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- /*!
- * \file onewire_uart.c
- * \brief
- * A target independent 1-wire implementation using a microprocessor's uart
- * for bit timing
- *
- * Author: Christos Choutouridis AEM: 8997
- * email : <cchoutou@ece.auth.gr>
- *
- */
- #include "onewire_uart.h"
-
- /*
- * ========= Private helper macros ===========
- */
-
- /*!
- * Clear a virtual 64bit unsigned register.
- * \note
- * We use a uint8_t array[8] to represent that kind
- * of data for this module
- * \param _reg Pointer to register location. Usual the name of
- * The array
- */
- #define _clear_u64(_reg_) \
- memset ((void*)(_reg_), 0, 8*sizeof(uint8_t))
-
- /*!
- * Read a bit value of a virtual 64bit unsigned register.
- * \note
- * We use a uint8_t array[8] to represent that kind
- * of data for this module
- * \param _reg Pointer to register location. Usual the name of
- * The array
- * \param _bit The bit location we want to read
- */
- #define _read_bit_u64(_reg_, _bit_) \
- (_reg_[(_bit_)/8] & (1<<((_bit_)%8))) ? 1:0
-
- /*!
- * Write/modify a bit value from a virtual 64bit unsigned register.
- * \note
- * We use a uint8_t array[8] to represent that kind
- * of data for this module
- * \param _reg Pointer to register location. Usual the name of
- * The array
- * \param _bit The bit location we want to set
- * \param _v The value we want to set
- * \arg 0 Set to zero
- * \arg !0 Set to One
- */
- #define _write_bit_u64(_reg_, _bit_, _v_) \
- do { \
- if (_v_) _reg_[(_bit_)/8] |= 1 << ((_bit_)%8); \
- else _reg_[(_bit_)/8] &= ~(1 << ((_bit_)%8)); \
- } while (0)
-
-
-
- /*
- * ============= Private functions ===========
- */
- /* Data manipulation functions */
- static int _cmp_u64 (uint8_t *reg1, uint8_t *reg2);
-
- /* Set functions */
- static drv_status_en _set_baudrate (ow_uart_t *ow, ow_uart_state_en st);
-
- /* Bus functions */
- static uint8_t _write_bit (ow_uart_t *ow, uint8_t b);
- static uint8_t _read_bit (ow_uart_t *ow);
-
-
- /*!
- * \brief
- * Compare two 64bit virtual unsigned registers
- * \note
- * We use a uint8_t array[8] to represent that kind
- * of data for this module
- * \param reg1 Pointer to first register location. Usual the name of
- * the array
- * \param reg1 Pointer to 2nd register location. Usual the name of
- * the array
- * \return The comparison result
- * \arg 0 Registers are equal
- * \arg 1 Register 1 is larger than register 2
- * \arg -1 Register 2 is larger than register 1
- */
- static int _cmp_u64 (uint8_t *reg1, uint8_t *reg2) {
- int i;
- for (i=7 ; i>=0 ; --i) {
- if (reg1[i] > reg2[i]) return 1; /* reg1 > reg2 */
- else if (reg1[i] < reg2[i]) return -1; /* reg1 < reg2 */
- }
- return 0; /* reg1 equal reg2 */
- }
-
- /*!
- * \brief
- * Set UART Baudrate and handle all function calls and data
- * manipulation
- * \param ow Pointer to select 1-Wire structure for the operation.
- * \param st The 1-Wire operational state \sa ow_uart_state_en
- * \return The status of the operation
- * \arg DRV_ERROR Could not set baudrate (callback pointer function error)
- * \arg DRV_READY Success
- */
- static drv_status_en _set_baudrate (ow_uart_t *ow, ow_uart_state_en st)
- {
- uint32_t st_br;
-
- /* Get the desired baudrate */
- switch (st) {
- case OWS_RESET: st_br = ow->baudrate.reset; break;
- default:
- case OWS_OPER: st_br = ow->baudrate.oper; break;
- }
-
- if (ow->baudrate.current != st_br) {
- if (ow->io.br (st_br) != DRV_READY) return DRV_ERROR;
- ow->baudrate.current = st_br;
- }
- return DRV_READY;
- }
-
- /*!
- * \brief
- * Send a 1-Wire write bit
- *
- * --- --------------------------------------
- * Write 1 \ /
- * ----
- * RS: | | | | | | | | | | |
- * bit: st 0 1 2 3 4 5 6 7 st
- * < ------------- 87/11 usec ------------->
- * 8 bits, no parity, 1 stop
- * standard: BR: 115200 Overdrive: BR: 921600
- * TX: 0xFF
- * RX: 0xFF
- *
- * --- ------
- * Write 0 \ /
- * -------------------------------------
- * RS: | | | | | | | | | | |
- * bit: st 0 1 2 3 4 5 6 7 st
- * < ------------- 87/11 usec ------------->
- * 8 bits, no parity, 1 stop
- * standard: BR: 115200 Overdrive: BR: 921600
- * TX: 0x00
- * RX: 0x00
- *
- * \param ow Pointer to select 1-Wire structure for the operation.
- * \param b The bit to send
- * \return Status of the operation
- * \arg 0 Success
- * \arg 1 Fail
- */
- static uint8_t _write_bit (ow_uart_t *ow, uint8_t b)
- {
- uint8_t w;
- uint16_t r;
-
- /*
- * Make sure we are at the right baudrate
- */
- if (_set_baudrate (ow, OWS_OPER) != DRV_READY)
- return 1;
-
- /* Select frame to send and check the bus by evaluating the return value */
- w = (b) ? 0xFF : 0x00;
- r = ow->io.rw (w);
-
- if (r != w) return 1;
- else return 0;
- }
-
- /*!
- * \brief
- * Read a bit from the 1-Wire bus, return it and provide
- * the recovery time.
- *
- * --- - - - - - - - - - - - ------
- * Read \ / X X X X X X X X X X X X X X X /
- * ---- - - - - - - - - - - -
- * RS: | | | | | | | | | | |
- * bit: st 0 1 2 3 4 5 6 7 st
- * < ------------- 87/11 usec ------------->
- * ^
- * |
- * Master sample
- *
- * 8 bits, no parity, 1 stop
- * standard: BR: 115200 Overdrive: BR: 921600
- * TX: 0xFF
- * RX: {1 - 0xFF, 0 - [0x00 - 0xFE] }
- *
- * \return The answer
- * \arg 0 Read 0
- * \arg 1 Read 1 (This is also returned on transition error).
- */
- static uint8_t _read_bit (ow_uart_t *ow)
- {
- uint16_t r;
-
- /*
- * Make sure we are at the right baudrate
- */
- if (_set_baudrate (ow, OWS_OPER) != DRV_READY)
- return 1;
-
- /* Send frame for read */
- r = ow->io.rw (0xFF);
-
- /* Dispatch answer */
- if (r < 0xFF) return 0;
- else return 1;
- }
-
-
- /*
- * ============= PUBLIC 1-Wire API =============
- */
-
- /*
- * Link and Glue functions
- */
-
- /*!
- * \brief link driver's UART read-write function
- * \param ow pointer to select 1-Wire structure for the operation.
- * \param tx ow_uart_rx_ft pointer to drivers UART rx function
- */
- void ow_uart_link_rw (ow_uart_t *ow, ow_uart_rw_ft rw) {
- ow->io.rw = (ow_uart_rw_ft)((rw != 0) ? rw : 0);
- }
-
- /*!
- * \brief link driver's UART baudrate function
- * \param ow pointer to select 1-Wire structure for the operation.
- * \param tx ow_uart_tx_ft pointer to drivers UART baudrate function
- */
- void ow_uart_link_br (ow_uart_t *ow, ow_uart_br_ft br) {
- ow->io.br = (ow_uart_br_ft)((br != 0) ? br : 0);
- }
-
-
- /*
- * Set functions
- */
-
- /*!
- * \brief set 1-wire timing mode and update baudrate table.
- * If the owt parameter is not a valid ow_uart_timing_en
- * then set timings to OW_STANDTARD.
- * \param ow pointer to select 1-Wire structure for the operation.
- * \param owt Timing type
- * \arg OWT_STANDARD Use standard timing
- * \arg OWT_OVERDRIVE Use overdrive timing
- */
- void ow_uart_set_timing (ow_uart_t *ow, uint32_t owt) {
- ow->timing = (_ow_uart_is_timings(owt)) ? owt : OW_UART_T_STANDARD;
-
- switch (owt) {
- case OW_UART_T_STANDARD: _ow_baudrate_standard (ow->baudrate); break;
- case OW_UART_T_OVERDRIVE: _ow_baudrate_overdrive (ow->baudrate); break;
- }
- }
-
- /*
- * User Functions
- */
-
- /*!
- * \brief
- * De-Initialize the 1-Wire interface and leave bus pin in input state
- * \param ow pointer to select 1-Wire structure for the operation.
- * \return none
- */
- void ow_uart_deinit (ow_uart_t *ow)
- {
- // Clear data
- memset ((void*)ow, 0, sizeof (ow_uart_t));
- /*!<
- * This leaves the status = DRV_NOINIT
- */
- }
-
- /*!
- * \brief
- * Initialize the 1-Wire interface and leave bus high
- * \param ow pointer to select 1-Wire structure for the operation.
- * \return The driver status after init.
- * \arg DRV_READY
- * \arg DRV_ERROR
- */
- drv_status_en ow_uart_init (ow_uart_t *ow)
- {
- // Check requirements
- if (!ow->io.rw) return ow->status = DRV_ERROR;
- if (!ow->io.br) return ow->status = DRV_ERROR;
-
- // Init the bus
- ow->status = DRV_BUSY;
- if ( _ow_uart_is_timings(ow->timing) != 1) {
- ow->timing = OW_UART_T_STANDARD;
- _ow_baudrate_standard (ow->baudrate);
- }
- switch (ow->timing) {
- case OW_UART_T_STANDARD: _ow_baudrate_standard (ow->baudrate); break;
- case OW_UART_T_OVERDRIVE: _ow_baudrate_overdrive (ow->baudrate); break;
- }
- if (_set_baudrate (ow, OWS_RESET) != DRV_READY)
- return ow->status = DRV_ERROR;
- return ow->status = DRV_READY;
- }
-
- /*!
- * \brief
- * Generate a 1-wire reset
- *
- * --- ---- - - - -------
- * Reset \ / \ X X X /
- * -------------------- - - - -
- * RS: | | | | | | | | | | |
- * bit: st 0 1 2 3 4 5 6 7 st
- * < ---------- 1024/174 usec ------------->
- *
- * 8 bits, no parity, 1 stop
- * Standard: Overdrive :
- * BR: 9600, BR: 57600
- * TX: 0xF0, TX: 0xF8
- * RX: 0xF0 not present RX: 0xF8 not present
- * less if present less if present
- *
- * \note Does not handle alarm presence from DS2404/DS1994
- * \param None
- * \return The status of the operation
- * \arg DRV_ERROR Error, callback baudrate error or bus error
- * \arg DRV_NODEV If no presence detect was found
- * \arg DRV_READY Otherwise
- */
- drv_status_en ow_uart_reset (ow_uart_t *ow)
- {
- uint8_t w;
- uint16_t r;
-
- /*
- * Make sure we are at the write baudrate
- */
- if (_set_baudrate (ow, OWS_RESET) != DRV_READY)
- return DRV_ERROR;
-
- /* Select frame to send */
- w = (ow->timing == OW_UART_T_OVERDRIVE) ? 0xF8 : 0xF0;
-
- r = ow->io.rw (w);
- r = ow->io.rw (w); // Send it twice to make sure
-
- if (w>r) return DRV_READY;
- else if (w==r) return DRV_NODEV;
- else return DRV_ERROR;
- }
-
- /*!
- * \brief
- * Read a byte from 1-Wire bus
- * \param ow pointer to select 1-Wire structure for the operation.
- * \return The byte received.
- */
- uint8_t ow_uart_rx (ow_uart_t *ow)
- {
- uint8_t i;
- byte_t byte;
-
- for (i=8, byte=0 ; i>0 ; --i) {
- byte >>= 1; /* shift bits to right as LSB comes first */
- if (_read_bit (ow) != 0) byte |= 0x80; /* Mask bit to MSB */
- }
- return byte;
- }
-
- /*!
- * \brief
- * Write a byte to 1-Wire bus
- * \param ow pointer to select 1-Wire structure for the operation.
- * \param b: The byte to write
- * \return none
- */
- void ow_uart_tx (ow_uart_t *ow, byte_t byte)
- {
- uint8_t i;
-
- for (i=8 ; i>0 ; --i) {
- _write_bit (ow, byte & 0x01); /* Send LSB */
- byte >>= 1; /* shift bits to right */
- }
- }
-
- /*!
- * \brief
- * Write a byte to 1-Wire bus and read the response
- * \param ow Pointer to select 1-Wire structure for the operation.
- * \param byte The byte to write
- * \return The byte received.
- */
- uint8_t ow_uart_rw (ow_uart_t *ow, byte_t byte)
- {
- uint8_t i;
- byte_t ret;
-
- for (i=8, ret=0 ; i>0 ; --i) {
- ret >>= 1; /* shift read bits to right as LSB comes first */
- if ((byte & 0x01) != 0) ret |= (_read_bit (ow) != 0) ? 0x80 : 0x0;
- else _write_bit (ow, 0);
- byte >>= 1; /* shift bits to right */
-
- /*!<
- * If the bit is 1 we use the read sequence, as it has the same
- * waveform with write-1 and we get the slave response
- * If the bit is 0, we can not read the slave response so we just write-0
- */
- }
- return byte;
- }
-
-
- /*!
- * \brief
- * 1-Wire search algorithm based on maxim-ic application note 187
- *
- * \param ow Pointer to select 1-Wire structure for the operation.
- * \param romid Pointer to romid to return. If the search is success
- * this points to and 64bit long array with ROM ID
- * \return The status of the search
- * \arg DRV_NODEV (-1) Search was failed, No device found
- * \arg DRV_READY (1) Search is complete, all ROM IDs was found. This was the last
- * \arg DRV_BUSY (2) Search is succeed, plus there are more ROM IDs to found
- * \arg DRV_ERROR (3) Search failed, Reading error
- */
- drv_status_en ow_uart_search (ow_uart_t *ow, uint8_t *romid)
- {
- static uint8_t dec[8]; /*!<
- * Hold the algorithm's select bit when a discrepancy
- * is detected. We use this variable to navigate to the
- * ROM tree as we store the path we take each time (0-1).
- * Each bit represent a bit position in the ROM ID.
- */
- static uint8_t pos[8]; /*!<
- * Hold the discrepancy position. We use this variable to
- * navigate to the ROM tree as we store the crossroads(1) we encounter.
- * Each bit represent a bit position in the ROM ID.
- */
- uint8_t i, cur[8]; /* Current pass bit position, in a pos[8] like representation of it */
- uint8_t b, b1, b2; /* bit helper vars */
-
- if (ow_uart_reset (ow) != DRV_READY)
- return DRV_NODEV;
- ow_uart_tx (ow, 0xF0); /* Issue search command */
-
- for (i=0 ; i<64 ; ++i) {
- /* Get response pair bits */
- b1 = _read_bit (ow);
- b2 = _read_bit (ow);
-
- switch (b1 | (b2<<1)) {
- case 0x00: /* 00 - We have discrepancy */
- _write_bit_u64 (cur, i, 1);
- switch (_cmp_u64 (pos, cur)) {
- default:
- case -1: b = 0;
- _write_bit_u64 (pos, i, 1); break;
- case 0: b = 1;
- _write_bit_u64 (dec, i, 1); break;
- case 1: b = _read_bit_u64 (dec, i); break;
- /*<
- * -1) pos < cur: This discrepancy is the most far for now.
- * Mark position and select 0.
- * 0) pos == cur: This was the last discrepancy in the last pass.
- * Select the other branch this time (1).
- * 1) pos > cur: We had a discrepancy in a MSB than that, in a previous pass.
- * Continue with the last pass decision.
- */
- }
-
- /* Send selection and update romid */
- _write_bit (ow, b);
- _write_bit_u64 (romid, i, b);
- break;
-
- case 0x01: /* 01 - All bits of all ROMs are 1s */
- _write_bit (ow, 1);
- _write_bit_u64 (romid, i, 1); break;
-
- case 0x02: /* 10 - All bits of all ROMs are 0s */
- _write_bit (ow, 0);
- _write_bit_u64 (romid, i, 0); break;
-
- default:
- case 0x03: /* 11 - No device on the bus */
- _clear_u64 (romid);
- return DRV_NODEV;
- } /* switch (b1 | (b2<<1)) */
- } /* for */
-
- switch (_cmp_u64 (dec, pos)) {
- case -1: return DRV_BUSY;
- case 0: _clear_u64 (dec);
- _clear_u64 (pos);
- return DRV_READY;
- default:
- case 1: _clear_u64 (dec);
- _clear_u64 (pos);
- return DRV_ERROR;
- /*<
- * -1) des < pos: We have more leafs(ROMs) to found
- * 0) des == pos: We have found all the leafs(ROMs)
- * 1) des > pos: We have more decision that discrepancies ?!?!?, Error.
- */
- }
- }
-
-
-
- #undef _clear_u64
- #undef _read_bit_u64
- #undef _write_bit_u64
- #undef _ow_is_timings
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