Adds a switch `--with-gpio`, which will add a 32 pin GPIOTristate
core, with the GPIOTristate signals exposed on the top-level
module. This can be used to add a custom GPIO module in the Verilated
simulation.
Signed-off-by: Leon Schuermann <leon@is.currently.online>
Support exposing tristate GPIOs with tristate pads, by avoiding
instantiation of tristate buffers directly in the module. This gives
the developers more flexibility in how they want to implement their
tristate IOs (for example with level shifters behind the IOs), and
allows to use the GPIOTristate core in the Verilated simulation as
Verilator does not support top-level inout signals.
Signed-off-by: Leon Schuermann <leon@is.currently.online>
I found that in some cases, initialized global variables don't work with user libraries, so a little change to the linker that I use, taken from the demo file, seems to solve the problem . I think that make more sense to put the global variables in sram and initial values in the main_ram, similar to the bios linker.
This allows setting a root device other than ram0, this is useful
when using a rootfs from the SD card. Doing this makes boot time
faster and saves on memory footprint used by an in ram initrd.
On slow configurations (ex iCEBreaker / SERV CPU / 12MHz SPI Flash freq) memspeed test was
too slow (>200s to do the random test for 1MB), so reduce test size to 4KB.
This will be less accurate but will still provide representative results which
is the aim of this test.
Integration from #1024 was working on some boards (ex Arty) but breaking others (ex iCEBreaker);
simplify things for now:
- Avoid duplication in spiflash_freq_init.
- Avoid passing useless SPIFLASH_LEGACY flag to software (software can detect it from csr.h).
- Only keep integration support for "legacy" PHY, others are not generic enough and can be passed with phy parameter.
litex_sim: SoC without RAM/SDRAM.
litex_sim --integrated-main-ram-size=0x1000: SoC with RAM of size 0x1000.
litex_sim --with-sdram: SoC with SDRAM.
litex_sim --integrated-main-ram-size=0x1000 --with-sdram: SoC with RAM (priority to RAM over SDRAM).
Inside the litex add_spi_flash function
we are detecting the devices that can't be used with
more efficient DDR version of litespi phy core
and we are choosing whether to instantiate the legacy or DDR core
This not only tests for the precise PHY model, but also whether there
is a model attribute in the ethphy instance and whether that is set to
True.
Signed-off-by: Leon Schuermann <leon@is.currently.online>
The different branches each constructed their own ethphy. We can split
this out, which increases code reuse and allows to use the GMII and
XGMII interface types with all of Ethernet, Etherbone or
Ethernet+Etherbone.
Signed-off-by: Leon Schuermann <leon@is.currently.online>
This renames the `clk_edge_t` struct to `clk_edge_state_t`, given it
only tracks the previous clock edge state.
Furthermore introduce a new `enum clk_edge` (typedef'd to
`clk_edge_t`) which represents all possible clock edges and add a
function (`clk_edge`) to retrieve the type of current clock edge as a
`clk_edge_t`.
Signed-off-by: Leon Schuermann <leon@is.currently.online>
When building with GCC 11:
../libbase/crt0.o: in function `_start':
litex/soc/cores/cpu/microwatt/crt0.S:54:(.text+0x38): relocation truncated to fit: R_PPC64_GOT16_DS against symbol `_fdata' defined in .data section in bios.elf
litex/soc/cores/cpu/microwatt/crt0.S:55:(.text+0x3c): relocation truncated to fit: R_PPC64_GOT16_DS against symbol `_edata' defined in .data section in bios.elf
litex/soc/cores/cpu/microwatt/crt0.S:56:(.text+0x40): relocation truncated to fit: R_PPC64_GOT16_DS against symbol `_fdata_rom' defined in *ABS* section in bios.elf
litex/soc/cores/cpu/microwatt/crt0.S:68:(.text+0x68): relocation truncated to fit: R_PPC64_GOT16_DS against symbol `_fbss' defined in .bss section in bios.elf
litex/soc/cores/cpu/microwatt/crt0.S:69:(.text+0x6c): relocation truncated to fit: R_PPC64_GOT16_DS against symbol `_ebss' defined in .bss section in bios.elf
litex/soc/cores/cpu/microwatt/crt0.S:80:(.text+0x90): relocation truncated to fit: R_PPC64_GOT16_DS against symbol `_fstack' defined in .bss section in bios.elf
boot.o: in function `copy_file_from_sdcard_to_ram':
litex/soc/software/bios/boot.c:622:(.text+0x18): relocation truncated to fit: R_PPC64_TOC16_DS against `.toc'
litex/soc/software/bios/boot.c:627:(.text+0x5c): relocation truncated to fit: R_PPC64_TOC16_DS against `.toc'+8
litex/soc/software/bios/boot.c:633:(.text+0x8c): relocation truncated to fit: R_PPC64_TOC16_DS against `.toc'+10
litex/soc/software/bios/boot.c:639:(.text+0xdc): relocation truncated to fit: R_PPC64_TOC16_DS against `.toc'+18
litex/soc/software/bios/boot.c:650:(.text+0x128): additional relocation overflows omitted from the output
This is because we pass -mcmodel=small. As the PowerPC ELF ABI
describes, the small code model restricts the relocations to 16-bit
offsets[1]. If we omit the option we get the default, which is the
medium model allowing 32-bit offsets.
http://openpowerfoundation.org/wp-content/uploads/resources/leabi/content/dbdoclet.50655240_19143.html
Signed-off-by: Joel Stanley <joel@jms.id.au>
New version of binutils contain stricter checks for sections that are
not included in the linker script, resulting in this error:
ld: error: no memory region specified for loadable section `.note.gnu.build-id'
Disable this feature as there is no use for it on bare metal systems.
Signed-off-by: Joel Stanley <joel@jms.id.au>
binutils 2.34 contains stricter checks for sections that are not
included in the linker script, resulting in this error:
ld: bios.elf: error: PHDR segment not covered by LOAD segment
From the 2.34 NEWS:
The ld check for "PHDR segment not covered by LOAD segment" is more
effective, catching cases that were wrongly allowed by previous versions of
ld. If you see this error it is likely you are linking with a bad linker
script or the binary you are building is not intended to be loaded by a
dynamic loader. In the latter case --no-dynamic-linker is appropriate.
As the BIOS runs bare metal, we do not need to emit a PHDR segment.
Signed-off-by: Joel Stanley <joel@jms.id.au>