Florent Kermarrec
|
4721029e58
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CHANGES.md: Update.
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2023-12-20 15:25:14 +01:00 |
Florent Kermarrec
|
fadea1d31b
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CHANGES.md: Update.
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2023-12-20 08:08:42 +01:00 |
Florent Kermarrec
|
048c42820c
|
setup.py: Switch minimum Python version to 3.7 (To allow more than 255 arguments in functions).
|
2023-12-19 10:32:12 +01:00 |
Florent Kermarrec
|
0c3cda3ee8
|
CHANGES.md: Update.
|
2023-12-19 10:09:44 +01:00 |
Florent Kermarrec
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b6e89c646e
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CHANGES: Update.
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2023-12-14 11:08:55 +01:00 |
Florent Kermarrec
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8d6120c476
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CHANGES: Update.
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2023-12-08 12:11:37 +01:00 |
Florent Kermarrec
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afaeca98ce
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CHANGES.md: Update.
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2023-12-07 16:33:32 +01:00 |
Florent Kermarrec
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4353135f02
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CHANGES: Update.
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2023-11-16 13:47:17 +01:00 |
Florent Kermarrec
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639c899838
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CHANGES.md: Update.
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2023-11-10 10:27:37 +01:00 |
Florent Kermarrec
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c419706856
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CHANGES: Update.
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2023-11-09 15:24:40 +01:00 |
Florent Kermarrec
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6598fe9c12
|
cores/cpu: Add KianV CPU (RV32IMA) initial support.
litex_sim --cpu-type=kianv:
__ _ __ _ __
/ / (_) /____ | |/_/
/ /__/ / __/ -_)> <
/____/_/\__/\__/_/|_|
Build your hardware, easily!
(c) Copyright 2012-2023 Enjoy-Digital
(c) Copyright 2007-2015 M-Labs
BIOS built on Nov 8 2023 11:14:03
BIOS CRC passed (6984e675)
LiteX git sha1: c1e4b3a8
--=============== SoC ==================--
CPU: KianV-STANDARD @ 1MHz
BUS: WISHBONE 32-bit @ 4GiB
CSR: 32-bit data
ROM: 128.0KiB
SRAM: 8.0KiB
--============== Boot ==================--
Booting from serial...
Press Q or ESC to abort boot completely.
sL5DdSMmkekro
Timeout
No boot medium found
--============= Console ================--
litex> ident
Ident: LiteX Simulation 2023-11-08 11:14:00
litex>
|
2023-11-08 11:37:22 +01:00 |
Florent Kermarrec
|
9b8a5b6385
|
CHANGES: Update.
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2023-10-30 19:40:42 +01:00 |
Florent Kermarrec
|
fa629b782f
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CHANGES: Update.
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2023-10-27 11:40:31 +02:00 |
Florent Kermarrec
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69dc666177
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CHANGES: Update.
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2023-10-25 16:01:45 +02:00 |
Florent Kermarrec
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e426e78e31
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CHANGES.md: Update.
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2023-10-11 10:17:57 +02:00 |
Florent Kermarrec
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0890bf4c1f
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CHANGES: Update.
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2023-10-11 09:13:33 +02:00 |
Florent Kermarrec
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5380df3994
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CHANGES: Update.
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2023-10-06 19:50:52 +02:00 |
Florent Kermarrec
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cd8218779e
|
soc/cores/video/VideoFramebuffer: Add VTG/DMA synchronization when DMA is enabled to simplify use.
|
2023-10-06 10:11:34 +02:00 |
Florent Kermarrec
|
98eb27df52
|
CHANGES: Update.
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2023-10-05 08:25:52 +02:00 |
Florent Kermarrec
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f5b7c0d88e
|
CHANGES: Update.
|
2023-09-26 13:49:19 +02:00 |
Florent Kermarrec
|
04a33c5ddb
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CHANGES: Update.
|
2023-09-18 09:09:45 +02:00 |
Florent Kermarrec
|
8bd548d453
|
CHANGES.md: Start listing changes since 2023.08.
|
2023-09-18 09:02:05 +02:00 |
Florent Kermarrec
|
a2c2c211c5
|
Changes.md: Release 2023.08.
|
2023-09-14 10:47:37 +02:00 |
Florent Kermarrec
|
d165418719
|
CHANGES.md: Update.
|
2023-09-12 09:35:53 +02:00 |
Florent Kermarrec
|
fbae6e8e37
|
CHANGES.md: Update.
|
2023-09-07 14:27:12 +02:00 |
Florent Kermarrec
|
57faa9102f
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CHANGES: Update.
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2023-09-01 12:40:03 +02:00 |
Florent Kermarrec
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9854c9f322
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CHANGES: Update.
|
2023-08-30 18:11:11 +02:00 |
Florent Kermarrec
|
9528f89d45
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CHANGES: Update.
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2023-08-29 17:15:45 +02:00 |
Florent Kermarrec
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70e52b76fa
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CHANGES: Update.
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2023-08-28 16:04:43 +02:00 |
Florent Kermarrec
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688dae0112
|
cores/spi: Add new SPIMMAP core allowing doing SPI accesses directly from MMAP.
Implements a new SPIMMAP module, allowing accessing multiple SPI peripherals directly
from MMAP. It allows configurable SPI transactions: mode, bit order, and data width.
Developed and funded through a collaboration with MoTeC.
Example of integration:
# SPI MMAP ---------------------------------------------------------------------------------
spi_pads = Record([("clk", 1), ("cs_n", 8), ("mosi", 1), ("miso", 1)])
spi_mmap_tx_region = SoCRegion(origin=0x8000_0000, size=4096, cached=False)
spi_mmap_rx_region = SoCRegion(origin=0x8000_1000, size=4096, cached=False)
self.spi_mmap = SPIMMAP(
pads = spi_pads,
data_width = 32,
sys_clk_freq = sys_clk_freq,
tx_origin = spi_mmap_tx_region.origin,
rx_origin = spi_mmap_rx_region.origin,
tx_fifo_depth = 32,
rx_fifo_depth = 32,
)
self.bus.add_slave(name="spi_tx",
slave = self.spi_mmap.tx_mmap.bus,
region = spi_mmap_tx_region,
)
self.bus.add_slave(name="spi_rx",
slave = self.spi_mmap.rx_mmap.bus,
region = spi_mmap_rx_region,
)
self.irq.add("spi_mmap", use_loc_if_exists=True)
Example of use from CPU C firmware:
/* SPI TX Offsets */
#define SPI_TX_CTRL_ENABLE (1 << 0)
#define SPI_TX_CTRL_THRESHOLD (1 << 16)
#define SPI_TX_STAT_ONGOING (1 << 0)
#define SPI_TX_STAT_EMPTY (1 << 1)
#define SPI_TX_STAT_FULL (1 << 2)
#define SPI_TX_STAT_LEVEL (1 << 16)
/* SPI RX Offsets */
#define SPI_RX_CTRL_ENABLE (1 << 0)
#define SPI_RX_CTRL_THRESHOLD (1 << 16)
#define SPI_RX_STAT_ONGOING (1 << 0)
#define SPI_RX_STAT_EMPTY (1 << 1)
#define SPI_RX_STAT_FULL (1 << 2)
#define SPI_RX_STAT_LEVEL (1 << 16)
/* SPI TX/RX Engine */
#define SPI_TX_RX_ENGINE_ENABLE (1 << 0)
/* SPI SLOT Offsets */
#define SPI_SLOT_ENABLE (1 << 0)
#define SPI_SLOT_MODE (1 << 1)
#define SPI_SLOT_LENGTH (1 << 3)
#define SPI_SLOT_BITORDER (1 << 5)
#define SPI_SLOT_LOOPBACK (1 << 6)
#define SPI_SLOT_DIVIDER (1 << 16)
/* SPI SLOT Values */
#define SPI_SLOT_MODE_0 0b00
#define SPI_SLOT_MODE_3 0b11
#define SPI_SLOT_LENGTH_32B 0b00
#define SPI_SLOT_LENGTH_16B 0b01
#define SPI_SLOT_LENGTH_8B 0b10
#define SPI_SLOT_BITORDER_MSB_FIRST 0b0
#define SPI_SLOT_BITORDER_LSB_FIRST 0b1
#define SPI_SLOT_EV_TX (1 << 0)
#define SPI_SLOT_EV_RX (1 << 1)
/* Test SPI with various length (BE) */
void test_spi_length_8_16_32(void) {
volatile unsigned char *spi_tx_8 = (unsigned char *)SPI_TX_BASE;
volatile unsigned short *spi_tx_16 = (unsigned short *)SPI_TX_BASE;
volatile unsigned int *spi_tx_32 = (unsigned int *)SPI_TX_BASE;
volatile unsigned char *spi_rx_8 = (unsigned char *)SPI_RX_BASE;
volatile unsigned short *spi_rx_16 = (unsigned short *)SPI_RX_BASE;
volatile unsigned int *spi_rx_32 = (unsigned int *)SPI_RX_BASE;
int errors = 0;
printf("Test SPI with various length (BE): 8, 16 and 32-bit...\n");
/* Configure Slots */
spi_mmap_ctrl_slot_control0_write(
1 * SPI_SLOT_ENABLE |
SPI_SLOT_MODE_0 * SPI_SLOT_MODE |
SPI_SLOT_LENGTH_32B * SPI_SLOT_LENGTH |
SPI_SLOT_BITORDER_MSB_FIRST * SPI_SLOT_BITORDER |
1 * SPI_SLOT_LOOPBACK |
4 * SPI_SLOT_DIVIDER
);
spi_mmap_ctrl_slot_control1_write(
1 * SPI_SLOT_ENABLE |
SPI_SLOT_MODE_0 * SPI_SLOT_MODE |
SPI_SLOT_LENGTH_32B * SPI_SLOT_LENGTH |
SPI_SLOT_BITORDER_MSB_FIRST * SPI_SLOT_BITORDER |
1 * SPI_SLOT_LOOPBACK |
4 * SPI_SLOT_DIVIDER
);
spi_mmap_ctrl_slot_control2_write(
1 * SPI_SLOT_ENABLE |
SPI_SLOT_MODE_0 * SPI_SLOT_MODE |
SPI_SLOT_LENGTH_32B * SPI_SLOT_LENGTH |
SPI_SLOT_BITORDER_MSB_FIRST * SPI_SLOT_BITORDER |
1 * SPI_SLOT_LOOPBACK |
4 * SPI_SLOT_DIVIDER
);
spi_mmap_ctrl_slot_control3_write(
1 * SPI_SLOT_ENABLE |
SPI_SLOT_MODE_0 * SPI_SLOT_MODE |
SPI_SLOT_LENGTH_32B * SPI_SLOT_LENGTH |
SPI_SLOT_BITORDER_MSB_FIRST * SPI_SLOT_BITORDER |
1 * SPI_SLOT_LOOPBACK |
4 * SPI_SLOT_DIVIDER
);
/* Enable SPI Engine */
spi_mmap_tx_rx_engine_control_write(1 * SPI_TX_RX_ENGINE_ENABLE);
/* TX 8-bit transfers */
spi_tx_8[0] = 0x5a;
spi_tx_8[4] = 0x01;
spi_tx_8[8] = 0x5a;
spi_tx_8[12] = 0x01;
/* TX 16-bit transfers */
spi_tx_16[0] = 0x5aa5;
spi_tx_16[2] = 0x0102;
spi_tx_16[4] = 0x5aa5;
spi_tx_16[6] = 0x0102;
/* TX 32-bit transfers */
spi_tx_32[0] = 0x5aa55aa5;
spi_tx_32[1] = 0x01020304;
spi_tx_32[2] = 0x5aa55aa5;
spi_tx_32[3] = 0x01020304;
/* Small delay */
busy_wait(1);
/* Read RX 8-bit transfers */
if (spi_rx_8[ 0] != 0x5a)
errors++;
if (spi_rx_8[ 4] != 0x01)
errors++;
if (spi_rx_8[ 8] != 0x5a)
errors++;
if (spi_rx_8[12] != 0x01)
errors++;
/* Read RX 16-bit transfers */
if (spi_rx_16[0] != 0x5aa5)
errors++;
if (spi_rx_16[2] != 0x0102)
errors++;
if (spi_rx_16[4] != 0x5aa5)
errors++;
if (spi_rx_16[6] != 0x0102)
errors++;
/* Read RX 32-bit tranfers */
if (spi_rx_32[0] != 0x5aa55aa5)
errors++;
if (spi_rx_32[1] != 0x01020304)
errors++;
if (spi_rx_32[2] != 0x5aa55aa5)
errors++;
if (spi_rx_32[3] != 0x01020304)
errors++;
/* Disable SPI Engine */
spi_mmap_tx_rx_engine_control_write(0 * SPI_TX_RX_ENGINE_ENABLE);
/* Result */
printf("errors: %d\n", errors);
}
/* Test SPI with various clk divider */
void test_spi_clk_divider(void) {
volatile unsigned int *spi_tx_32 = (unsigned int *)SPI_TX_BASE;
volatile unsigned int *spi_rx_32 = (unsigned int *)SPI_RX_BASE;
int errors = 0;
printf("Test SPI with various clk divider: 4, 8, 16 and 32...\n");
/* Configure Slots */
spi_mmap_ctrl_slot_control0_write(
1 * SPI_SLOT_ENABLE |
SPI_SLOT_MODE_0 * SPI_SLOT_MODE |
SPI_SLOT_LENGTH_32B * SPI_SLOT_LENGTH |
SPI_SLOT_BITORDER_MSB_FIRST * SPI_SLOT_BITORDER |
1 * SPI_SLOT_LOOPBACK |
4 * SPI_SLOT_DIVIDER
);
spi_mmap_ctrl_slot_control1_write(
1 * SPI_SLOT_ENABLE |
SPI_SLOT_MODE_0 * SPI_SLOT_MODE |
SPI_SLOT_LENGTH_32B * SPI_SLOT_LENGTH |
SPI_SLOT_BITORDER_MSB_FIRST * SPI_SLOT_BITORDER |
1 * SPI_SLOT_LOOPBACK |
8 * SPI_SLOT_DIVIDER
);
spi_mmap_ctrl_slot_control2_write(
1 * SPI_SLOT_ENABLE |
SPI_SLOT_MODE_0 * SPI_SLOT_MODE |
SPI_SLOT_LENGTH_32B * SPI_SLOT_LENGTH |
SPI_SLOT_BITORDER_MSB_FIRST * SPI_SLOT_BITORDER |
1 * SPI_SLOT_LOOPBACK |
16 * SPI_SLOT_DIVIDER
);
spi_mmap_ctrl_slot_control3_write(
1 * SPI_SLOT_ENABLE |
SPI_SLOT_MODE_0 * SPI_SLOT_MODE |
SPI_SLOT_LENGTH_32B * SPI_SLOT_LENGTH |
SPI_SLOT_BITORDER_MSB_FIRST * SPI_SLOT_BITORDER |
1 * SPI_SLOT_LOOPBACK |
32 * SPI_SLOT_DIVIDER
);
/* Enable SPI Engine */
spi_mmap_tx_rx_engine_control_write(1 * SPI_TX_RX_ENGINE_ENABLE);
/* TX 32-bit transfers */
spi_tx_32[0] = 0x01020304;
spi_tx_32[1] = 0x5aa55aa5;
spi_tx_32[2] = 0x01020304;
spi_tx_32[3] = 0x5aa55aa5;
/* Small delay */
busy_wait(1);
/* Read RX 32-bit tranfers */
if (spi_rx_32[0] != 0x01020304)
errors++;
if (spi_rx_32[1] != 0x5aa55aa5)
errors++;
if (spi_rx_32[2] != 0x01020304)
errors++;
if (spi_rx_32[3] != 0x5aa55aa5)
errors++;
/* Disable SPI Engine */
spi_mmap_tx_rx_engine_control_write(0 * SPI_TX_RX_ENGINE_ENABLE);
/* Result */
printf("errors: %d\n", errors);
}
/* Test SPI with various SPI modes */
void test_spi_modes(void) {
volatile unsigned int *spi_tx_32 = (unsigned int *)SPI_TX_BASE;
volatile unsigned int *spi_rx_32 = (unsigned int *)SPI_RX_BASE;
int errors = 0;
printf("Test SPI with various SPI modes: 0 and 3...\n");
/* Configure Slots */
spi_mmap_ctrl_slot_control0_write(
1 * SPI_SLOT_ENABLE |
SPI_SLOT_MODE_0 * SPI_SLOT_MODE |
SPI_SLOT_LENGTH_32B * SPI_SLOT_LENGTH |
SPI_SLOT_BITORDER_MSB_FIRST * SPI_SLOT_BITORDER |
1 * SPI_SLOT_LOOPBACK |
4 * SPI_SLOT_DIVIDER
);
spi_mmap_ctrl_slot_control1_write(
1 * SPI_SLOT_ENABLE |
SPI_SLOT_MODE_3 * SPI_SLOT_MODE |
SPI_SLOT_LENGTH_32B * SPI_SLOT_LENGTH |
SPI_SLOT_BITORDER_MSB_FIRST * SPI_SLOT_BITORDER |
1 * SPI_SLOT_LOOPBACK |
4 * SPI_SLOT_DIVIDER
);
/* Enable SPI Engine */
spi_mmap_tx_rx_engine_control_write(1 * SPI_TX_RX_ENGINE_ENABLE);
/* TX 32-bit transfers */
spi_tx_32[0] = 0x5aa55aa5;
spi_tx_32[1] = 0x5aa55aa5;
/* Small delay */
busy_wait(1);
/* Read RX 32-bit tranfers */
if (spi_rx_32[0] != 0x5aa55aa5)
errors++;
if (spi_rx_32[1] != 0x5aa55aa5)
errors++;
/* Disable SPI Engine */
spi_mmap_tx_rx_engine_control_write(0 * SPI_TX_RX_ENGINE_ENABLE);
/* Result */
printf("errors: %d\n", errors);
}
/* Test SPI with various bitorders */
void test_spi_bitorders(void) {
volatile unsigned int *spi_tx_32 = (unsigned int *)SPI_TX_BASE;
volatile unsigned int *spi_rx_32 = (unsigned int *)SPI_RX_BASE;
int errors = 0;
printf("Test SPI with various bitorders: MSB and LSB first...\n");
/* Configure Slots */
spi_mmap_ctrl_slot_control0_write(
1 * SPI_SLOT_ENABLE |
SPI_SLOT_MODE_0 * SPI_SLOT_MODE |
SPI_SLOT_LENGTH_32B * SPI_SLOT_LENGTH |
SPI_SLOT_BITORDER_MSB_FIRST * SPI_SLOT_BITORDER |
1 * SPI_SLOT_LOOPBACK |
4 * SPI_SLOT_DIVIDER
);
spi_mmap_ctrl_slot_control1_write(
1 * SPI_SLOT_ENABLE |
SPI_SLOT_MODE_0 * SPI_SLOT_MODE |
SPI_SLOT_LENGTH_32B * SPI_SLOT_LENGTH |
SPI_SLOT_BITORDER_LSB_FIRST * SPI_SLOT_BITORDER |
1 * SPI_SLOT_LOOPBACK |
4 * SPI_SLOT_DIVIDER
);
/* Enable SPI Engine */
spi_mmap_tx_rx_engine_control_write(1 * SPI_TX_RX_ENGINE_ENABLE);
/* TX 32-bit transfers */
spi_tx_32[0] = 0xff000000;
spi_tx_32[1] = 0xff000000;
/* Small delay */
busy_wait(1);
/* Read RX 32-bit tranfers */
if (spi_rx_32[0] != 0xff000000)
errors++;
if (spi_rx_32[1] != 0xff000000)
errors++;
/* Disable SPI Engine */
spi_mmap_tx_rx_engine_control_write(0 * SPI_TX_RX_ENGINE_ENABLE);
/* Result */
printf("errors: %d\n", errors);
}
/* Test SPI TX/RX levels */
void test_spi_tx_rx_levels(void) {
volatile unsigned int *spi_tx_32 = (unsigned int *)SPI_TX_BASE;
volatile unsigned int *spi_rx_32 = (unsigned int *)SPI_RX_BASE;
int i;
int errors = 0;
int pattern;
printf("Test SPI TX/RX levels...\n");
/* Configure Slots */
spi_mmap_ctrl_slot_control0_write(
1 * SPI_SLOT_ENABLE |
SPI_SLOT_MODE_0 * SPI_SLOT_MODE |
SPI_SLOT_LENGTH_32B * SPI_SLOT_LENGTH |
SPI_SLOT_BITORDER_MSB_FIRST * SPI_SLOT_BITORDER |
1 * SPI_SLOT_LOOPBACK |
128 * SPI_SLOT_DIVIDER
);
/* Enable SPI Engine */
spi_mmap_tx_rx_engine_control_write(1 * SPI_TX_RX_ENGINE_ENABLE);
/* TX 32-bit transfers */
pattern = 0x00000001;
for (i=0; i<16; i++){
if ((spi_mmap_ctrl_tx_status_read() >> 16) != i)
errors++;
spi_tx_32[0] = pattern;
}
/* Small delay */
busy_wait(1);
/* Read RX 32-bit tranfers */
for (i=0; i<16; i++){
pattern = spi_rx_32[0];
if ((spi_mmap_ctrl_rx_status_read() >> 16) != (16-1-i))
errors++;
}
if ((spi_mmap_ctrl_tx_status_read() >> 16) != 0)
errors++;
if ((spi_mmap_ctrl_rx_status_read() >> 16) != 0)
errors++;
/* Disable SPI Engine */
spi_mmap_tx_rx_engine_control_write(0 * SPI_TX_RX_ENGINE_ENABLE);
/* Result */
printf("errors: %d\n", errors);
}
/* Test SPI TX/RX IRQs */
void test_spi_tx_rx_irqs(void) {
volatile unsigned int *spi_tx_32 = (unsigned int *)SPI_TX_BASE;
volatile unsigned int *spi_rx_32 = (unsigned int *)SPI_RX_BASE;
int errors = 0;
int data __attribute__((unused));
printf("Test SPI TX/RX IRQs...\n");
/* Configure Slots */
spi_mmap_ctrl_slot_control0_write(
1 * SPI_SLOT_ENABLE |
SPI_SLOT_MODE_0 * SPI_SLOT_MODE |
SPI_SLOT_LENGTH_32B * SPI_SLOT_LENGTH |
SPI_SLOT_BITORDER_MSB_FIRST * SPI_SLOT_BITORDER |
1 * SPI_SLOT_LOOPBACK |
128 * SPI_SLOT_DIVIDER
);
/* Enable TX/RX EventManager */
spi_mmap_ev_enable_write(0);
spi_mmap_ev_pending_write(spi_mmap_ev_pending_read());
spi_mmap_ev_enable_write(SPI_SLOT_EV_TX | SPI_SLOT_EV_RX);
/* Enable SPI Engine */
spi_mmap_tx_rx_engine_control_write(1 * SPI_TX_RX_ENGINE_ENABLE);
/* TX 32-bit transfers */
spi_tx_32[0] = 0x00000001;
/* Small delay */
busy_wait(1);
/* Verify TX/RX events */
if (spi_mmap_ev_pending_read() != (SPI_SLOT_EV_TX | SPI_SLOT_EV_RX))
errors++;
/* Read RX 32-bit tranfers */
data = spi_rx_32[0];
/* Clear events */
spi_mmap_ev_pending_write(spi_mmap_ev_pending_read());
/* Verify TX/RX events */
if (spi_mmap_ev_pending_read() != 0)
errors++;
/* Disable SPI Engine */
spi_mmap_tx_rx_engine_control_write(0 * SPI_TX_RX_ENGINE_ENABLE);
/* Result */
printf("errors: %d\n", errors);
}
/* Test SPI Back-to-Back */
void test_spi_back_to_back(void) {
volatile unsigned int *spi_tx_32 = (unsigned int *)SPI_TX_BASE;
volatile unsigned int *spi_rx_32 = (unsigned int *)SPI_RX_BASE;
int errors = 0;
printf("Test SPI Back-to-Back...\n");
/* Configure Slots */
spi_mmap_ctrl_slot_control0_write(
1 * SPI_SLOT_ENABLE |
SPI_SLOT_MODE_0 * SPI_SLOT_MODE |
SPI_SLOT_LENGTH_32B * SPI_SLOT_LENGTH |
SPI_SLOT_BITORDER_MSB_FIRST * SPI_SLOT_BITORDER |
1 * SPI_SLOT_LOOPBACK |
8 * SPI_SLOT_DIVIDER
);
/* Enable SPI Engine */
spi_mmap_tx_rx_engine_control_write(1 * SPI_TX_RX_ENGINE_ENABLE);
/* TX 32-bit transfers */
spi_tx_32[0] = 0x00000001;
spi_tx_32[0] = 0x00000002;
/* Small delay */
busy_wait(1);
/* Read RX 32-bit tranfers */
if (spi_rx_32[0] != 0x00000001)
errors++;
if (spi_rx_32[0] != 0x00000002)
errors++;
/* Disable SPI Engine */
spi_mmap_tx_rx_engine_control_write(0 * SPI_TX_RX_ENGINE_ENABLE);
/* Result */
printf("errors: %d\n", errors);
}
|
2023-08-04 17:44:54 +02:00 |
Florent Kermarrec
|
036193d046
|
CHANGES: Update.
|
2023-08-04 16:08:00 +02:00 |
Florent Kermarrec
|
87e2456274
|
CHANGES.md: Update.
|
2023-07-31 18:00:43 +02:00 |
Florent Kermarrec
|
b2e4b22145
|
soc/add_pcie: Add with_ptm parameter and update CHANGES.
|
2023-07-30 15:12:01 +02:00 |
Florent Kermarrec
|
74401d6f03
|
CHANGES: Update.
|
2023-07-27 13:58:45 +02:00 |
Florent Kermarrec
|
66b44ecd60
|
soc/add_uart: Fix stub behavior (sink/source swap), thanks @zyp.
|
2023-07-26 12:26:16 +02:00 |
Florent Kermarrec
|
0f1fdea893
|
build/xilinx/vivado: Also generate design checkpoint after synthesis and placement.
This help exploring/constraining complex designs by using Vivado GUI and design checkpoint.
|
2023-07-21 19:53:28 +02:00 |
Florent Kermarrec
|
35cd744adc
|
CHANGES: Update.
|
2023-07-21 15:16:42 +02:00 |
Florent Kermarrec
|
330d61d2bd
|
soc/add_pcie: Remove MSI workaround on Ultrascale(+) now that root cause is understood/fixed (thanks @smunaut).
|
2023-07-21 14:50:38 +02:00 |
Florent Kermarrec
|
aae15737cd
|
CHANGES: Update.
|
2023-07-20 16:30:48 +02:00 |
Florent Kermarrec
|
f995d74e55
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soc/add_uartbone: Rename name parameter to uart_name to allow multiple uartbone (also for consistency with other cores) and other minor cleanups.
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2023-07-20 15:42:03 +02:00 |
Florent Kermarrec
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f6da67fb38
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soc/add_pcie: Add optional data_width parameter.
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2023-07-20 10:35:10 +02:00 |
Florent Kermarrec
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6e46710678
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gen/fhdl/module: Fix CSR clock domain renaming to cores converted to LiteXModule, thanks @smunaut.
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2023-07-14 10:01:32 +02:00 |
Florent Kermarrec
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f9e32eb3eb
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CHANGES: Update.
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2023-07-11 16:42:21 +02:00 |
Florent Kermarrec
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26732f626f
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CHANGES: Update.
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2023-07-10 11:24:49 +02:00 |
Florent Kermarrec
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c58f46bb79
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CHANGES: Update.
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2023-07-03 18:09:56 +02:00 |
Florent Kermarrec
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a2d44370bd
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CHANGES: Update.
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2023-07-03 10:56:29 +02:00 |
Florent Kermarrec
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648c70de82
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cmd_litesata: Fix help printf and update CHANGES.
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2023-06-28 23:07:17 +02:00 |
Florent Kermarrec
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a9d6a0c6c9
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CHANGES: Update.
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2023-06-22 17:40:41 +02:00 |
Florent Kermarrec
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fbe3fcf76a
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CHANGES: Update.
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2023-06-21 12:46:16 +02:00 |
Florent Kermarrec
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d2aae18957
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soc/add_pcie/MSI-X: Pass csr_ordering to LitePCIeMSIX.
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2023-06-19 19:21:05 +02:00 |