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https://github.com/brain-hackers/u-boot-brain
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41575d8e4c
This construct is quite long-winded. In earlier days it made some sense since auto-allocation was a strange concept. But with driver model now used pretty universally, we can shorten this to 'auto'. This reduces verbosity and makes it easier to read. Coincidentally it also ensures that every declaration is on one line, thus making dtoc's job easier. Signed-off-by: Simon Glass <sjg@chromium.org>
585 lines
14 KiB
C
585 lines
14 KiB
C
// SPDX-License-Identifier: GPL-2.0+
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/*
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* eSPI controller driver.
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*
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* Copyright 2010-2011 Freescale Semiconductor, Inc.
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* Copyright 2020 NXP
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* Author: Mingkai Hu (Mingkai.hu@freescale.com)
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* Chuanhua Han (chuanhua.han@nxp.com)
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*/
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#include <common.h>
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#include <log.h>
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#include <linux/bitops.h>
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#include <linux/delay.h>
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#include <malloc.h>
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#include <spi.h>
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#include <asm/immap_85xx.h>
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#include <dm.h>
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#include <errno.h>
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#include <fdtdec.h>
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#include <dm/platform_data/fsl_espi.h>
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struct fsl_spi_slave {
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struct spi_slave slave;
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ccsr_espi_t *espi;
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u32 speed_hz;
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unsigned int cs;
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unsigned int div16;
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unsigned int pm;
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int tx_timeout;
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unsigned int mode;
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size_t cmd_len;
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u8 cmd_buf[16];
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size_t data_len;
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unsigned int max_transfer_length;
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};
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#define to_fsl_spi_slave(s) container_of(s, struct fsl_spi_slave, slave)
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#define US_PER_SECOND 1000000UL
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/* default SCK frequency, unit: HZ */
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#define FSL_ESPI_DEFAULT_SCK_FREQ 10000000
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#define ESPI_MAX_CS_NUM 4
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#define ESPI_FIFO_WIDTH_BIT 32
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#define ESPI_EV_RNE BIT(9)
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#define ESPI_EV_TNF BIT(8)
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#define ESPI_EV_DON BIT(14)
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#define ESPI_EV_TXE BIT(15)
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#define ESPI_EV_RFCNT_SHIFT 24
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#define ESPI_EV_RFCNT_MASK (0x3f << ESPI_EV_RFCNT_SHIFT)
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#define ESPI_MODE_EN BIT(31) /* Enable interface */
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#define ESPI_MODE_TXTHR(x) ((x) << 8) /* Tx FIFO threshold */
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#define ESPI_MODE_RXTHR(x) ((x) << 0) /* Rx FIFO threshold */
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#define ESPI_COM_CS(x) ((x) << 30)
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#define ESPI_COM_TRANLEN(x) ((x) << 0)
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#define ESPI_CSMODE_CI_INACTIVEHIGH BIT(31)
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#define ESPI_CSMODE_CP_BEGIN_EDGCLK BIT(30)
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#define ESPI_CSMODE_REV_MSB_FIRST BIT(29)
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#define ESPI_CSMODE_DIV16 BIT(28)
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#define ESPI_CSMODE_PM(x) ((x) << 24)
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#define ESPI_CSMODE_POL_ASSERTED_LOW BIT(20)
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#define ESPI_CSMODE_LEN(x) ((x) << 16)
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#define ESPI_CSMODE_CSBEF(x) ((x) << 12)
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#define ESPI_CSMODE_CSAFT(x) ((x) << 8)
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#define ESPI_CSMODE_CSCG(x) ((x) << 3)
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#define ESPI_CSMODE_INIT_VAL (ESPI_CSMODE_POL_ASSERTED_LOW | \
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ESPI_CSMODE_CSBEF(0) | ESPI_CSMODE_CSAFT(0) | \
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ESPI_CSMODE_CSCG(1))
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#define ESPI_MAX_DATA_TRANSFER_LEN 0xFFF0
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void fsl_spi_cs_activate(struct spi_slave *slave, uint cs)
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{
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struct fsl_spi_slave *fsl = to_fsl_spi_slave(slave);
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ccsr_espi_t *espi = fsl->espi;
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unsigned int com = 0;
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size_t data_len = fsl->data_len;
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com &= ~(ESPI_COM_CS(0x3) | ESPI_COM_TRANLEN(0xFFFF));
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com |= ESPI_COM_CS(cs);
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com |= ESPI_COM_TRANLEN(data_len - 1);
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out_be32(&espi->com, com);
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}
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void fsl_spi_cs_deactivate(struct spi_slave *slave)
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{
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struct fsl_spi_slave *fsl = to_fsl_spi_slave(slave);
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ccsr_espi_t *espi = fsl->espi;
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/* clear the RXCNT and TXCNT */
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out_be32(&espi->mode, in_be32(&espi->mode) & (~ESPI_MODE_EN));
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out_be32(&espi->mode, in_be32(&espi->mode) | ESPI_MODE_EN);
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}
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static void fsl_espi_tx(struct fsl_spi_slave *fsl, const void *dout)
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{
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ccsr_espi_t *espi = fsl->espi;
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unsigned int tmpdout, event;
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int tmp_tx_timeout;
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if (dout)
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tmpdout = *(u32 *)dout;
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else
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tmpdout = 0;
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out_be32(&espi->tx, tmpdout);
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out_be32(&espi->event, ESPI_EV_TNF);
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debug("***spi_xfer:...%08x written\n", tmpdout);
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tmp_tx_timeout = fsl->tx_timeout;
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/* Wait for eSPI transmit to go out */
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while (tmp_tx_timeout--) {
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event = in_be32(&espi->event);
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if (event & ESPI_EV_DON || event & ESPI_EV_TXE) {
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out_be32(&espi->event, ESPI_EV_TXE);
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break;
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}
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udelay(1);
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}
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if (tmp_tx_timeout < 0)
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debug("***spi_xfer:...Tx timeout! event = %08x\n", event);
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}
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static int fsl_espi_rx(struct fsl_spi_slave *fsl, void *din,
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unsigned int bytes)
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{
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ccsr_espi_t *espi = fsl->espi;
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unsigned int tmpdin, rx_times;
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unsigned char *buf, *p_cursor;
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if (bytes <= 0)
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return 0;
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rx_times = DIV_ROUND_UP(bytes, 4);
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buf = (unsigned char *)malloc(4 * rx_times);
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if (!buf) {
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debug("SF: Failed to malloc memory.\n");
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return -1;
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}
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p_cursor = buf;
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while (rx_times--) {
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tmpdin = in_be32(&espi->rx);
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debug("***spi_xfer:...%08x readed\n", tmpdin);
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*(u32 *)p_cursor = tmpdin;
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p_cursor += 4;
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}
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if (din)
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memcpy(din, buf, bytes);
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free(buf);
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out_be32(&espi->event, ESPI_EV_RNE);
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return bytes;
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}
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void espi_release_bus(struct fsl_spi_slave *fsl)
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{
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/* Disable the SPI hardware */
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out_be32(&fsl->espi->mode,
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in_be32(&fsl->espi->mode) & (~ESPI_MODE_EN));
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}
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int espi_xfer(struct fsl_spi_slave *fsl, uint cs, unsigned int bitlen,
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const void *data_out, void *data_in, unsigned long flags)
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{
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struct spi_slave *slave = &fsl->slave;
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ccsr_espi_t *espi = fsl->espi;
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unsigned int event, rx_bytes;
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const void *dout = NULL;
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void *din = NULL;
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int len = 0;
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int num_blks, num_chunks, max_tran_len, tran_len;
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int num_bytes;
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unsigned char *buffer = NULL;
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size_t buf_len;
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u8 *cmd_buf = fsl->cmd_buf;
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size_t cmd_len = fsl->cmd_len;
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size_t data_len = bitlen / 8;
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size_t rx_offset = 0;
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int rf_cnt;
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max_tran_len = fsl->max_transfer_length;
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switch (flags) {
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case SPI_XFER_BEGIN:
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cmd_len = data_len;
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fsl->cmd_len = cmd_len;
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memcpy(cmd_buf, data_out, cmd_len);
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return 0;
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case 0:
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case SPI_XFER_END:
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if (bitlen == 0) {
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fsl_spi_cs_deactivate(slave);
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return 0;
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}
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buf_len = 2 * cmd_len + min(data_len, (size_t)max_tran_len);
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len = cmd_len + data_len;
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rx_offset = cmd_len;
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buffer = (unsigned char *)malloc(buf_len);
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if (!buffer) {
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debug("SF: Failed to malloc memory.\n");
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return 1;
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}
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memcpy(buffer, cmd_buf, cmd_len);
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if (data_in == NULL)
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memcpy(buffer + cmd_len, data_out, data_len);
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break;
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case SPI_XFER_BEGIN | SPI_XFER_END:
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len = data_len;
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buffer = (unsigned char *)malloc(len * 2);
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if (!buffer) {
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debug("SF: Failed to malloc memory.\n");
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return 1;
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}
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memcpy(buffer, data_out, len);
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rx_offset = len;
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cmd_len = 0;
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break;
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}
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debug("spi_xfer: data_out %08X(%p) data_in %08X(%p) len %u\n",
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*(uint *)data_out, data_out, *(uint *)data_in, data_in, len);
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num_chunks = DIV_ROUND_UP(data_len, max_tran_len);
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while (num_chunks--) {
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if (data_in)
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din = buffer + rx_offset;
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dout = buffer;
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tran_len = min(data_len, (size_t)max_tran_len);
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num_blks = DIV_ROUND_UP(tran_len + cmd_len, 4);
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num_bytes = (tran_len + cmd_len) % 4;
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fsl->data_len = tran_len + cmd_len;
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fsl_spi_cs_activate(slave, cs);
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/* Clear all eSPI events */
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out_be32(&espi->event , 0xffffffff);
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/* handle data in 32-bit chunks */
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while (num_blks) {
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event = in_be32(&espi->event);
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if (event & ESPI_EV_TNF) {
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fsl_espi_tx(fsl, dout);
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/* Set up the next iteration */
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if (len > 4) {
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len -= 4;
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dout += 4;
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}
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}
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event = in_be32(&espi->event);
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if (event & ESPI_EV_RNE) {
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rf_cnt = ((event & ESPI_EV_RFCNT_MASK)
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>> ESPI_EV_RFCNT_SHIFT);
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if (rf_cnt >= 4)
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rx_bytes = 4;
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else if (num_blks == 1 && rf_cnt == num_bytes)
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rx_bytes = num_bytes;
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else
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continue;
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if (fsl_espi_rx(fsl, din, rx_bytes)
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== rx_bytes) {
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num_blks--;
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if (din)
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din = (unsigned char *)din
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+ rx_bytes;
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}
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}
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}
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if (data_in) {
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memcpy(data_in, buffer + 2 * cmd_len, tran_len);
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if (*buffer == 0x0b) {
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data_in += tran_len;
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data_len -= tran_len;
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*(int *)buffer += tran_len;
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}
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}
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fsl_spi_cs_deactivate(slave);
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}
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free(buffer);
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return 0;
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}
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void espi_claim_bus(struct fsl_spi_slave *fsl, unsigned int cs)
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{
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ccsr_espi_t *espi = fsl->espi;
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unsigned char pm = fsl->pm;
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unsigned int mode = fsl->mode;
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unsigned int div16 = fsl->div16;
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int i;
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/* Enable eSPI interface */
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out_be32(&espi->mode, ESPI_MODE_RXTHR(3)
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| ESPI_MODE_TXTHR(4) | ESPI_MODE_EN);
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out_be32(&espi->event, 0xffffffff); /* Clear all eSPI events */
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out_be32(&espi->mask, 0x00000000); /* Mask all eSPI interrupts */
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/* Init CS mode interface */
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for (i = 0; i < ESPI_MAX_CS_NUM; i++)
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out_be32(&espi->csmode[i], ESPI_CSMODE_INIT_VAL);
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out_be32(&espi->csmode[cs], in_be32(&espi->csmode[cs]) &
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~(ESPI_CSMODE_PM(0xF) | ESPI_CSMODE_DIV16
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| ESPI_CSMODE_CI_INACTIVEHIGH | ESPI_CSMODE_CP_BEGIN_EDGCLK
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| ESPI_CSMODE_REV_MSB_FIRST | ESPI_CSMODE_LEN(0xF)));
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/* Set eSPI BRG clock source */
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out_be32(&espi->csmode[cs], in_be32(&espi->csmode[cs])
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| ESPI_CSMODE_PM(pm) | div16);
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/* Set eSPI mode */
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if (mode & SPI_CPHA)
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out_be32(&espi->csmode[cs], in_be32(&espi->csmode[cs])
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| ESPI_CSMODE_CP_BEGIN_EDGCLK);
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if (mode & SPI_CPOL)
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out_be32(&espi->csmode[cs], in_be32(&espi->csmode[cs])
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| ESPI_CSMODE_CI_INACTIVEHIGH);
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/* Character bit order: msb first */
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out_be32(&espi->csmode[cs], in_be32(&espi->csmode[cs])
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| ESPI_CSMODE_REV_MSB_FIRST);
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/* Character length in bits, between 0x3~0xf, i.e. 4bits~16bits */
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out_be32(&espi->csmode[cs], in_be32(&espi->csmode[cs])
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| ESPI_CSMODE_LEN(7));
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}
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void espi_setup_slave(struct fsl_spi_slave *fsl)
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{
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unsigned int max_hz;
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sys_info_t sysinfo;
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unsigned long spibrg = 0;
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unsigned long spi_freq = 0;
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unsigned char pm = 0;
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max_hz = fsl->speed_hz;
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get_sys_info(&sysinfo);
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spibrg = sysinfo.freq_systembus / 2;
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fsl->div16 = 0;
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if ((spibrg / max_hz) > 32) {
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fsl->div16 = ESPI_CSMODE_DIV16;
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pm = spibrg / (max_hz * 16 * 2);
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if (pm > 16) {
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pm = 16;
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debug("max_hz is too low: %d Hz, %ld Hz is used.\n",
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max_hz, spibrg / (32 * 16));
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}
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} else {
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pm = spibrg / (max_hz * 2);
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}
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if (pm)
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pm--;
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fsl->pm = pm;
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if (fsl->div16)
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spi_freq = spibrg / ((pm + 1) * 2 * 16);
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else
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spi_freq = spibrg / ((pm + 1) * 2);
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/* set tx_timeout to 10 times of one espi FIFO entry go out */
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fsl->tx_timeout = DIV_ROUND_UP((US_PER_SECOND * ESPI_FIFO_WIDTH_BIT
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* 10), spi_freq);/* Set eSPI BRG clock source */
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}
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#if !CONFIG_IS_ENABLED(DM_SPI)
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int spi_cs_is_valid(unsigned int bus, unsigned int cs)
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{
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return bus == 0 && cs < ESPI_MAX_CS_NUM;
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}
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struct spi_slave *spi_setup_slave(unsigned int bus, unsigned int cs,
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unsigned int max_hz, unsigned int mode)
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{
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struct fsl_spi_slave *fsl;
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if (!spi_cs_is_valid(bus, cs))
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return NULL;
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fsl = spi_alloc_slave(struct fsl_spi_slave, bus, cs);
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if (!fsl)
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return NULL;
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fsl->espi = (void *)(CONFIG_SYS_MPC85xx_ESPI_ADDR);
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fsl->mode = mode;
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fsl->max_transfer_length = ESPI_MAX_DATA_TRANSFER_LEN;
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fsl->speed_hz = max_hz;
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espi_setup_slave(fsl);
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return &fsl->slave;
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}
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void spi_free_slave(struct spi_slave *slave)
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{
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struct fsl_spi_slave *fsl = to_fsl_spi_slave(slave);
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free(fsl);
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}
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int spi_claim_bus(struct spi_slave *slave)
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{
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struct fsl_spi_slave *fsl = to_fsl_spi_slave(slave);
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espi_claim_bus(fsl, slave->cs);
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return 0;
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}
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void spi_release_bus(struct spi_slave *slave)
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{
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struct fsl_spi_slave *fsl = to_fsl_spi_slave(slave);
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espi_release_bus(fsl);
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}
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int spi_xfer(struct spi_slave *slave, unsigned int bitlen, const void *dout,
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void *din, unsigned long flags)
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{
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struct fsl_spi_slave *fsl = (struct fsl_spi_slave *)slave;
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return espi_xfer(fsl, slave->cs, bitlen, dout, din, flags);
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}
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#else
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static void __espi_set_speed(struct fsl_spi_slave *fsl)
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{
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espi_setup_slave(fsl);
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/* Set eSPI BRG clock source */
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out_be32(&fsl->espi->csmode[fsl->cs],
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in_be32(&fsl->espi->csmode[fsl->cs])
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| ESPI_CSMODE_PM(fsl->pm) | fsl->div16);
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}
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static void __espi_set_mode(struct fsl_spi_slave *fsl)
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{
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/* Set eSPI mode */
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if (fsl->mode & SPI_CPHA)
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out_be32(&fsl->espi->csmode[fsl->cs],
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in_be32(&fsl->espi->csmode[fsl->cs])
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| ESPI_CSMODE_CP_BEGIN_EDGCLK);
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if (fsl->mode & SPI_CPOL)
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out_be32(&fsl->espi->csmode[fsl->cs],
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in_be32(&fsl->espi->csmode[fsl->cs])
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| ESPI_CSMODE_CI_INACTIVEHIGH);
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}
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static int fsl_espi_claim_bus(struct udevice *dev)
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{
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struct udevice *bus = dev->parent;
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struct fsl_spi_slave *fsl = dev_get_priv(bus);
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espi_claim_bus(fsl, fsl->cs);
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return 0;
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}
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static int fsl_espi_release_bus(struct udevice *dev)
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{
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struct udevice *bus = dev->parent;
|
|
struct fsl_spi_slave *fsl = dev_get_priv(bus);
|
|
|
|
espi_release_bus(fsl);
|
|
|
|
return 0;
|
|
}
|
|
|
|
static int fsl_espi_xfer(struct udevice *dev, unsigned int bitlen,
|
|
const void *dout, void *din, unsigned long flags)
|
|
{
|
|
struct udevice *bus = dev->parent;
|
|
struct fsl_spi_slave *fsl = dev_get_priv(bus);
|
|
|
|
return espi_xfer(fsl, fsl->cs, bitlen, dout, din, flags);
|
|
}
|
|
|
|
static int fsl_espi_set_speed(struct udevice *bus, uint speed)
|
|
{
|
|
struct fsl_spi_slave *fsl = dev_get_priv(bus);
|
|
|
|
debug("%s speed %u\n", __func__, speed);
|
|
fsl->speed_hz = speed;
|
|
|
|
__espi_set_speed(fsl);
|
|
|
|
return 0;
|
|
}
|
|
|
|
static int fsl_espi_set_mode(struct udevice *bus, uint mode)
|
|
{
|
|
struct fsl_spi_slave *fsl = dev_get_priv(bus);
|
|
|
|
debug("%s mode %u\n", __func__, mode);
|
|
fsl->mode = mode;
|
|
|
|
__espi_set_mode(fsl);
|
|
|
|
return 0;
|
|
}
|
|
|
|
static int fsl_espi_child_pre_probe(struct udevice *dev)
|
|
{
|
|
struct dm_spi_slave_platdata *slave_plat = dev_get_parent_platdata(dev);
|
|
struct udevice *bus = dev->parent;
|
|
struct fsl_spi_slave *fsl = dev_get_priv(bus);
|
|
|
|
debug("%s cs %u\n", __func__, slave_plat->cs);
|
|
fsl->cs = slave_plat->cs;
|
|
|
|
return 0;
|
|
}
|
|
|
|
static int fsl_espi_probe(struct udevice *bus)
|
|
{
|
|
struct fsl_espi_platdata *plat = dev_get_platdata(bus);
|
|
struct fsl_spi_slave *fsl = dev_get_priv(bus);
|
|
|
|
fsl->espi = (ccsr_espi_t *)((u32)plat->regs_addr);
|
|
fsl->max_transfer_length = ESPI_MAX_DATA_TRANSFER_LEN;
|
|
fsl->speed_hz = plat->speed_hz;
|
|
|
|
debug("%s probe done, bus-num %d.\n", bus->name, bus->seq);
|
|
|
|
return 0;
|
|
}
|
|
|
|
static const struct dm_spi_ops fsl_espi_ops = {
|
|
.claim_bus = fsl_espi_claim_bus,
|
|
.release_bus = fsl_espi_release_bus,
|
|
.xfer = fsl_espi_xfer,
|
|
.set_speed = fsl_espi_set_speed,
|
|
.set_mode = fsl_espi_set_mode,
|
|
};
|
|
|
|
#if CONFIG_IS_ENABLED(OF_CONTROL) && !CONFIG_IS_ENABLED(OF_PLATDATA)
|
|
static int fsl_espi_ofdata_to_platdata(struct udevice *bus)
|
|
{
|
|
fdt_addr_t addr;
|
|
struct fsl_espi_platdata *plat = bus->platdata;
|
|
const void *blob = gd->fdt_blob;
|
|
int node = dev_of_offset(bus);
|
|
|
|
addr = dev_read_addr(bus);
|
|
if (addr == FDT_ADDR_T_NONE)
|
|
return -EINVAL;
|
|
|
|
plat->regs_addr = lower_32_bits(addr);
|
|
plat->speed_hz = fdtdec_get_int(blob, node, "spi-max-frequency",
|
|
FSL_ESPI_DEFAULT_SCK_FREQ);
|
|
|
|
debug("ESPI: regs=%p, max-frequency=%d\n",
|
|
&plat->regs_addr, plat->speed_hz);
|
|
|
|
return 0;
|
|
}
|
|
|
|
static const struct udevice_id fsl_espi_ids[] = {
|
|
{ .compatible = "fsl,mpc8536-espi" },
|
|
{ }
|
|
};
|
|
#endif
|
|
|
|
U_BOOT_DRIVER(fsl_espi) = {
|
|
.name = "fsl_espi",
|
|
.id = UCLASS_SPI,
|
|
#if CONFIG_IS_ENABLED(OF_CONTROL) && !CONFIG_IS_ENABLED(OF_PLATDATA)
|
|
.of_match = fsl_espi_ids,
|
|
.ofdata_to_platdata = fsl_espi_ofdata_to_platdata,
|
|
#endif
|
|
.ops = &fsl_espi_ops,
|
|
.platdata_auto = sizeof(struct fsl_espi_platdata),
|
|
.priv_auto = sizeof(struct fsl_spi_slave),
|
|
.probe = fsl_espi_probe,
|
|
.child_pre_probe = fsl_espi_child_pre_probe,
|
|
};
|
|
#endif
|