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https://github.com/portapack-mayhem/mayhem-firmware.git
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133 lines
5.7 KiB
Plaintext
133 lines
5.7 KiB
Plaintext
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/*
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ChibiOS/RT - Copyright (C) 2006,2007,2008,2009,2010,
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2011,2012,2013 Giovanni Di Sirio.
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This file is part of ChibiOS/RT.
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ChibiOS/RT is free software; you can redistribute it and/or modify
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it under the terms of the GNU General Public License as published by
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the Free Software Foundation; either version 3 of the License, or
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(at your option) any later version.
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ChibiOS/RT is distributed in the hope that it will be useful,
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but WITHOUT ANY WARRANTY; without even the implied warranty of
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MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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GNU General Public License for more details.
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You should have received a copy of the GNU General Public License
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along with this program. If not, see <http://www.gnu.org/licenses/>.
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---
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A special exception to the GPL can be applied should you wish to distribute
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a combined work that includes ChibiOS/RT, without being obliged to provide
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the source code for any proprietary components. See the file exception.txt
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for full details of how and when the exception can be applied.
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*/
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/**
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* @defgroup UART UART Driver
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* @brief Generic UART Driver.
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* @details This driver abstracts a generic UART (Universal Asynchronous
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* Receiver Transmitter) peripheral, the API is designed to be:
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* - Unbuffered and copy-less, transfers are always directly performed
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* from/to the application-level buffers without extra copy
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* operations.
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* - Asynchronous, the API is always non blocking.
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* - Callbacks capable, operations completion and other events are
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* notified using callbacks.
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* .
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* Special hardware features like deep hardware buffers, DMA transfers
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* are hidden to the user but fully supportable by the low level
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* implementations.<br>
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* This driver model is best used where communication events are
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* meant to drive an higher level state machine, as example:
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* - RS485 drivers.
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* - Multipoint network drivers.
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* - Serial protocol decoders.
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* .
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* If your application requires a synchronous buffered driver then
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* the @ref SERIAL should be used instead.
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* @pre In order to use the UART driver the @p HAL_USE_UART option
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* must be enabled in @p halconf.h.
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*
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* @section uart_1 Driver State Machine
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* The driver implements a state machine internally, not all the driver
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* functionalities can be used in any moment, any transition not explicitly
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* shown in the following diagram has to be considered an error and shall
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* be captured by an assertion (if enabled).
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* @dot
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digraph example {
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rankdir="LR";
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node [shape=circle, fontname=Helvetica, fontsize=8, fixedsize="true", width="0.9", height="0.9"];
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edge [fontname=Helvetica, fontsize=8];
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uninit [label="UART_UNINIT", style="bold"];
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stop [label="UART_STOP\nLow Power"];
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ready [label="UART_READY\nClock Enabled"];
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uninit -> stop [label="\nuartInit()"];
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stop -> ready [label="\nuartStart()"];
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ready -> ready [label="\nuartStart()"];
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ready -> stop [label="\nuartStop()"];
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stop -> stop [label="\nuartStop()"];
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}
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* @enddot
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*
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* @subsection uart_1_1 Transmitter sub State Machine
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* The follow diagram describes the transmitter state machine, this diagram
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* is valid while the driver is in the @p UART_READY state. This state
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* machine is automatically reset to the @p TX_IDLE state each time the
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* driver enters the @p UART_READY state.
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* @dot
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digraph example {
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rankdir="LR";
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node [shape=circle, fontname=Helvetica, fontsize=8, fixedsize="true", width="0.9", height="0.9"];
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edge [fontname=Helvetica, fontsize=8];
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tx_idle [label="TX_IDLE", style="bold"];
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tx_active [label="TX_ACTIVE"];
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tx_complete [label="TX_COMPLETE"];
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tx_fatal [label="Fatal Error", style="bold"];
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tx_idle -> tx_active [label="\nuartStartSend()"];
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tx_idle -> tx_idle [label="\nuartStopSend()\n>uc_txend2<"];
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tx_active -> tx_complete [label="\nbuffer transmitted\n>uc_txend1<"];
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tx_active -> tx_idle [label="\nuartStopSend()"];
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tx_active -> tx_fatal [label="\nuartStartSend()"];
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tx_complete -> tx_active [label="\nuartStartSendI()\nthen\ncallback return"];
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tx_complete -> tx_idle [label="\ncallback return"];
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}
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* @enddot
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*
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* @subsection uart_1_2 Receiver sub State Machine
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* The follow diagram describes the receiver state machine, this diagram
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* is valid while the driver is in the @p UART_READY state. This state
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* machine is automatically reset to the @p RX_IDLE state each time the
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* driver enters the @p UART_READY state.
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* @dot
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digraph example {
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rankdir="LR";
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node [shape=circle, fontname=Helvetica, fontsize=8, fixedsize="true", width="0.9", height="0.9"];
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edge [fontname=Helvetica, fontsize=8];
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rx_idle [label="RX_IDLE", style="bold"];
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rx_active [label="RX_ACTIVE"];
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rx_complete [label="RX_COMPLETE"];
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rx_fatal [label="Fatal Error", style="bold"];
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rx_idle -> rx_idle [label="\nuartStopReceive()\n>uc_rxchar<\n>uc_rxerr<"];
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rx_idle -> rx_active [label="\nuartStartReceive()"];
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rx_active -> rx_complete [label="\nbuffer filled\n>uc_rxend<"];
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rx_active -> rx_idle [label="\nuartStopReceive()"];
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rx_active -> rx_active [label="\nreceive error\n>uc_rxerr<"];
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rx_active -> rx_fatal [label="\nuartStartReceive()"];
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rx_complete -> rx_active [label="\nuartStartReceiveI()\nthen\ncallback return"];
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rx_complete -> rx_idle [label="\ncallback return"];
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}
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* @enddot
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*
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* @ingroup IO
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*/
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