/*************************************************************************** * __________ __ ___. * Open \______ \ ____ ____ | | _\_ |__ _______ ___ * Source | _// _ \_/ ___\| |/ /| __ \ / _ \ \/ / * Jukebox | | ( <_> ) \___| < | \_\ ( <_> > < < * Firmware |____|_ /\____/ \___ >__|_ \|___ /\____/__/\_ \ * \/ \/ \/ \/ \/ * $Id$ * * Copyright (C) 2014 by Cástor Muñoz * * 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 (at your option) any later version. * * This software is distributed on an "AS IS" basis, WITHOUT WARRANTY OF ANY * KIND, either express or implied. * ****************************************************************************/ #include #include #include "config.h" #include "system.h" #include "uart-target.h" #include "uc870x.h" /* * UC870x: UART controller for s5l870x */ /* Rx related masks */ #if CONFIG_CPU == S5L8700 #define UTRSTAT_RX_RELATED_INTS (UTRSTAT_RX_INT_BIT | UTRSTAT_ERR_INT_BIT) #define UCON_RX_RELATED_INTS (UCON_RX_INT_BIT | UCON_ERR_INT_BIT) #elif CONFIG_CPU == S5L8701 #define UTRSTAT_RX_RELATED_INTS \ (UTRSTAT_RX_INT_BIT | UTRSTAT_ERR_INT_BIT | UTRSTAT_AUTOBR_INT_BIT) #define UCON_RX_RELATED_INTS \ (UCON_RX_INT_BIT | UCON_ERR_INT_BIT | UCON_AUTOBR_INT_BIT) #else /* CONFIG_CPU == S5L8702 */ #define UTRSTAT_RX_RELATED_INTS \ (UTRSTAT_RX_INT_BIT | UTRSTAT_ERR_INT_BIT | \ UTRSTAT_AUTOBR_INT_BIT | UTRSTAT_RX_TOUT_INT_BIT) #define UCON_RX_RELATED_INTS \ (UCON_RX_INT_BIT | UCON_ERR_INT_BIT | \ UCON_AUTOBR_INT_BIT | UCON_RX_TOUT_INT_BIT) #endif #define UART_PORT_BASE(u,i) (((u)->baddr) + (u)->port_off * (i)) /* Initialization */ static void uartc_reset_port_id(const struct uartc* uartc, int port_id) { uart_target_disable_irq(uartc->id, port_id); uart_target_disable_gpio(uartc->id, port_id); /* set port registers to default reset values */ uint32_t baddr = UART_PORT_BASE(uartc, port_id); UCON(baddr) = 0; ULCON(baddr) = 0; UMCON(baddr) = 0; UFCON(baddr) = UFCON_RX_FIFO_RST_BIT | UFCON_TX_FIFO_RST_BIT; UTRSTAT(baddr) = ~0; /* clear all interrupts */ UBRDIV(baddr) = 0; #if CONFIG_CPU == S5L8702 UBRCONTX(baddr) = 0; UBRCONRX(baddr) = 0; #endif uartc->port_l[port_id] = (void*)0; } static void uartc_reset(const struct uartc* uartc) { for (int port_id = 0; port_id < uartc->n_ports; port_id++) uartc_reset_port_id(uartc, port_id); } void uartc_open(const struct uartc *uartc) { uart_target_enable_clocks(uartc->id); uartc_reset(uartc); } void uartc_close(const struct uartc *uartc) { uartc_reset(uartc); uart_target_disable_clocks(uartc->id); } void uartc_port_open(struct uartc_port *port) { const struct uartc *uartc = port->uartc; uint32_t baddr = UART_PORT_BASE(uartc, port->id); uart_target_enable_gpio(uartc->id, port->id); /* disable Tx/Rx and mask all interrupts */ UCON(baddr) = 0; /* clear all interrupts */ UTRSTAT(baddr) = ~0; /* configure registers */ UFCON(baddr) = UFCON_FIFO_ENABLE_BIT | UFCON_RX_FIFO_RST_BIT | UFCON_TX_FIFO_RST_BIT | ((port->rx_trg & UFCON_RX_FIFO_TRG_MASK) << UFCON_RX_FIFO_TRG_POS) | ((port->tx_trg & UFCON_TX_FIFO_TRG_MASK) << UFCON_TX_FIFO_TRG_POS); UMCON(baddr) = UMCON_RTS_BIT; /* activate nRTS (low level) */ UCON(baddr) = (UCON_MODE_DISABLED << UCON_RX_MODE_POS) | (UCON_MODE_DISABLED << UCON_TX_MODE_POS) | ((port->clksel & UCON_CLKSEL_MASK) << UCON_CLKSEL_POS) | (port->rx_cb ? UCON_RX_RELATED_INTS|UCON_RX_TOUT_EN_BIT : 0) | (port->tx_cb ? UCON_TX_INT_BIT : 0); /* init and register port struct */ port->baddr = baddr; port->utrstat_int_mask = (port->rx_cb ? UTRSTAT_RX_RELATED_INTS : 0) | (port->tx_cb ? UTRSTAT_TX_INT_BIT : 0); #if CONFIG_CPU != S5L8700 port->abr_aborted = 0; #endif uartc->port_l[port->id] = port; /* enable interrupts */ uart_target_clear_irq(uartc->id, port->id); /*if (port->utrstat_int_mask)*/ uart_target_enable_irq(uartc->id, port->id); } void uartc_port_close(struct uartc_port *port) { uartc_reset_port_id(port->uartc, port->id); } /* Configuration */ void uartc_port_config(struct uartc_port *port, uint8_t data_bits, uint8_t parity, uint8_t stop_bits) { ULCON(port->baddr) = ((parity & ULCON_PARITY_MASK) << ULCON_PARITY_POS) | ((stop_bits & ULCON_STOP_BITS_MASK) << ULCON_STOP_BITS_POS) | ((data_bits & ULCON_DATA_BITS_MASK) << ULCON_DATA_BITS_POS); } /* set bitrate using precalculated values */ void uartc_port_set_bitrate_raw(struct uartc_port *port, uint32_t brdata) { uint32_t baddr = port->baddr; UBRDIV(baddr) = brdata & 0xff; #if CONFIG_CPU == S5L8702 UBRCONRX(baddr) = brdata >> 8; UBRCONTX(baddr) = brdata >> 8; #endif } #if 0 /* calculate values to set real bitrate as close as possible to the requested speed */ void uartc_port_set_bitrate(struct uartc_port *port, unsigned int speed) { int uclk = port->clkhz; /* Real baud width in UCLK/16 ticks: trunc(UCLK/(16*speed) + 0.5) */ int brdiv = (uclk + (speed << 3)) / (speed << 4); uint32_t brdata = brdiv - 1; #if CONFIG_CPU == S5L8702 /* Fine adjust: * * Along the whole frame, insert/remove "jittered" bauds when needed * to minimize frame lenght accumulated error. * * jitter_width: "jittered" bauds are 1/16 wider/narrower than normal * bauds, so step is 1/16 of real baud width = brdiv (in UCLK ticks) * * baud_err_width: it is the difference between theoric width and real * width = CLK/speed - brdiv*16 (in UCLK ticks) * * Previous widths are scaled by 'speed' factor to simplify operations * and preserve precision using integer operations. */ int jitter_width = brdiv * speed; int baud_err_width = uclk - (jitter_width << 4); int jitter_incdec = UBRCON_JITTER_INC; if (baud_err_width < 0) { baud_err_width = -baud_err_width; jitter_incdec = UBRCON_JITTER_DEC; } int err_width = 0; uint32_t brcon = 0; for (int bit = 0; bit < UC_FRAME_MAX_LEN; bit++) { err_width += baud_err_width; /* adjust to the nearest width */ if (jitter_width < (err_width << 1)) { brcon |= jitter_incdec << UBRCON_JITTER_POS(bit); err_width -= jitter_width; } } brdata |= (brcon << 8); #endif /* CONFIG_CPU == S5L8702 */ uartc_port_set_rawbr(port, brdata); } #endif /* Select Tx/Rx modes: disabling Tx/Rx resets HW, including FIFOs and shift registers */ void uartc_port_set_rx_mode(struct uartc_port *port, uint32_t mode) { UCON(port->baddr) = (mode << UCON_RX_MODE_POS) | (_UCON_RD(port->baddr) & ~(UCON_RX_MODE_MASK << UCON_RX_MODE_POS)); } void uartc_port_set_tx_mode(struct uartc_port *port, uint32_t mode) { UCON(port->baddr) = (mode << UCON_TX_MODE_POS) | (_UCON_RD(port->baddr) & ~(UCON_TX_MODE_MASK << UCON_TX_MODE_POS)); } /* Transmit */ bool uartc_port_tx_ready(struct uartc_port *port) { return (UTRSTAT(port->baddr) & UTRSTAT_TXBUF_EMPTY_BIT); } void uartc_port_tx_byte(struct uartc_port *port, uint8_t ch) { UTXH(port->baddr) = ch; #ifdef UC870X_DEBUG port->n_tx_bytes++; #endif } void uartc_port_send_byte(struct uartc_port *port, uint8_t ch) { /* wait for transmit buffer empty */ while (!uartc_port_tx_ready(port)); uartc_port_tx_byte(port, ch); } /* Receive */ bool uartc_port_rx_ready(struct uartc_port *port) { /* test receive buffer data ready */ return (UTRSTAT(port->baddr) & UTRSTAT_RXBUF_RDY_BIT); } uint8_t uartc_port_rx_byte(struct uartc_port *port) { return URXH(port->baddr) & 0xff; } uint8_t uartc_port_read_byte(struct uartc_port *port) { while (!uartc_port_rx_ready(port)); return uartc_port_rx_byte(port); } #if CONFIG_CPU != S5L8700 /* Autobauding */ static inline int uartc_port_abr_status(struct uartc_port *port) { return UABRSTAT(port->baddr) & UABRSTAT_STATUS_MASK; } void uartc_port_abr_start(struct uartc_port *port) { port->abr_aborted = 0; UCON(port->baddr) = _UCON_RD(port->baddr) | UCON_AUTOBR_START_BIT; } void uartc_port_abr_stop(struct uartc_port *port) { if (uartc_port_abr_status(port) == UABRSTAT_STATUS_COUNTING) /* There is no known way to stop the HW once COUNTING is * in progress. * If we disable AUTOBR_START_BIT now, COUNTING is not * aborted, instead the HW will launch interrupts for * every new rising edge detected while AUTOBR_START_BIT * remains disabled. * If AUTOBR_START_BIT is enabled, the HW will stop by * itself when a rising edge is detected. * So, do not disable AUTOBR_START_BIT and wait for the * next rising edge. */ port->abr_aborted = 1; else UCON(port->baddr) = _UCON_RD(port->baddr) & ~UCON_AUTOBR_START_BIT; } #endif /* CONFIG_CPU != S5L8700 */ /* ISR */ void ICODE_ATTR uartc_callback(const struct uartc* uartc, int port_id) { struct uartc_port *port = uartc->port_l[port_id]; uint32_t baddr = port->baddr; /* filter registered interrupts */ uint32_t ints = UTRSTAT(baddr) & port->utrstat_int_mask; /* clear interrupts, events ocurring while processing this ISR will be processed in the next call */ UTRSTAT(baddr) = ints; if (ints & UTRSTAT_RX_RELATED_INTS) { int len = 0; #if CONFIG_CPU != S5L8700 uint32_t abr_cnt = 0; if (ints & UTRSTAT_AUTOBR_INT_BIT) { if (uartc_port_abr_status(port) == UABRSTAT_STATUS_COUNTING) { #ifdef UC870X_DEBUG if (_UCON_RD(baddr) & UCON_AUTOBR_START_BIT) port->n_abnormal0++; else port->n_abnormal1++; #endif /* try to fix abnormal situations */ UCON(baddr) = _UCON_RD(baddr) | UCON_AUTOBR_START_BIT; } else if (!port->abr_aborted) abr_cnt = UABRCNT(baddr); } if (ints & (UTRSTAT_RX_RELATED_INTS ^ UTRSTAT_AUTOBR_INT_BIT)) #endif /* CONFIG_CPU != S5L8700 */ { /* get FIFO count */ uint32_t ufstat = UFSTAT(baddr); len = (ufstat & UFSTAT_RX_FIFO_CNT_MASK) | ((ufstat & UFSTAT_RX_FIFO_FULL_BIT) >> (8 - 4)); for (int i = 0; i < len; i++) { /* must read error status first, then data */ port->rx_err[i] = UERSTAT(baddr); port->rx_data[i] = URXH(baddr); } } /* 'len' might be zero due to RX_TOUT interrupts are * raised by the hardware even when RX FIFO is empty. * When overrun, it is marked on the first error: * overrun = len ? (rx_err[0] & UERSTAT_OVERRUN_BIT) : 0 */ #if CONFIG_CPU == S5L8700 port->rx_cb(len, port->rx_data, port->rx_err); #else /* 'abr_cnt' is zero when no ABR interrupt exists */ port->rx_cb(len, port->rx_data, port->rx_err, abr_cnt); #endif #ifdef UC870X_DEBUG if (len) { port->n_rx_bytes += len; if (port->rx_err[0] & UERSTAT_OVERRUN_BIT) port->n_ovr_err++; for (int i = 0; i < len; i++) { if (port->rx_err[i] & UERSTAT_PARITY_ERR_BIT) port->n_parity_err++; if (port->rx_err[i] & UERSTAT_FRAME_ERR_BIT) port->n_frame_err++; if (port->rx_err[i] & UERSTAT_BREAK_DETECT_BIT) port->n_break_detect++; } } #endif } #if 0 /* not used and not tested */ if (ints & UTRSTAT_TX_INT_BIT) { port->tx_cb(UART_FIFO_SIZE - ((UFSTAT(baddr) & \ UFSTAT_TX_FIFO_CNT_MASK) >> UFSTAT_TX_FIFO_CNT_POS)); } #endif } #ifdef UC870X_DEBUG /*#define LOGF_ENABLE*/ #include "logf.h" #if CONFIG_CPU == S5L8702 static int get_bitrate(int uclk, int brdiv, int brcon, int frame_len) { logf("get_bitrate(%d, %d, 0x%08x, %d)", uclk, brdiv, brcon, frame_len); int avg_speed; int speed_sum = 0; unsigned int frame_width = 0; /* in UCLK clock ticks */ /* calculate resulting speed for every frame len */ for (int bit = 0; bit < frame_len; bit++) { frame_width += brdiv * 16; int incdec = ((brcon >> UBRCON_JITTER_POS(bit)) & UBRCON_JITTER_MASK); if (incdec == UBRCON_JITTER_INC) frame_width += brdiv; else if (incdec == UBRCON_JITTER_DEC) frame_width -= brdiv; /* speed = truncate((UCLK / (real_frame_width / NBITS)) + 0.5) XXX: overflows for big UCLK */ int speed = (((uclk*(bit+1))<<1) + frame_width) / (frame_width<<1); speed_sum += speed; logf(" %d: %c %d", bit, ((incdec == UBRCON_JITTER_INC) ? 'i' : ((incdec == UBRCON_JITTER_DEC) ? 'd' : '.')), speed); } /* average of the speed for all frame lengths */ avg_speed = speed_sum / frame_len; logf(" avg speed = %d", avg_speed); return avg_speed; } #endif /* CONFIG_CPU == S5L8702 */ void uartc_port_get_line_info(struct uartc_port *port, int *tx_status, int *rx_status, int *tx_speed, int *rx_speed, char *line_cfg) { uint32_t baddr = port->baddr; uint32_t ucon = _UCON_RD(baddr); if (tx_status) *tx_status = ((ucon >> UCON_TX_MODE_POS) & UCON_TX_MODE_MASK) ? 1 : 0; if (rx_status) *rx_status = ((ucon >> UCON_RX_MODE_POS) & UCON_RX_MODE_MASK) ? 1 : 0; uint32_t ulcon = ULCON(baddr); int n_data = ((ulcon >> ULCON_DATA_BITS_POS) & ULCON_DATA_BITS_MASK) + 5; int n_stop = ((ulcon >> ULCON_STOP_BITS_POS) & ULCON_STOP_BITS_MASK) + 1; int parity = (ulcon >> ULCON_PARITY_POS) & ULCON_PARITY_MASK; uint32_t brdiv = UBRDIV(baddr) + 1; #if CONFIG_CPU == S5L8702 int frame_len = 1 + n_data + (parity ? 1 : 0) + n_stop; if (tx_speed) *tx_speed = get_bitrate(port->clkhz, brdiv, UBRCONTX(baddr), frame_len); if (rx_speed) *rx_speed = get_bitrate(port->clkhz, brdiv, UBRCONRX(baddr), frame_len); #else /* speed = truncate(UCLK/(16*brdiv) + 0.5) */ int speed = (port->clkhz + (brdiv << 3)) / (brdiv << 4); if (tx_speed) *tx_speed = speed; if (rx_speed) *rx_speed = speed; #endif if (line_cfg) { line_cfg[0] = '0' + n_data; line_cfg[1] = ((parity == ULCON_PARITY_NONE) ? 'N' : ((parity == ULCON_PARITY_EVEN) ? 'E' : ((parity == ULCON_PARITY_ODD) ? 'O' : ((parity == ULCON_PARITY_FORCE_1) ? 'M' : ((parity == ULCON_PARITY_FORCE_0) ? 'S' : '?'))))); line_cfg[2] = '0' + n_stop; line_cfg[3] = '\0'; } } #if CONFIG_CPU != S5L8700 /* Autobauding */ int uartc_port_get_abr_info(struct uartc_port *port, uint32_t *abr_cnt) { int status; uint32_t abr_status; int flags = disable_irq_save(); abr_status = uartc_port_abr_status(port); if (_UCON_RD(port->baddr) & UCON_AUTOBR_START_BIT) { if (abr_status == UABRSTAT_STATUS_COUNTING) status = ABR_INFO_ST_COUNTING; /* waiting for rising edge */ else status = ABR_INFO_ST_LAUNCHED; /* waiting for falling edge */ } else { if (abr_status == UABRSTAT_STATUS_COUNTING) status = ABR_INFO_ST_ABNORMAL; else status = ABR_INFO_ST_IDLE; } if (abr_cnt) *abr_cnt = UABRCNT(port->baddr); restore_irq(flags); return status; } #endif /* CONFIG_CPU != S5L8700 */ #endif /* UC870X_DEBUG */