/* * Copyright (C) 2006 Michael Brown . * * This program is free software; you can redistribute it and/or * modify it under the terms of the GNU General Public License as * published by the Free Software Foundation; either version 2 of the * License, or any later version. * * This program is distributed in the hope that it will be useful, but * WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. 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., 51 Franklin Street, Fifth Floor, Boston, MA * 02110-1301, USA. * * You can also choose to distribute this program under the terms of * the Unmodified Binary Distribution Licence (as given in the file * COPYING.UBDL), provided that you have satisfied its requirements. */ FILE_LICENCE ( GPL2_OR_LATER_OR_UBDL ); #include #include #include #include #include #include #include #include /** @file * * I2C bit-bashing interface * * This implements a simple I2C master via a bit-bashing interface * that provides two lines: SCL (clock) and SDA (data). */ /** * Delay between output state changes * * Max rated i2c speed (for the basic i2c protocol) is 100kbps, * i.e. 200k clock transitions per second. */ static void i2c_delay ( void ) { udelay ( I2C_UDELAY ); } /** * Set state of I2C SCL line * * @v basher Bit-bashing interface * @v state New state of SCL */ static void setscl ( struct bit_basher *basher, int state ) { DBG2 ( "%c", ( state ? '/' : '\\' ) ); write_bit ( basher, I2C_BIT_SCL, state ); i2c_delay(); } /** * Set state of I2C SDA line * * @v basher Bit-bashing interface * @v state New state of SDA */ static void setsda ( struct bit_basher *basher, int state ) { DBG2 ( "%c", ( state ? '1' : '0' ) ); write_bit ( basher, I2C_BIT_SDA, state ); i2c_delay(); } /** * Get state of I2C SDA line * * @v basher Bit-bashing interface * @ret state State of SDA */ static int getsda ( struct bit_basher *basher ) { int state; state = read_bit ( basher, I2C_BIT_SDA ); DBG2 ( "%c", ( state ? '+' : '-' ) ); return state; } /** * Send an I2C start condition * * @v basher Bit-bashing interface */ static void i2c_start ( struct bit_basher *basher ) { setscl ( basher, 1 ); setsda ( basher, 0 ); setscl ( basher, 0 ); setsda ( basher, 1 ); } /** * Send an I2C data bit * * @v basher Bit-bashing interface * @v bit Bit to send */ static void i2c_send_bit ( struct bit_basher *basher, int bit ) { setsda ( basher, bit ); setscl ( basher, 1 ); setscl ( basher, 0 ); setsda ( basher, 1 ); } /** * Receive an I2C data bit * * @v basher Bit-bashing interface * @ret bit Received bit */ static int i2c_recv_bit ( struct bit_basher *basher ) { int bit; setscl ( basher, 1 ); bit = getsda ( basher ); setscl ( basher, 0 ); return bit; } /** * Send an I2C stop condition * * @v basher Bit-bashing interface */ static void i2c_stop ( struct bit_basher *basher ) { setsda ( basher, 0 ); setscl ( basher, 1 ); setsda ( basher, 1 ); } /** * Send byte via I2C bus and check for acknowledgement * * @v basher Bit-bashing interface * @v byte Byte to send * @ret rc Return status code * * Sends a byte via the I2C bus and checks for an acknowledgement from * the slave device. */ static int i2c_send_byte ( struct bit_basher *basher, uint8_t byte ) { int i; int ack; /* Send byte */ DBG2 ( "[send %02x]", byte ); for ( i = 8 ; i ; i-- ) { i2c_send_bit ( basher, byte & 0x80 ); byte <<= 1; } /* Check for acknowledgement from slave */ ack = ( i2c_recv_bit ( basher ) == 0 ); DBG2 ( "%s", ( ack ? "[acked]" : "[not acked]" ) ); return ( ack ? 0 : -EIO ); } /** * Receive byte via I2C bus * * @v basher Bit-bashing interface * @ret byte Received byte * * Receives a byte via the I2C bus and sends NACK to the slave device. */ static uint8_t i2c_recv_byte ( struct bit_basher *basher ) { uint8_t byte = 0; int i; /* Receive byte */ for ( i = 8 ; i ; i-- ) { byte <<= 1; byte |= ( i2c_recv_bit ( basher ) & 0x1 ); } /* Send NACK */ i2c_send_bit ( basher, 1 ); DBG2 ( "[rcvd %02x]", byte ); return byte; } /** * Select I2C device for reading or writing * * @v basher Bit-bashing interface * @v i2cdev I2C device * @v offset Starting offset within the device * @v direction I2C_READ or I2C_WRITE * @ret rc Return status code */ static int i2c_select ( struct bit_basher *basher, struct i2c_device *i2cdev, unsigned int offset, unsigned int direction ) { unsigned int address; int shift; unsigned int byte; int rc; i2c_start ( basher ); /* Calculate address to appear on bus */ address = ( ( ( i2cdev->dev_addr | ( offset >> ( 8 * i2cdev->word_addr_len ) ) ) << 1 ) | direction ); /* Send address a byte at a time */ for ( shift = ( 8 * ( i2cdev->dev_addr_len - 1 ) ) ; shift >= 0 ; shift -= 8 ) { byte = ( ( address >> shift ) & 0xff ); if ( ( rc = i2c_send_byte ( basher, byte ) ) != 0 ) return rc; } return 0; } /** * Reset I2C bus * * @v basher Bit-bashing interface * @ret rc Return status code * * i2c devices often don't have a reset line, so even a reboot or * system power cycle is sometimes not enough to bring them back to a * known state. */ static int i2c_reset ( struct bit_basher *basher ) { unsigned int i; int sda; /* Clock through several cycles, waiting for an opportunity to * pull SDA low while SCL is high (which creates a start * condition). */ open_bit ( basher ); setscl ( basher, 0 ); setsda ( basher, 1 ); for ( i = 0 ; i < I2C_RESET_MAX_CYCLES ; i++ ) { setscl ( basher, 1 ); sda = getsda ( basher ); if ( sda ) { /* Now that the device will see a start, issue it */ i2c_start ( basher ); /* Stop the bus to leave it in a known good state */ i2c_stop ( basher ); DBGC ( basher, "I2CBIT %p reset after %d attempts\n", basher, ( i + 1 ) ); close_bit ( basher ); return 0; } setscl ( basher, 0 ); } DBGC ( basher, "I2CBIT %p could not reset after %d attempts\n", basher, i ); close_bit ( basher ); return -ETIMEDOUT; } /** * Read data from I2C device via bit-bashing interface * * @v i2c I2C interface * @v i2cdev I2C device * @v offset Starting offset within the device * @v data Data buffer * @v len Length of data buffer * @ret rc Return status code * * Note that attempting to read zero bytes of data is a valid way to * check for I2C device presence. */ static int i2c_bit_read ( struct i2c_interface *i2c, struct i2c_device *i2cdev, unsigned int offset, uint8_t *data, unsigned int len ) { struct i2c_bit_basher *i2cbit = container_of ( i2c, struct i2c_bit_basher, i2c ); struct bit_basher *basher = &i2cbit->basher; int rc = 0; DBGC ( basher, "I2CBIT %p reading from device %x: ", basher, i2cdev->dev_addr ); open_bit ( basher ); for ( ; ; data++, offset++ ) { /* Select device for writing */ if ( ( rc = i2c_select ( basher, i2cdev, offset, I2C_WRITE ) ) != 0 ) break; /* Abort at end of data */ if ( ! ( len-- ) ) break; /* Select offset */ if ( ( rc = i2c_send_byte ( basher, offset ) ) != 0 ) break; /* Select device for reading */ if ( ( rc = i2c_select ( basher, i2cdev, offset, I2C_READ ) ) != 0 ) break; /* Read byte */ *data = i2c_recv_byte ( basher ); DBGC ( basher, "%02x ", *data ); } DBGC ( basher, "%s\n", ( rc ? "failed" : "" ) ); i2c_stop ( basher ); close_bit ( basher ); return rc; } /** * Write data to I2C device via bit-bashing interface * * @v i2c I2C interface * @v i2cdev I2C device * @v offset Starting offset within the device * @v data Data buffer * @v len Length of data buffer * @ret rc Return status code * * Note that attempting to write zero bytes of data is a valid way to * check for I2C device presence. */ static int i2c_bit_write ( struct i2c_interface *i2c, struct i2c_device *i2cdev, unsigned int offset, const uint8_t *data, unsigned int len ) { struct i2c_bit_basher *i2cbit = container_of ( i2c, struct i2c_bit_basher, i2c ); struct bit_basher *basher = &i2cbit->basher; int rc = 0; DBGC ( basher, "I2CBIT %p writing to device %x: ", basher, i2cdev->dev_addr ); open_bit ( basher ); for ( ; ; data++, offset++ ) { /* Select device for writing */ if ( ( rc = i2c_select ( basher, i2cdev, offset, I2C_WRITE ) ) != 0 ) break; /* Abort at end of data */ if ( ! ( len-- ) ) break; /* Select offset */ if ( ( rc = i2c_send_byte ( basher, offset ) ) != 0 ) break; /* Write data to device */ DBGC ( basher, "%02x ", *data ); if ( ( rc = i2c_send_byte ( basher, *data ) ) != 0 ) break; } DBGC ( basher, "%s\n", ( rc ? "failed" : "" ) ); i2c_stop ( basher ); close_bit ( basher ); return rc; } /** * Initialise I2C bit-bashing interface * * @v i2cbit I2C bit-bashing interface * @v bash_op Bit-basher operations */ int init_i2c_bit_basher ( struct i2c_bit_basher *i2cbit, struct bit_basher_operations *bash_op ) { struct bit_basher *basher = &i2cbit->basher; int rc; /* Initialise data structures */ basher->op = bash_op; assert ( basher->op->read != NULL ); assert ( basher->op->write != NULL ); i2cbit->i2c.read = i2c_bit_read; i2cbit->i2c.write = i2c_bit_write; /* Reset I2C bus */ if ( ( rc = i2c_reset ( basher ) ) != 0 ) { DBGC ( basher, "I2CBIT %p could not reset I2C bus: %s\n", basher, strerror ( rc ) ); return rc; } return 0; }