From: Jędrzej Boczar Date: Thu, 28 May 2020 10:10:25 +0000 (+0200) Subject: litex/build/sim: add module for simulating SPD EEPROM X-Git-Tag: 24jan2021_ls180~247^2~2 X-Git-Url: https://git.libre-soc.org/?a=commitdiff_plain;h=a0ce4ce56bc453c662acc1a6aff18290b0f3066c;p=litex.git litex/build/sim: add module for simulating SPD EEPROM --- diff --git a/litex/build/sim/core/modules/Makefile b/litex/build/sim/core/modules/Makefile index c7a35784..6782a192 100644 --- a/litex/build/sim/core/modules/Makefile +++ b/litex/build/sim/core/modules/Makefile @@ -1,5 +1,5 @@ include ../variables.mak -MODULES = xgmii_ethernet ethernet serial2console serial2tcp clocker +MODULES = xgmii_ethernet ethernet serial2console serial2tcp clocker spdeeprom .PHONY: $(MODULES) all: $(MODULES) diff --git a/litex/build/sim/core/modules/spdeeprom/Makefile b/litex/build/sim/core/modules/spdeeprom/Makefile new file mode 100644 index 00000000..0c69b5b9 --- /dev/null +++ b/litex/build/sim/core/modules/spdeeprom/Makefile @@ -0,0 +1,2 @@ +include ../../variables.mak +include $(SRC_DIR)/modules/rules.mak diff --git a/litex/build/sim/core/modules/spdeeprom/spdeeprom.c b/litex/build/sim/core/modules/spdeeprom/spdeeprom.c new file mode 100644 index 00000000..db5d85fd --- /dev/null +++ b/litex/build/sim/core/modules/spdeeprom/spdeeprom.c @@ -0,0 +1,428 @@ +#include +#include +#include +#include "error.h" +#include "modules.h" + +/* + * This is a simulation of SPD EEPROM I2C slave. + * It only supports basic read/write commands. + * Although it has been written with SPD EEPROM chips in mind, it should be + * compatible with some other EEPROM chips that use single byte addressing. + * + * Some details can be controlled using defines/environmental variables: + * #define SPD_EEPROM_ADDR 7bit address of I2C slave + * #define DEBUG_SPD_EEPROM print debug messages + * env SPD_EEPROM_FILE load memory contents from file + */ + +#define SPD_EEPROM_ADDR 0b000 + +#ifdef DEBUG_SPD_EEPROM +#define DBG(...) do{ fprintf(stderr, __VA_ARGS__); } while(0) +#else +#define DBG(...) do{ } while (0) +#endif + +// state of the serial-to-parallel FSM +enum SerialState { + IDLE, + WRITE, // slave writing a byte to master + READ, // slave reading a byte from master + RACK_0, // slave starts sending ACK + RACK_1, // slave finishes sending ACK + WACK, // slave reads ACK +}; + +// state of the transaction FSM +enum TransactionState { + DEV_ADDR, // reading slave device address + WRITE_ADDR, // master writes address + WRITE_DATA, // master writes data + READ_DATA, // master reads data +}; + +// module state +struct session_s { + // DUT pads (need separate SDA io/out as Verilator does not support tristate pins) + char *sys_clk; + char *sda_in; + char *sda_out; + char *scl; + // SPD EEPROM memory contents + unsigned char mem[256]; + // state machine + enum TransactionState state_transaction; + enum SerialState state_serial; + unsigned int byte_in; + unsigned int byte_out; + unsigned int bit_counter; + unsigned int devaddr; + unsigned int addr; +}; + +// Module interface +static int spdeeprom_start(); +static int spdeeprom_new(void **sess, char *args); +static int spdeeprom_add_pads(void *sess, struct pad_list_s *plist); +static int spdeeprom_tick(void *sess); +// EEPROM simulation +static void fsm_tick(struct session_s *s); +static enum SerialState state_serial_next(struct session_s *s); +// Helper functions +static void spdeeprom_from_file(struct session_s *s, FILE *file); +static int litex_sim_module_pads_get(struct pad_s *pads, char *name, void **signal); + +/*** Module interface *****************************************************************************/ + +static struct ext_module_s ext_mod = { + "spdeeprom", + spdeeprom_start, + spdeeprom_new, + spdeeprom_add_pads, + NULL, + spdeeprom_tick +}; + +int litex_sim_ext_module_init(int (*register_module)(struct ext_module_s *)) +{ + int ret = RC_OK; + ret = register_module(&ext_mod); + return ret; +} + +static int spdeeprom_start() +{ + printf("[spdeeprom] loaded (addr = 0x%01x)\n", SPD_EEPROM_ADDR); + return RC_OK; +} + +static int spdeeprom_new(void **sess, char *args) +{ + int ret=RC_OK; + int i; + char *spd_filename; + FILE *spd_file; + + struct session_s *s=NULL; + + if(!sess) { + ret = RC_INVARG; + goto out; + } + + s = (struct session_s*) malloc(sizeof(struct session_s)); + if(!s) { + ret=RC_NOENMEM; + goto out; + } + memset(s, 0, sizeof(struct session_s)); + + spd_filename = getenv("SPD_EEPROM_FILE"); + if (spd_filename != NULL) { + spd_file = fopen(spd_filename, "r"); + } + if (spd_filename != NULL && spd_file != NULL) { + DBG("[spdeeprom] loading EEPROM contents from file: %s\n", spd_filename); + spdeeprom_from_file(s, spd_file); + fclose(spd_file); + } else { // fill in the memory with some data + for (i = 0; i < sizeof(s->mem) / sizeof(s->mem[0]); ++i) { + s->mem[i] = i & 0xff; + } + } + +out: + *sess = (void*) s; + return ret; +} + +static int spdeeprom_add_pads(void *sess, struct pad_list_s *plist) +{ + int ret = RC_OK; + struct session_s *s = (struct session_s*) sess; + struct pad_s *pads; + + if(!sess || !plist) { + ret = RC_INVARG; + goto out; + } + pads = plist->pads; + + if(!strcmp(plist->name, "i2c")) { + litex_sim_module_pads_get(pads, "sda_in", (void**) &s->sda_in); + litex_sim_module_pads_get(pads, "sda_out", (void**) &s->sda_out); + litex_sim_module_pads_get(pads, "scl", (void**) &s->scl); + } + + if(!strcmp(plist->name, "sys_clk")) + litex_sim_module_pads_get(pads, "sys_clk", (void**) &s->sys_clk); + +out: + return ret; +} + +static int spdeeprom_tick(void *sess) +{ + struct session_s *s = (struct session_s*) sess; + + if (s->sda_in == 0 || s->sda_out == 0 || s->scl == 0) { + return RC_OK; + } + + if(*s->sys_clk == 0) { + return RC_OK; + } + + fsm_tick(s); + + return RC_OK; +} + +/*** Simulation ***********************************************************************************/ + +#ifdef DEBUG_SPD_EEPROM +static inline const char *state_serial_str(enum SerialState s) +{ + switch (s) { + case IDLE: return "IDLE"; + case WRITE: return "WRITE"; + case READ: return "READ"; + case RACK_0: return "RACK_0"; + case RACK_1: return "RACK_1"; + case WACK: return "WACK"; + default: return "_"; + } +} + +static inline const char *state_transaction_str(enum TransactionState s) +{ + switch (s) { + case DEV_ADDR: return "DEV_ADDR"; + case WRITE_ADDR: return "WRITE_ADDR"; + case WRITE_DATA: return "WRITE_DATA"; + case READ_DATA: return "READ_DATA"; + default: return "_"; + } +} +#endif + +static void fsm_tick(struct session_s *s) +{ + static int sda_last = 1; + static int scl_last = 1; + + enum SerialState last_state_serial; + int sda_rising_edge; + int sda_falling_edge; + int start_cond; + int stop_cond; + int scl_rising; + int scl_falling; + + sda_rising_edge = !sda_last && *s->sda_out; + sda_falling_edge = sda_last && !*s->sda_out; + start_cond = sda_falling_edge && *s->scl; + stop_cond = sda_rising_edge && *s->scl; + scl_rising = !scl_last && *s->scl; + scl_falling = scl_last && !*s->scl; + + sda_last = *s->sda_out; + scl_last = *s->scl; + + if (start_cond) { + DBG("[spdeeprom] START condition\n"); + s->state_serial = READ; + s->state_transaction = DEV_ADDR; + s->bit_counter = 0; + } + if (stop_cond) { + DBG("[spdeeprom] STOP condition\n"); + s->state_serial = IDLE; + s->state_transaction = DEV_ADDR; + } + + last_state_serial = s->state_serial; + + switch (s->state_serial) { + case IDLE: + *s->sda_in = 1; + break; + case READ: + if (s->bit_counter == 0) { + s->byte_in = 0; + } + if (scl_rising) { + s->byte_in <<= 1; + s->byte_in |= *s->sda_out & 1; + s->bit_counter++; + } + if (s->bit_counter >= 8) { + s->bit_counter = 0; + s->state_serial = RACK_0; + } + break; + case WRITE: + if (scl_rising) { + *s->sda_in = (s->byte_out & (1 << 7)) != 0; + s->byte_out <<= 1; + s->bit_counter++; + } + if (s->bit_counter >= 8) { + s->bit_counter = 0; + s->state_serial = WACK; + } + break; + case RACK_0: // first falling edge + if (scl_falling) { + *s->sda_in = 0; + s->state_serial = RACK_1; + } + break; + case RACK_1: // second falling edge + if (scl_falling) { + *s->sda_in = 1; + s->state_serial = state_serial_next(s); + } + break; + case WACK: + if (scl_rising) { + if ((*s->sda_out) != 0) { + DBG("[spdeeprom] No ACK from master!\n"); + } + s->state_serial = state_serial_next(s); + } + break; + default: DBG("[spdeeprom] unknown state_serial\n"); break; + } + + if (s->state_serial != last_state_serial) { + DBG("[spdeeprom] state_serial: %s -> %s\n", + state_serial_str(last_state_serial), state_serial_str(s->state_serial)); + } + +} + +static enum SerialState state_serial_next(struct session_s *s) +{ + enum TransactionState state_transaction_last = s->state_transaction; + enum SerialState state_serial = IDLE; + + switch (s->state_transaction) { + case DEV_ADDR: + if (s->state_serial != RACK_1) { + DBG("[spdeeprom] ERROR: DEV_ADDR during WACK\n"); + } + s->devaddr = s->byte_in; + if (((s->devaddr & 0b1110) >> 1) != SPD_EEPROM_ADDR) { + DBG("[spdeeprom] ERROR: read wrong address\n"); + state_serial = IDLE; + } else { + DBG("[spdeeprom] devaddr = 0x%02x\n", s->devaddr); + if ((s->devaddr & 1) != 0) { // read command + DBG("[spdeeprom] registered READ cmd\n"); + s->state_transaction = READ_DATA; + s->byte_out = s->mem[s->addr++]; + s->addr %= sizeof(s->mem); + state_serial = WRITE; + } else { // write command + DBG("[spdeeprom] registered WRITE cmd\n"); + s->state_transaction = WRITE_ADDR; + state_serial = READ; + } + } + break; + case WRITE_ADDR: + if (s->state_serial != RACK_1) { + DBG("[spdeeprom] ERROR: WRITE_ADDR during WACK\n"); + } + s->addr = s->byte_in; + s->state_transaction = WRITE_DATA; + DBG("[spdeeprom] addr = 0x%02x\n", s->addr); + state_serial = READ; + break; + case WRITE_DATA: + if (s->state_serial != RACK_1) { + DBG("[spdeeprom] ERROR: WRITE_DATA during WACK\n"); + } + s->mem[s->addr++] = s->byte_in; + s->addr %= sizeof(s->mem); + s->state_transaction = WRITE_DATA; + DBG("[spdeeprom] wdata = 0x%02x\n", s->byte_in); + state_serial = READ; + break; + case READ_DATA: + if (s->state_serial != WACK) { + DBG("[spdeeprom] ERROR: READ_DATA during RACK\n"); + } + s->state_transaction = READ_DATA; + s->byte_out = s->mem[s->addr++]; + DBG("[spdeeprom] rdata = 0x%02x\n", s->byte_out); + state_serial = WRITE; + break; + default: + DBG("[spdeeprom] ERROR: wrong state_transaction!\n"); + break; + } + + if (state_serial == IDLE) { + DBG("[spdeeprom] ERROR: unhandled state_serial_next\n"); + } + if (state_transaction_last != s->state_transaction) { + DBG("[spdeeprom] state_transaction: %s -> %s\n", state_transaction_str(state_transaction_last), state_transaction_str(s->state_transaction)); + } + return state_serial; +} + +/*** Helper functions *****************************************************************************/ + +static void spdeeprom_from_file(struct session_s *s, FILE *file) +{ + size_t bufsize = 0; + ssize_t n_read; + char *line = NULL; + char *c; + unsigned int byte; + int i; + + for (i = 0; i < sizeof(s->mem) / sizeof(s->mem[0]); ++i) { + if ((n_read = getline(&line, &bufsize, file)) < 0) { + break; + } + byte = strtoul(line, &c, 0); + if (c == line) { + DBG("[spdeeprom] Incorrect value at line %d\n", i); + } else { + s->mem[i] = byte; + } + } + + if (line != NULL) + free(line); +} + +static int litex_sim_module_pads_get(struct pad_s *pads, char *name, void **signal) +{ + int ret; + void *sig=NULL; + int i; + + if(!pads || !name || !signal) { + ret = RC_INVARG; + goto out; + } + + i = 0; + while(pads[i].name) { + if(!strcmp(pads[i].name, name)) + { + sig = (void*) pads[i].signal; + break; + } + i++; + } + +out: + *signal = sig; + return ret; +} diff --git a/litex/soc/cores/bitbang.py b/litex/soc/cores/bitbang.py index d2f62fa8..a54c4560 100644 --- a/litex/soc/cores/bitbang.py +++ b/litex/soc/cores/bitbang.py @@ -30,8 +30,9 @@ class I2CMaster(Module, AutoCSR): CSRField("sda", size=1, offset=0)], name="r") - # # # + self.connect(pads) + def connect(self, pads): _sda_w = Signal() _sda_oe = Signal() _sda_r = Signal() @@ -44,6 +45,32 @@ class I2CMaster(Module, AutoCSR): self.specials += Tristate(pads.sda, _sda_w, _sda_oe, _sda_r) +class I2CMasterSim(I2CMaster): + """I2C Master Bit-Banging for Verilator simulation + + Uses separate pads for SDA IN/OUT as Verilator does not support tristate pins well. + """ + pads_layout = [("scl", 1), ("sda_in", 1), ("sda_out", 1)] + + def connect(self, pads): + _sda_w = Signal() + _sda_oe = Signal() + _sda_r = Signal() + _sda_in = Signal() + + self.comb += [ + pads.scl.eq(self._w.fields.scl), + _sda_oe.eq( self._w.fields.oe), + _sda_w.eq( self._w.fields.sda), + If(_sda_oe, + pads.sda_out.eq(_sda_w), + self._r.fields.sda.eq(_sda_w), + ).Else( + pads.sda_out.eq(1), + self._r.fields.sda.eq(pads.sda_in), + ) + ] + # SPI Master Bit-Banging --------------------------------------------------------------------------- class SPIMaster(Module, AutoCSR): diff --git a/litex/tools/litex_sim.py b/litex/tools/litex_sim.py index a96a1732..23fb6b71 100755 --- a/litex/tools/litex_sim.py +++ b/litex/tools/litex_sim.py @@ -18,6 +18,7 @@ from litex.soc.integration.soc_core import * from litex.soc.integration.soc_sdram import * from litex.soc.integration.builder import * from litex.soc.integration.soc import * +from litex.soc.cores.bitbang import * from litedram import modules as litedram_modules from litedram.modules import parse_spd_hexdump @@ -63,6 +64,11 @@ _io = [ Subsignal("sink_ready", Pins(1)), Subsignal("sink_data", Pins(8)), ), + ("i2c", 0, + Subsignal("scl", Pins(1)), + Subsignal("sda_out", Pins(1)), + Subsignal("sda_in", Pins(1)), + ), ] # Platform ----------------------------------------------------------------------------------------- @@ -170,6 +176,7 @@ class SimSoC(SoCCore): sdram_data_width = 32, sdram_spd_data = None, sdram_verbosity = 0, + with_i2c = False, **kwargs): platform = Platform() sys_clk_freq = int(1e6) @@ -293,6 +300,12 @@ class SimSoC(SoCCore): csr_csv = "analyzer.csv") self.add_csr("analyzer") + # I2C -------------------------------------------------------------------------------------- + if with_i2c: + pads = platform.request("i2c", 0) + self.submodules.i2c = I2CMasterSim(pads) + self.add_csr("i2c") + # Build -------------------------------------------------------------------------------------------- def main(): @@ -313,6 +326,7 @@ def main(): parser.add_argument("--local-ip", default="192.168.1.50", help="Local IP address of SoC (default=192.168.1.50)") parser.add_argument("--remote-ip", default="192.168.1.100", help="Remote IP address of TFTP server (default=192.168.1.100)") parser.add_argument("--with-analyzer", action="store_true", help="Enable Analyzer support") + parser.add_argument("--with-i2c", action="store_true", help="Enable I2C support") parser.add_argument("--trace", action="store_true", help="Enable Tracing") parser.add_argument("--trace-fst", action="store_true", help="Enable FST tracing (default=VCD)") parser.add_argument("--trace-start", default=0, help="Cycle to start tracing") @@ -352,12 +366,16 @@ def main(): if args.with_ethernet or args.with_etherbone: sim_config.add_module("ethernet", "eth", args={"interface": "tap0", "ip": args.remote_ip}) + if args.with_i2c: + sim_config.add_module("spdeeprom", "i2c") + # SoC ------------------------------------------------------------------------------------------ soc = SimSoC( with_sdram = args.with_sdram, with_ethernet = args.with_ethernet, with_etherbone = args.with_etherbone, with_analyzer = args.with_analyzer, + with_i2c = args.with_i2c, sdram_init = [] if args.sdram_init is None else get_mem_data(args.sdram_init, cpu_endianness), **soc_kwargs) if args.ram_init is not None: