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fel-remotefunc-spi-data-transfer.c
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fel-remotefunc-spi-data-transfer.c
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/*
* Copyright © 2016 Siarhei Siamashka <[email protected]>
*
* Permission is hereby granted, free of charge, to any person obtaining a
* copy of this software and associated documentation files (the "Software"),
* to deal in the Software without restriction, including without limitation
* the rights to use, copy, modify, merge, publish, distribute, sublicense,
* and/or sell copies of the Software, and to permit persons to whom the
* Software is furnished to do so, subject to the following conditions:
*
* The above copyright notice and this permission notice (including the next
* paragraph) shall be included in all copies or substantial portions of the
* Software.
*
* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
* IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
* FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL
* THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
* LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING
* FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER
* DEALINGS IN THE SOFTWARE.
*/
typedef unsigned int u32;
typedef unsigned char u8;
#define readl(addr) (*((volatile u32 *)(addr)))
#define writel(v, addr) (*((volatile u32 *)(addr)) = (u32)(v))
#define readb(addr) (*((volatile u8 *)(addr)))
#define writeb(v, addr) (*((volatile u8 *)(addr)) = (u8)(v))
/*
* This is a basic full-duplex SPI data transfer function (we are sending a
* block of data and receiving the same amount of data back), doing the job
* without any help from DMA. And because we can be running in some rather
* adverse conditions (with default PMIC settings, low CPU clock speed and
* CPU caches disabled), it is necessary to use 32-bit accesses to read/write
* the FIFO buffers. As a result, Allwinner A13 with the default 408MHz CPU
* clock speed can successfully handle at least 12 MHz SPI clock speed.
*
* Supports both sun4i and sun6i variants of the SPI controller (they only
* need different hardware register addresses passed as arguments).
*/
static void inline __attribute((always_inline)) spi_data_transfer(void *buf,
u32 bufsize,
void *spi_ctl_reg,
u32 spi_ctl_xch_bitmask,
void *spi_fifo_reg,
void *spi_tx_reg,
void *spi_rx_reg,
void *spi_bc_reg,
void *spi_tc_reg,
void *spi_bcc_reg)
{
u32 cnt;
u32 rxsize = bufsize;
u32 txsize = bufsize;
u8 *rxbuf8 = buf;
u8 *txbuf8 = buf;
u32 *rxbuf;
u32 *txbuf;
u32 cpsr;
/* sun6i uses 3 registers, sun4i only needs 2 */
writel(bufsize, spi_bc_reg);
writel(bufsize, spi_tc_reg);
if (spi_bcc_reg)
writel(bufsize, spi_bcc_reg);
/* Fill the TX buffer with some initial data */
cnt = (-(u32)txbuf8 & 3) + 60;
if (cnt > txsize)
cnt = txsize;
while (cnt-- > 0) {
writeb(*txbuf8++, spi_tx_reg);
txsize--;
}
/* Temporarily disable IRQ & FIQ */
asm volatile("mrs %0, cpsr" : "=r" (cpsr));
asm volatile("msr cpsr_c, %0" :: "r" (cpsr | 0xC0));
/* Start the data transfer */
writel(readl(spi_ctl_reg) | spi_ctl_xch_bitmask, spi_ctl_reg);
/* Read the initial unaligned part of the data */
cnt = (-(u32)rxbuf8 & 3);
if (cnt > rxsize)
cnt = rxsize;
while (cnt > 0) {
u32 fiforeg = readl(spi_fifo_reg);
int rxfifo = fiforeg & 0x7F;
if (rxfifo > 0) {
*rxbuf8++ = readb(spi_rx_reg);
cnt--;
rxsize--;
}
}
/* Fast processing of the aligned part (read/write 32-bit at a time) */
rxbuf = (u32 *)rxbuf8;
txbuf = (u32 *)txbuf8;
while (rxsize >= 4) {
u32 fiforeg = readl(spi_fifo_reg);
int rxfifo = fiforeg & 0x7F;
int txfifo = (fiforeg >> 16) & 0x7F;
if (rxfifo >= 4) {
*rxbuf++ = readl(spi_rx_reg);
rxsize -= 4;
}
if (txfifo < 60 && txsize >= 4) {
writel(*txbuf++, spi_tx_reg);
txsize -= 4;
}
}
/* Handle the trailing part pf the data */
rxbuf8 = (u8 *)rxbuf;
txbuf8 = (u8 *)txbuf;
while (rxsize >= 1) {
u32 fiforeg = readl(spi_fifo_reg);
int rxfifo = fiforeg & 0x7F;
int txfifo = (fiforeg >> 16) & 0x7F;
if (rxfifo >= 1) {
*rxbuf8++ = readb(spi_rx_reg);
rxsize -= 1;
}
if (txfifo < 60 && txsize >= 1) {
writeb(*txbuf8++, spi_tx_reg);
txsize -= 1;
}
}
/* Restore CPSR */
asm volatile("msr cpsr_c, %0" :: "r" (cpsr));
}
void spi_batch_data_transfer(u8 *buf,
void *spi_ctl_reg,
u32 spi_ctl_xch_bitmask,
void *spi_fifo_reg,
void *spi_tx_reg,
void *spi_rx_reg,
void *spi_bc_reg,
void *spi_tc_reg,
void *spi_bcc_reg)
{
u8 wait_for_completion_cmd[2];
u8 *backup_buf;
u32 bufsize;
while (1) {
u32 code = (buf[0] << 8) | buf[1];
/* End of data */
if (code == 0)
return;
if (code == 0xFFFF) {
/* Wait for completion, part 1 */
backup_buf = buf;
buf = wait_for_completion_cmd;
wait_for_completion_cmd[0] = 0x05;
bufsize = 2;
} else {
/* Normal buffer */
buf += 2;
bufsize = code;
}
spi_data_transfer(buf, bufsize, spi_ctl_reg, spi_ctl_xch_bitmask,
spi_fifo_reg, spi_tx_reg, spi_rx_reg,
spi_bc_reg, spi_tc_reg, spi_bcc_reg);
buf += bufsize;
if (code == 0xFFFF) {
/* Wait for completion, part 2 */
buf = backup_buf;
if (wait_for_completion_cmd[1] & 1) {
/* Still busy */
continue;
}
/* Advance to the next code */
buf = backup_buf + 2;
}
}
}