when an * error is detected. The return value is the result of the * operation. */ int gb_operation_request_send_sync_timeout(struct gb_operation *operation, unsigned int timeout) { int ret; ret = gb_operation_request_send(operation, gb_operation_sync_callback, timeout, GFP_KERNEL); if (ret) return ret; ret = wait_for_completion_interruptible(&operation->completion); if (ret < 0) { /* Cancel the operation if interrupted */ gb_operation_cancel(operation, -ECANCELED); } return gb_operation_result(operation); } EXPORT_SYMBOL_GPL(gb_operation_request_send_sync_timeout); /* * Send a response for an incoming operation request. A non-zero * errno indicates a failed operation. * * If there is any response payload, the incoming request handler is * responsible for allocating the response message. Otherwise the * it can simply supply the result errno; this function will * allocate the response message if necessary. */ static int gb_operation_response_send(struct gb_operation *operation, int errno) { struct gb_connection *connection = operation->connection; int ret; if (!operation->response && !gb_operation_is_unidirectional(operation)) { if (!gb_operation_response_alloc(operation, 0, GFP_KERNEL)) return -ENOMEM; } /* Record the result */ if (!gb_operation_result_set(operation, errno)) { dev_err(&connection->hd->dev, "request result already set\n"); return -EIO; /* Shouldn't happen */ } /* Sender of request does not care about response. */ if (gb_operation_is_unidirectional(operation)) return 0; /* Reference will be dropped when message has been sent. */ gb_operation_get(operation); ret = gb_operation_get_active(operation); if (ret) goto err_put; /* Fill in the response header and send it */ operation->response->header->result = gb_operation_errno_map(errno); ret = gb_message_send(operation->response, GFP_KERNEL); if (ret) goto err_put_active; return 0; err_put_active: gb_operation_put_active(operation); err_put: gb_operation_put(operation); return ret; } /* * This function is called when a message send request has completed. */ void greybus_message_sent(struct gb_host_device *hd, struct gb_message *message, int status) { struct gb_operation *operation = message->operation; struct gb_connection *connection = operation->connection; /* * If the message was a response, we just need to drop our * reference to the operation. If an error occurred, report * it. * * For requests, if there's no error and the operation in not * unidirectional, there's nothing more to do until the response * arrives. If an error occurred attempting to send it, or if the * operation is unidrectional, record the result of the operation and * schedule its completion. */ if (message == operation->response) { if (status) { dev_err(&connection->hd->dev, "%s: error sending response 0x%02x: %d\n", connection->name, operation->type, status); } gb_operation_put_active(operation); gb_operation_put(operation); } else if (status || gb_operation_is_unidirectional(operation)) { if (gb_operation_result_set(operation, status)) { queue_work(gb_operation_completion_wq, &operation->work); } } } EXPORT_SYMBOL_GPL(greybus_message_sent); /* * We've received data on a connection, and it doesn't look like a * response, so we assume it's a request. * * This is called in interrupt context, so just copy the incoming * data into the request buffer and handle the rest via workqueue. */ static void gb_connection_recv_request(struct gb_connection *connection, const struct gb_operation_msg_hdr *header, void *data, size_t size) { struct gb_operation *operation; u16 operation_id; u8 type; int ret; operation_id = le16_to_cpu(header->operation_id); type = header->type; operation = gb_operation_create_incoming(connection, operation_id, type, data, size); if (!operation) { dev_err(&connection->hd->dev, "%s: can't create incoming operation\n", connection->name); return; } ret = gb_operation_get_active(operation); if (ret) { gb_operation_put(operation); return; } trace_gb_message_recv_request(operation->request); /* * The initial reference to the operation will be dropped when the * request handler returns. */ if (gb_operation_result_set(operation, -EINPROGRESS)) queue_work(connection->wq, &operation->work); } /* * We've received data that appears to be an operation response * message. Look up the operation, and record that we've received * its response. * * This is called in interrupt context, so just copy the incoming * data into the response buffer and handle the rest via workqueue. */ static void gb_connection_recv_response(struct gb_connection *connection, const struct gb_operation_msg_hdr *header, void *data, size_t size) { struct gb_operation *operation; struct gb_message *message; size_t message_size; u16 operation_id; int errno; operation_id = le16_to_cpu(header->operation_id); if (!operation_id) { dev_err_ratelimited(&connection->hd->dev, "%s: invalid response id 0 received\n", connection->name); return; } operation = gb_operation_find_outgoing(connection, operation_id); if (!operation) { dev_err_ratelimited(&connection->hd->dev, "%s: unexpected response id 0x%04x received\n", connection->name, operation_id); return; } errno = gb_operation_status_map(header->result); message = operation->response; message_size = sizeof(*header) + message->payload_size; if (!errno && size > message_size) { dev_err_ratelimited(&connection->hd->dev, "%s: malformed response 0x%02x received (%zu > %zu)\n", connection->name, header->type, size, message_size); errno = -EMSGSIZE; } else if (!errno && size < message_size) { if (gb_operation_short_response_allowed(operation)) { message->payload_size = size - sizeof(*header); } else { dev_err_ratelimited(&connection->hd->dev, "%s: short response 0x%02x received (%zu < %zu)\n", connection->name, header->type, size, message_size); errno = -EMSGSIZE; } } /* We must ignore the payload if a bad status is returned */ if (errno) size = sizeof(*header); /* The rest will be handled in work queue context */ if (gb_operation_result_set(operation, errno)) { memcpy(message->buffer, data, size); trace_gb_message_recv_response(message); queue_work(gb_operation_completion_wq, &operation->work); } gb_operation_put(operation); } /* * Handle data arriving on a connection. As soon as we return the * supplied data buffer will be reused (so unless we do something * with, it's effectively dropped). */ void gb_connection_recv(struct gb_connection *connection, void *data, size_t size) { struct gb_operation_msg_hdr header; struct device *dev = &connection->hd->dev; size_t msg_size; if (connection->state == GB_CONNECTION_STATE_DISABLED || gb_connection_is_offloaded(connection)) { dev_warn_ratelimited(dev, "%s: dropping %zu received bytes\n", connection->name, size); return; } if (size < sizeof(header)) { dev_err_ratelimited(dev, "%s: short message received\n", connection->name); return; } /* Use memcpy as data may be unaligned */ memcpy(&header, data, sizeof(header)); msg_size = le16_to_cpu(header.size); if (size < msg_size) { dev_err_ratelimited(dev, "%s: incomplete message 0x%04x of type 0x%02x received (%zu < %zu)\n", connection->name, le16_to_cpu(header.operation_id), header.type, size, msg_size); return; /* XXX Should still complete operation */ } if (header.type & GB_MESSAGE_TYPE_RESPONSE) { gb_connection_recv_response(connection, &header, data, msg_size); } else { gb_connection_recv_request(connection, &header, data, msg_size); } } /* * Cancel an outgoing operation synchronously, and record the given error to * indicate why. */ void gb_operation_cancel(struct gb_operation *operation, int errno) { if (WARN_ON(gb_operation_is_incoming(operation))) return; if (gb_operation_result_set(operation, errno)) { gb_message_cancel(operation->request); queue_work(gb_operation_completion_wq, &operation->work); } trace_gb_message_cancel_outgoing(operation->request); atomic_inc(&operation->waiters); wait_event(gb_operation_cancellation_queue, !gb_operation_is_active(operation)); atomic_dec(&operation->waiters); } EXPORT_SYMBOL_GPL(gb_operation_cancel); /* * Cancel an incoming operation synchronously. Called during connection tear * down. */ void gb_operation_cancel_incoming(struct gb_operation *operation, int errno) { if (WARN_ON(!gb_operation_is_incoming(operation))) return; if (!gb_operation_is_unidirectional(operation)) { /* * Make sure the request handler has submitted the response * before cancelling it. */ flush_work(&operation->work); if (!gb_operation_result_set(operation, errno)) gb_message_cancel(operation->response); } trace_gb_message_cancel_incoming(operation->response); atomic_inc(&operation->waiters); wait_event(gb_operation_cancellation_queue, !gb_operation_is_active(operation)); atomic_dec(&operation->waiters); } /** * gb_operation_sync_timeout() - implement a "simple" synchronous operation * @connection: the Greybus connection to send this to * @type: the type of operation to send * @request: pointer to a memory buffer to copy the request from * @request_size: size of @request * @response: pointer to a memory buffer to copy the response to * @response_size: the size of @response. * @timeout: operation timeout in milliseconds * * This function implements a simple synchronous Greybus operation. It sends * the provided operation request and waits (sleeps) until the corresponding * operation response message has been successfully received, or an error * occurs. @request and @response are buffers to hold the request and response * data respectively, and if they are not NULL, their size must be specified in * @request_size and @response_size. * * If a response payload is to come back, and @response is not NULL, * @response_size number of bytes will be copied into @response if the operation * is successful. * * If there is an error, the response buffer is left alone. */ int gb_operation_sync_timeout(struct gb_connection *connection, int type, void *request, int request_size, void *response, int response_size, unsigned int timeout) { struct gb_operation *operation; int ret; if ((response_size && !response) || (request_size && !request)) return -EINVAL; operation = gb_operation_create(connection, type, request_size, response_size, GFP_KERNEL); if (!operation) return -ENOMEM; if (request_size) memcpy(operation->request->payload, request, request_size); ret = gb_operation_request_send_sync_timeout(operation, timeout); if (ret) { dev_err(&connection->hd->dev, "%s: synchronous operation id 0x%04x of type 0x%02x failed: %d\n", connection->name, operation->id, type, ret); } else { if (response_size) { memcpy(response, operation->response->payload, response_size); } } gb_operation_put(operation); return ret; } EXPORT_SYMBOL_GPL(gb_operation_sync_timeout); /** * gb_operation_unidirectional_timeout() - initiate a unidirectional operation * @connection: connection to use * @type: type of operation to send * @request: memory buffer to copy the request from * @request_size: size of @request * @timeout: send timeout in milliseconds * * Initiate a unidirectional operation by sending a request message and * waiting for it to be acknowledged as sent by the host device. * * Note that successful send of a unidirectional operation does not imply that * the request as actually reached the remote end of the connection. */ int gb_operation_unidirectional_timeout(struct gb_connection *connection, int type, void *request, int request_size, unsigned int timeout) { struct gb_operation *operation; int ret; if (request_size && !request) return -EINVAL; operation = gb_operation_create_flags(connection, type, request_size, 0, GB_OPERATION_FLAG_UNIDIRECTIONAL, GFP_KERNEL); if (!operation) return -ENOMEM; if (request_size) memcpy(operation->request->payload, request, request_size); ret = gb_operation_request_send_sync_timeout(operation, timeout); if (ret) { dev_err(&connection->hd->dev, "%s: unidirectional operation of type 0x%02x failed: %d\n", connection->name, type, ret); } gb_operation_put(operation); return ret; } EXPORT_SYMBOL_GPL(gb_operation_unidirectional_timeout); int __init gb_operation_init(void) { gb_message_cache = kmem_cache_create("gb_message_cache", sizeof(struct gb_message), 0, 0, NULL); if (!gb_message_cache) return -ENOMEM; gb_operation_cache = kmem_cache_create("gb_operation_cache", sizeof(struct gb_operation), 0, 0, NULL); if (!gb_operation_cache) goto err_destroy_message_cache; gb_operation_completion_wq = alloc_workqueue("greybus_completion", 0, 0); if (!gb_operation_completion_wq) goto err_destroy_operation_cache; return 0; err_destroy_operation_cache: kmem_cache_destroy(gb_operation_cache); gb_operation_cache = NULL; err_destroy_message_cache: kmem_cache_destroy(gb_message_cache); gb_message_cache = NULL; return -ENOMEM; } void gb_operation_exit(void) { destroy_workqueue(gb_operation_completion_wq); gb_operation_completion_wq = NULL; kmem_cache_destroy(gb_operation_cache); gb_operation_cache = NULL; kmem_cache_destroy(gb_message_cache); gb_message_cache = NULL; } |