/**************************************************************************/ /* */ /* Copyright (c) Microsoft Corporation. All rights reserved. */ /* */ /* This software is licensed under the Microsoft Software License */ /* Terms for Microsoft Azure RTOS. Full text of the license can be */ /* found in the LICENSE file at https://aka.ms/AzureRTOS_EULA */ /* and in the root directory of this software. */ /* */ /**************************************************************************/ /**************************************************************************/ /**************************************************************************/ /** */ /** NetX Component */ /** */ /** Transmission Control Protocol (TCP) */ /** */ /**************************************************************************/ /**************************************************************************/ #define NX_SOURCE_CODE /* Include necessary system files. */ #include "nx_api.h" #include "tx_thread.h" #include "tx_timer.h" #include "nx_ip.h" #include "nx_tcp.h" /**************************************************************************/ /* */ /* FUNCTION RELEASE */ /* */ /* _nx_tcp_connect_cleanup PORTABLE C */ /* 6.1 */ /* AUTHOR */ /* */ /* Yuxin Zhou, Microsoft Corporation */ /* */ /* DESCRIPTION */ /* */ /* This function processes TCP connect timeout and thread terminate */ /* actions that require the TCP socket data structures to be cleaned */ /* up. */ /* */ /* INPUT */ /* */ /* thread_ptr Pointer to suspended thread's */ /* control block */ /* */ /* OUTPUT */ /* */ /* None */ /* */ /* CALLS */ /* */ /* tx_event_flags_set Set event flag */ /* _tx_thread_system_resume Resume thread service */ /* */ /* CALLED BY */ /* */ /* _nx_tcp_deferred_cleanup_check Deferred cleanup processing */ /* _nx_tcp_socket_connection_reset Socket reset processing */ /* _nx_tcp_socket_disconnect Socket disconnect processing */ /* _tx_thread_timeout Thread timeout processing */ /* _tx_thread_terminate Thread terminate processing */ /* */ /* RELEASE HISTORY */ /* */ /* DATE NAME DESCRIPTION */ /* */ /* 05-19-2020 Yuxin Zhou Initial Version 6.0 */ /* 09-30-2020 Yuxin Zhou Modified comment(s), */ /* resulting in version 6.1 */ /* */ /**************************************************************************/ VOID _nx_tcp_connect_cleanup(TX_THREAD *thread_ptr NX_CLEANUP_PARAMETER) { TX_INTERRUPT_SAVE_AREA NX_IP *ip_ptr; NX_TCP_SOCKET *socket_ptr; /* Working socket pointer */ NX_CLEANUP_EXTENSION /* Disable interrupts. */ TX_DISABLE /* Setup pointer to TCP socket control block. */ socket_ptr = (NX_TCP_SOCKET *)thread_ptr -> tx_thread_suspend_control_block; /* Determine if the socket pointer is valid. */ if ((!socket_ptr) || (socket_ptr -> nx_tcp_socket_id != NX_TCP_ID)) { /* Restore interrupts. */ TX_RESTORE return; } /* Determine if the cleanup is still required. */ if (!(thread_ptr -> tx_thread_suspend_cleanup)) { /* Restore interrupts. */ TX_RESTORE return; } /* Pickup the IP pointer. */ ip_ptr = socket_ptr -> nx_tcp_socket_ip_ptr; /* Determine if the caller is an ISR or the system timer thread. */ #ifndef TX_TIMER_PROCESS_IN_ISR if ((TX_THREAD_GET_SYSTEM_STATE()) || (_tx_thread_current_ptr == &_tx_timer_thread)) #else if (TX_THREAD_GET_SYSTEM_STATE()) #endif { /* Yes, defer the processing to the NetX IP thread. */ /* Yes, change the suspend cleanup routine to indicate the cleanup is deferred. */ thread_ptr -> tx_thread_suspend_cleanup = _nx_tcp_cleanup_deferred; /* Restore interrupts. */ TX_RESTORE /* Set the deferred cleanup flag for the IP thread. */ tx_event_flags_set(&(ip_ptr -> nx_ip_events), NX_IP_TCP_CLEANUP_DEFERRED, TX_OR); /* Return to caller. */ return; } else { /* Yes, we still have thread suspension! */ /* Clear the suspension cleanup flag. */ thread_ptr -> tx_thread_suspend_cleanup = TX_NULL; /* Clear the suspension pointer. */ socket_ptr -> nx_tcp_socket_connect_suspended_thread = NX_NULL; /* Clear the timeout. */ socket_ptr -> nx_tcp_socket_timeout = 0; /* Return to the proper socket state. */ if (socket_ptr -> nx_tcp_socket_client_type) { /* If trace is enabled, insert this event into the trace buffer. */ NX_TRACE_IN_LINE_INSERT(NX_TRACE_INTERNAL_TCP_STATE_CHANGE, ip_ptr, socket_ptr, socket_ptr -> nx_tcp_socket_state, NX_TCP_CLOSED, NX_TRACE_INTERNAL_EVENTS, 0, 0); /* Client socket, return to a CLOSED state. */ socket_ptr -> nx_tcp_socket_state = NX_TCP_CLOSED; } else { /* If trace is enabled, insert this event into the trace buffer. */ NX_TRACE_IN_LINE_INSERT(NX_TRACE_INTERNAL_TCP_STATE_CHANGE, ip_ptr, socket_ptr, socket_ptr -> nx_tcp_socket_state, NX_TCP_LISTEN_STATE, NX_TRACE_INTERNAL_EVENTS, 0, 0); /* Server socket, return to LISTEN state. */ socket_ptr -> nx_tcp_socket_state = NX_TCP_LISTEN_STATE; /* Move back the acknowledgment number just in case there is a retry. */ socket_ptr -> nx_tcp_socket_rx_sequence--; } /* Now we need to determine if this cleanup is from a terminate, timeout, or from a wait abort. */ if (thread_ptr -> tx_thread_state == TX_TCP_IP) { /* Thread still suspended on the TCP socket. Setup return error status and resume the thread. */ /* Setup return status. */ thread_ptr -> tx_thread_suspend_status = NX_NOT_CONNECTED; /* Temporarily disable preemption. */ _tx_thread_preempt_disable++; /* Restore interrupts. */ TX_RESTORE /* Resume the thread! Check for preemption even though we are executing from the system timer thread right now which normally executes at the highest priority. */ _tx_thread_system_resume(thread_ptr); /* Finished, just return. */ return; } } /* Restore interrupts. */ TX_RESTORE }