diff options
| -rw-r--r-- | contrib/loaders/reset/espressif/common.mk | 51 | ||||
| -rw-r--r-- | contrib/loaders/reset/espressif/esp32/Makefile | 31 | ||||
| -rw-r--r-- | contrib/loaders/reset/espressif/esp32/cpu_reset_handler_code.inc | 15 | ||||
| -rw-r--r-- | contrib/loaders/reset/espressif/esp32/esp32_cpu_reset_handler.S | 145 | ||||
| -rw-r--r-- | doc/openocd.texi | 1 | ||||
| -rw-r--r-- | src/target/espressif/Makefile.am | 6 | ||||
| -rw-r--r-- | src/target/espressif/esp32.c | 704 | ||||
| -rw-r--r-- | src/target/espressif/esp32.h | 42 | ||||
| -rw-r--r-- | src/target/espressif/esp32s2.c | 2 | ||||
| -rw-r--r-- | src/target/espressif/esp_xtensa_smp.c | 716 | ||||
| -rw-r--r-- | src/target/espressif/esp_xtensa_smp.h | 65 | ||||
| -rw-r--r-- | src/target/target.c | 4 | ||||
| -rw-r--r-- | src/target/xtensa/xtensa.h | 10 | ||||
| -rw-r--r-- | tcl/board/esp32-ethernet-kit-3.3v.cfg | 22 | ||||
| -rw-r--r-- | tcl/board/esp32-wrover-kit-1.8v.cfg | 22 | ||||
| -rw-r--r-- | tcl/board/esp32-wrover-kit-3.3v.cfg | 22 | ||||
| -rw-r--r-- | tcl/interface/ftdi/esp32_devkitj_v1.cfg | 25 | ||||
| -rw-r--r-- | tcl/target/esp32.cfg | 70 |
18 files changed, 1950 insertions, 3 deletions
diff --git a/contrib/loaders/reset/espressif/common.mk b/contrib/loaders/reset/espressif/common.mk new file mode 100644 index 0000000..4623583 --- /dev/null +++ b/contrib/loaders/reset/espressif/common.mk @@ -0,0 +1,51 @@ +# ESP32 Makefile to compile the SoC reset program +# Copyright (C) 2022 Espressif Systems Ltd. +# +# This program is free software; you can redistribute it and/or modify +# it under the terms of the GNU General Public License as published by +# the Free Software Foundation; either version 2 of the License, or +# (at your option) any later version. +# +# This program is distributed in the hope that it will be useful, +# but WITHOUT ANY WARRANTY; without even the implied warranty of +# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the +# GNU General Public License for more details. +# +# You should have received a copy of the GNU General Public License +# along with this program. If not, see <http://www.gnu.org/licenses/> + +# Pass V=1 to see the commands being executed by make +ifneq ("$(V)","1") +Q = @ +endif + +BIN2C = ../../../../../src/helper/bin2char.sh + +APP = cpu_reset_handler + +BUILD_DIR = build + +APP_OBJ = $(BUILD_DIR)/$(APP).o +APP_BIN = $(BUILD_DIR)/$(APP)_code.bin +APP_CODE = $(APP)_code.inc + +CFLAGS += -mtext-section-literals + +.PHONY: all cleanxten + +all: $(BUILD_DIR) $(APP_OBJ) $(APP_CODE) + +$(BUILD_DIR): + $(Q) mkdir $@ + +$(APP_OBJ): $(SRCS) + @echo " CC $^ -> $@" + $(Q) $(CROSS)gcc -c $(CFLAGS) -o $@ $^ + +$(APP_CODE): $(APP_OBJ) + @echo " CC $^ -> $@" + $(Q) $(CROSS)objcopy -O binary -j.text $^ $(APP_BIN) + $(Q) $(BIN2C) < $(APP_BIN) > $@ + +clean: + $(Q) rm -rf $(BUILD_DIR) diff --git a/contrib/loaders/reset/espressif/esp32/Makefile b/contrib/loaders/reset/espressif/esp32/Makefile new file mode 100644 index 0000000..3551b6a --- /dev/null +++ b/contrib/loaders/reset/espressif/esp32/Makefile @@ -0,0 +1,31 @@ +# ESP32 Makefile to compile the SoC reset program +# Copyright (C) 2022 Espressif Systems Ltd. +# +# This program is free software; you can redistribute it and/or modify +# it under the terms of the GNU General Public License as published by +# the Free Software Foundation; either version 2 of the License, or +# (at your option) any later version. +# +# This program is distributed in the hope that it will be useful, +# but WITHOUT ANY WARRANTY; without even the implied warranty of +# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the +# GNU General Public License for more details. +# +# You should have received a copy of the GNU General Public License +# along with this program. If not, see <http://www.gnu.org/licenses/> + +# Prefix for ESP32 cross compilers (can include a directory path) +CROSS ?= xtensa-esp32-elf- + +APP_ARCH := xtensa +APP_CHIP := ESP32 +APP_CHIP_PATH := $(shell pwd) +SRCS := $(APP_CHIP_PATH)/esp32_cpu_reset_handler.S + +CFLAGS := +LDFLAGS := + +INCLUDES := +DEFINES := + +include ../common.mk diff --git a/contrib/loaders/reset/espressif/esp32/cpu_reset_handler_code.inc b/contrib/loaders/reset/espressif/esp32/cpu_reset_handler_code.inc new file mode 100644 index 0000000..57ee12d --- /dev/null +++ b/contrib/loaders/reset/espressif/esp32/cpu_reset_handler_code.inc @@ -0,0 +1,15 @@ +/* Autogenerated with ../../../../../src/helper/bin2char.sh */ +0x06,0x1e,0x00,0x00,0x06,0x14,0x00,0x00,0x34,0x80,0xf4,0x3f,0xb0,0x80,0xf4,0x3f, +0xb4,0x80,0xf4,0x3f,0x70,0x80,0xf4,0x3f,0x10,0x22,0x00,0x00,0x00,0x20,0x49,0x9c, +0x00,0x80,0xf4,0x3f,0xa1,0x3a,0xd8,0x50,0xa4,0x80,0xf4,0x3f,0x64,0xf0,0xf5,0x3f, +0x64,0x00,0xf6,0x3f,0x8c,0x80,0xf4,0x3f,0x48,0xf0,0xf5,0x3f,0x48,0x00,0xf6,0x3f, +0xfc,0xa1,0xf5,0x3f,0x38,0x00,0xf0,0x3f,0x30,0x00,0xf0,0x3f,0x2c,0x00,0xf0,0x3f, +0x34,0x80,0xf4,0x3f,0x00,0x30,0x00,0x00,0x50,0x55,0x30,0x41,0xeb,0xff,0x59,0x04, +0x41,0xeb,0xff,0x59,0x04,0x41,0xea,0xff,0x59,0x04,0x41,0xea,0xff,0x31,0xea,0xff, +0x39,0x04,0x31,0xea,0xff,0x41,0xea,0xff,0x39,0x04,0x00,0x00,0x60,0xeb,0x03,0x60, +0x61,0x04,0x56,0x66,0x04,0x50,0x55,0x30,0x31,0xe7,0xff,0x41,0xe7,0xff,0x39,0x04, +0x41,0xe7,0xff,0x39,0x04,0x41,0xe6,0xff,0x39,0x04,0x41,0xe6,0xff,0x59,0x04,0x41, +0xe6,0xff,0x59,0x04,0x41,0xe6,0xff,0x59,0x04,0x41,0xe5,0xff,0x59,0x04,0x41,0xe5, +0xff,0x59,0x04,0x41,0xe5,0xff,0x0c,0x13,0x39,0x04,0x41,0xe4,0xff,0x0c,0x13,0x39, +0x04,0x59,0x04,0x41,0xe3,0xff,0x31,0xe3,0xff,0x32,0x64,0x00,0x00,0x70,0x00,0x46, +0xfe,0xff, diff --git a/contrib/loaders/reset/espressif/esp32/esp32_cpu_reset_handler.S b/contrib/loaders/reset/espressif/esp32/esp32_cpu_reset_handler.S new file mode 100644 index 0000000..1132545 --- /dev/null +++ b/contrib/loaders/reset/espressif/esp32/esp32_cpu_reset_handler.S @@ -0,0 +1,145 @@ +/*************************************************************************** + * Reset stub used by esp32 target * + * Copyright (C) 2017 Espressif Systems Ltd. * + * * + * This program is free software; you can redistribute it and/or modify * + * it under the terms of the GNU General Public License as published by * + * the Free Software Foundation; either version 2 of the License, or * + * (at your option) any later version. * + * * + * This program is distributed in the hope that it will be useful, * + * but WITHOUT ANY WARRANTY; without even the implied warranty of * + * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * + * GNU General Public License for more details. * + * * + * You should have received a copy of the GNU General Public License * + * along with this program. If not, see <http://www.gnu.org/licenses/>. * + ***************************************************************************/ + +#define RTC_CNTL_RESET_STATE_REG 0x3ff48034 +#define RTC_CNTL_RESET_STATE_DEF 0x3000 +#define RTC_CNTL_CLK_CONF_REG 0x3ff48070 +#define RTC_CNTL_CLK_CONF_DEF 0x2210 +#define RTC_CNTL_STORE4_REG 0x3ff480b0 +#define RTC_CNTL_STORE5_REG 0x3ff480b4 +#define WDT_WKEY_VALUE 0x50D83AA1 +#define TIMG0_WDTWPROTECT_REG 0x3ff5f064 +#define TIMG0_WDTCONFIG0_REG 0x3ff5f048 +#define TIMG1_WDTWPROTECT_REG 0x3FF60064 +#define TIMG1_WDTCONFIG0_REG 0x3ff60048 +#define RTC_CNTL_WDTCONFIG0_REG 0x3ff4808c +#define RTC_CNTL_WDTWPROTECT_REG 0x3ff480a4 +#define JTAG_ENABLE_REG 0x3ff5a1fc +#define RTC_CNTL_OPTIONS0_REG 0x3ff48000 +#define RTC_CNTL_OPTIONS0_DEF 0x1c492000 +#define RTC_CNTL_SW_SYS_RST 0x80000000 +#define DPORT_APPCPU_CTRL_A_REG 0x3ff0002c +#define DPORT_APPCPU_RST_EN 0x1 +#define DPORT_APPCPU_CTRL_B_REG 0x3ff00030 +#define DPORT_APPCPU_CLKGATE_EN 0x1 +#define DPORT_APPCPU_CTRL_C_REG 0x3ff00034 +#define DPORT_APPCPU_CTRL_D_REG 0x3ff00038 + + +/* This stub is copied to RTC_SLOW_MEM by OpenOCD, and the CPU starts executing + * it instead of the ROM code (0x40000400). This stub disables watchdogs and + * goes into a loop. + * OpenOCD will then halt the target and perform CPU reset using OCD. + */ + + +/* Has to be at offset 0. This is the entry point of the CPU, once + * RTC_CNTL_PROCPU_STAT_VECTOR_SEL is cleared. + * CPU will come here after the system reset, triggered by RTC_CNTL_SW_SYS_RST. + */ + .global cpu_at_start_handler + .type cpu_at_start_handler,@function + .align 4 +cpu_at_start_handler: + j start + + +/* Has to be at offset 4. Once the stub code has been uploaded into RTC Slow + * memory, OpenOCD will set the PC to this address, and resume execution. + * The stub will then jump to 'reset' label and perform the reset. + */ + .global cpu_reset_handler + .type cpu_reset_handler,@function + .align 4 +cpu_reset_handler: + j reset + + .align 4 + .literal_position + + .align 4 +reset: + /* Use a5 as a zero register */ + xor a5, a5, a5 + /* Select static reset vector 0 (XCHAL_RESET_VECTOR0_VADDR, 0x50000000) */ + movi a4, RTC_CNTL_RESET_STATE_REG + s32i a5, a4, 0 + /* Set some clock-related RTC registers to the default values */ + movi a4, RTC_CNTL_STORE4_REG + s32i a5, a4, 0 + movi a4, RTC_CNTL_STORE5_REG + s32i a5, a4, 0 + movi a4, RTC_CNTL_CLK_CONF_REG + movi a3, RTC_CNTL_CLK_CONF_DEF + s32i a3, a4, 0 + /* Reset the digital part of the chip (RTC controller doesn't get reset) */ + movi a3, (RTC_CNTL_OPTIONS0_DEF | RTC_CNTL_SW_SYS_RST) + movi a4, RTC_CNTL_OPTIONS0_REG + s32i a3, a4, 0 + /* Doesn't reach beyond this instruction */ + + .align 4 +start: + /* If running on the APP CPU, skip directly to the parking loop */ + rsr.prid a6 + extui a6, a6, 1, 1 + bnez a6, parking_loop + + /* Use a5 as a zero register */ + xor a5, a5, a5 + /* Disable the watchdogs */ + movi a3, WDT_WKEY_VALUE + movi a4, RTC_CNTL_WDTWPROTECT_REG + s32i.n a3, a4, 0 + movi a4, TIMG0_WDTWPROTECT_REG + s32i.n a3, a4, 0 + movi a4, TIMG1_WDTWPROTECT_REG + s32i.n a3, a4, 0 + movi a4, RTC_CNTL_WDTCONFIG0_REG + s32i.n a5, a4, 0 + movi a4, TIMG0_WDTCONFIG0_REG + s32i.n a5, a4, 0 + movi a4, TIMG1_WDTCONFIG0_REG + s32i.n a5, a4, 0 + /* Enable JTAG (needed since rev. 3) */ + movi a4, JTAG_ENABLE_REG + s32i.n a5, a4, 0 + /* Clear APP_CPU boot address */ + movi a4, DPORT_APPCPU_CTRL_D_REG + s32i.n a5, a4, 0 + /* Clear APP_CPU clock gating */ + movi a4, DPORT_APPCPU_CTRL_B_REG + movi a3, DPORT_APPCPU_CLKGATE_EN + s32i.n a3, a4, 0 + /* Set and clear APP_CPU reset */ + movi a4, DPORT_APPCPU_CTRL_A_REG + movi a3, DPORT_APPCPU_RST_EN + s32i.n a3, a4, 0 + s32i.n a5, a4, 0 + /* Restore the reset vector to ROM */ + movi a4, RTC_CNTL_RESET_STATE_REG + movi a3, RTC_CNTL_RESET_STATE_DEF + s32i.n a3, a4, 0 + + +parking_loop: + /* PRO and APP CPU will be in this loop, until OpenOCD + * finds the JTAG taps and puts the CPUs into debug mode. + */ + waiti 0 + j parking_loop diff --git a/doc/openocd.texi b/doc/openocd.texi index b328370..2661e46 100644 --- a/doc/openocd.texi +++ b/doc/openocd.texi @@ -4913,6 +4913,7 @@ compact Thumb2 instruction set. Supports also ARMv6-M and ARMv8-M cores @item @code{dsp5680xx} -- implements Freescale's 5680x DSP. @item @code{esirisc} -- this is an EnSilica eSi-RISC core. The current implementation supports eSi-32xx cores. +@item @code{esp32} -- this is an Espressif SoC with dual Xtensa cores. @item @code{esp32s2} -- this is an Espressif SoC with single Xtensa core. @item @code{fa526} -- resembles arm920 (w/o Thumb). @item @code{feroceon} -- resembles arm926. diff --git a/src/target/espressif/Makefile.am b/src/target/espressif/Makefile.am index c681e09..2a9045b 100644 --- a/src/target/espressif/Makefile.am +++ b/src/target/espressif/Makefile.am @@ -2,5 +2,9 @@ noinst_LTLIBRARIES += %D%/libespressif.la %C%_libespressif_la_SOURCES = \ %D%/esp_xtensa.c \ %D%/esp_xtensa.h \ + %D%/esp_xtensa_smp.c \ + %D%/esp_xtensa_smp.h \ %D%/esp32s2.c \ - %D%/esp32s2.h + %D%/esp32s2.h \ + %D%/esp32.c \ + %D%/esp32.h diff --git a/src/target/espressif/esp32.c b/src/target/espressif/esp32.c new file mode 100644 index 0000000..9d5099b --- /dev/null +++ b/src/target/espressif/esp32.c @@ -0,0 +1,704 @@ +/*************************************************************************** + * ESP32 target API for OpenOCD * + * Copyright (C) 2016-2019 Espressif Systems Ltd. * + * Author: Dmitry Yakovlev <dmitry@espressif.com> * + * Author: Alexey Gerenkov <alexey@espressif.com> * + * * + * This program is free software; you can redistribute it and/or modify * + * it under the terms of the GNU General Public License as published by * + * the Free Software Foundation; either version 2 of the License, or * + * (at your option) any later version. * + * * + * This program is distributed in the hope that it will be useful, * + * but WITHOUT ANY WARRANTY; without even the implied warranty of * + * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * + * GNU General Public License for more details. * + * * + * You should have received a copy of the GNU General Public License * + * along with this program. If not, see <http://www.gnu.org/licenses/>. * + ***************************************************************************/ + +#ifdef HAVE_CONFIG_H +#include "config.h" +#endif + +#include <helper/time_support.h> +#include <target/target.h> +#include <target/target_type.h> +#include <target/smp.h> +#include "assert.h" +#include "esp32.h" +#include "esp_xtensa_smp.h" + +/* +This is a JTAG driver for the ESP32, the are two Tensilica cores inside +the ESP32 chip. For more information please have a look into ESP32 target +implementation. +*/ + +/* ESP32 memory map */ +#define ESP32_DRAM_LOW 0x3ffae000 +#define ESP32_DRAM_HIGH 0x40000000 +#define ESP32_IROM_MASK_LOW 0x40000000 +#define ESP32_IROM_MASK_HIGH 0x40064f00 +#define ESP32_IRAM_LOW 0x40070000 +#define ESP32_IRAM_HIGH 0x400a0000 +#define ESP32_RTC_IRAM_LOW 0x400c0000 +#define ESP32_RTC_IRAM_HIGH 0x400c2000 +#define ESP32_RTC_DRAM_LOW 0x3ff80000 +#define ESP32_RTC_DRAM_HIGH 0x3ff82000 +#define ESP32_RTC_DATA_LOW 0x50000000 +#define ESP32_RTC_DATA_HIGH 0x50002000 +#define ESP32_EXTRAM_DATA_LOW 0x3f800000 +#define ESP32_EXTRAM_DATA_HIGH 0x3fc00000 +#define ESP32_DR_REG_LOW 0x3ff00000 +#define ESP32_DR_REG_HIGH 0x3ff71000 +#define ESP32_SYS_RAM_LOW 0x60000000UL +#define ESP32_SYS_RAM_HIGH (ESP32_SYS_RAM_LOW + 0x20000000UL) +#define ESP32_RTC_SLOW_MEM_BASE ESP32_RTC_DATA_LOW + +/* ESP32 WDT */ +#define ESP32_WDT_WKEY_VALUE 0x50d83aa1 +#define ESP32_TIMG0_BASE 0x3ff5f000 +#define ESP32_TIMG1_BASE 0x3ff60000 +#define ESP32_TIMGWDT_CFG0_OFF 0x48 +#define ESP32_TIMGWDT_PROTECT_OFF 0x64 +#define ESP32_TIMG0WDT_CFG0 (ESP32_TIMG0_BASE + ESP32_TIMGWDT_CFG0_OFF) +#define ESP32_TIMG1WDT_CFG0 (ESP32_TIMG1_BASE + ESP32_TIMGWDT_CFG0_OFF) +#define ESP32_TIMG0WDT_PROTECT (ESP32_TIMG0_BASE + ESP32_TIMGWDT_PROTECT_OFF) +#define ESP32_TIMG1WDT_PROTECT (ESP32_TIMG1_BASE + ESP32_TIMGWDT_PROTECT_OFF) +#define ESP32_RTCCNTL_BASE 0x3ff48000 +#define ESP32_RTCWDT_CFG_OFF 0x8C +#define ESP32_RTCWDT_PROTECT_OFF 0xA4 +#define ESP32_RTCWDT_CFG (ESP32_RTCCNTL_BASE + ESP32_RTCWDT_CFG_OFF) +#define ESP32_RTCWDT_PROTECT (ESP32_RTCCNTL_BASE + ESP32_RTCWDT_PROTECT_OFF) + +#define ESP32_TRACEMEM_BLOCK_SZ 0x4000 + +/* ESP32 dport regs */ +#define ESP32_DR_REG_DPORT_BASE ESP32_DR_REG_LOW +#define ESP32_DPORT_APPCPU_CTRL_B_REG (ESP32_DR_REG_DPORT_BASE + 0x030) +#define ESP32_DPORT_APPCPU_CLKGATE_EN BIT(0) +/* ESP32 RTC regs */ +#define ESP32_RTC_CNTL_SW_CPU_STALL_REG (ESP32_RTCCNTL_BASE + 0xac) +#define ESP32_RTC_CNTL_SW_CPU_STALL_DEF 0x0 + + +/* this should map local reg IDs to GDB reg mapping as defined in xtensa-config.c 'rmap' in + *xtensa-overlay */ +static const unsigned int esp32_gdb_regs_mapping[ESP32_NUM_REGS] = { + XT_REG_IDX_PC, + XT_REG_IDX_AR0, XT_REG_IDX_AR1, XT_REG_IDX_AR2, XT_REG_IDX_AR3, + XT_REG_IDX_AR4, XT_REG_IDX_AR5, XT_REG_IDX_AR6, XT_REG_IDX_AR7, + XT_REG_IDX_AR8, XT_REG_IDX_AR9, XT_REG_IDX_AR10, XT_REG_IDX_AR11, + XT_REG_IDX_AR12, XT_REG_IDX_AR13, XT_REG_IDX_AR14, XT_REG_IDX_AR15, + XT_REG_IDX_AR16, XT_REG_IDX_AR17, XT_REG_IDX_AR18, XT_REG_IDX_AR19, + XT_REG_IDX_AR20, XT_REG_IDX_AR21, XT_REG_IDX_AR22, XT_REG_IDX_AR23, + XT_REG_IDX_AR24, XT_REG_IDX_AR25, XT_REG_IDX_AR26, XT_REG_IDX_AR27, + XT_REG_IDX_AR28, XT_REG_IDX_AR29, XT_REG_IDX_AR30, XT_REG_IDX_AR31, + XT_REG_IDX_AR32, XT_REG_IDX_AR33, XT_REG_IDX_AR34, XT_REG_IDX_AR35, + XT_REG_IDX_AR36, XT_REG_IDX_AR37, XT_REG_IDX_AR38, XT_REG_IDX_AR39, + XT_REG_IDX_AR40, XT_REG_IDX_AR41, XT_REG_IDX_AR42, XT_REG_IDX_AR43, + XT_REG_IDX_AR44, XT_REG_IDX_AR45, XT_REG_IDX_AR46, XT_REG_IDX_AR47, + XT_REG_IDX_AR48, XT_REG_IDX_AR49, XT_REG_IDX_AR50, XT_REG_IDX_AR51, + XT_REG_IDX_AR52, XT_REG_IDX_AR53, XT_REG_IDX_AR54, XT_REG_IDX_AR55, + XT_REG_IDX_AR56, XT_REG_IDX_AR57, XT_REG_IDX_AR58, XT_REG_IDX_AR59, + XT_REG_IDX_AR60, XT_REG_IDX_AR61, XT_REG_IDX_AR62, XT_REG_IDX_AR63, + XT_REG_IDX_LBEG, XT_REG_IDX_LEND, XT_REG_IDX_LCOUNT, XT_REG_IDX_SAR, + XT_REG_IDX_WINDOWBASE, XT_REG_IDX_WINDOWSTART, XT_REG_IDX_CONFIGID0, XT_REG_IDX_CONFIGID1, + XT_REG_IDX_PS, XT_REG_IDX_THREADPTR, XT_REG_IDX_BR, XT_REG_IDX_SCOMPARE1, + XT_REG_IDX_ACCLO, XT_REG_IDX_ACCHI, + XT_REG_IDX_M0, XT_REG_IDX_M1, XT_REG_IDX_M2, XT_REG_IDX_M3, + ESP32_REG_IDX_EXPSTATE, + ESP32_REG_IDX_F64R_LO, + ESP32_REG_IDX_F64R_HI, + ESP32_REG_IDX_F64S, + XT_REG_IDX_F0, XT_REG_IDX_F1, XT_REG_IDX_F2, XT_REG_IDX_F3, + XT_REG_IDX_F4, XT_REG_IDX_F5, XT_REG_IDX_F6, XT_REG_IDX_F7, + XT_REG_IDX_F8, XT_REG_IDX_F9, XT_REG_IDX_F10, XT_REG_IDX_F11, + XT_REG_IDX_F12, XT_REG_IDX_F13, XT_REG_IDX_F14, XT_REG_IDX_F15, + XT_REG_IDX_FCR, XT_REG_IDX_FSR, XT_REG_IDX_MMID, XT_REG_IDX_IBREAKENABLE, + XT_REG_IDX_MEMCTL, XT_REG_IDX_ATOMCTL, XT_REG_IDX_OCD_DDR, + XT_REG_IDX_IBREAKA0, XT_REG_IDX_IBREAKA1, XT_REG_IDX_DBREAKA0, XT_REG_IDX_DBREAKA1, + XT_REG_IDX_DBREAKC0, XT_REG_IDX_DBREAKC1, + XT_REG_IDX_EPC1, XT_REG_IDX_EPC2, XT_REG_IDX_EPC3, XT_REG_IDX_EPC4, + XT_REG_IDX_EPC5, XT_REG_IDX_EPC6, XT_REG_IDX_EPC7, XT_REG_IDX_DEPC, + XT_REG_IDX_EPS2, XT_REG_IDX_EPS3, XT_REG_IDX_EPS4, XT_REG_IDX_EPS5, + XT_REG_IDX_EPS6, XT_REG_IDX_EPS7, + XT_REG_IDX_EXCSAVE1, XT_REG_IDX_EXCSAVE2, XT_REG_IDX_EXCSAVE3, XT_REG_IDX_EXCSAVE4, + XT_REG_IDX_EXCSAVE5, XT_REG_IDX_EXCSAVE6, XT_REG_IDX_EXCSAVE7, XT_REG_IDX_CPENABLE, + XT_REG_IDX_INTERRUPT, XT_REG_IDX_INTSET, XT_REG_IDX_INTCLEAR, XT_REG_IDX_INTENABLE, + XT_REG_IDX_VECBASE, XT_REG_IDX_EXCCAUSE, XT_REG_IDX_DEBUGCAUSE, XT_REG_IDX_CCOUNT, + XT_REG_IDX_PRID, XT_REG_IDX_ICOUNT, XT_REG_IDX_ICOUNTLEVEL, XT_REG_IDX_EXCVADDR, + XT_REG_IDX_CCOMPARE0, XT_REG_IDX_CCOMPARE1, XT_REG_IDX_CCOMPARE2, + XT_REG_IDX_MISC0, XT_REG_IDX_MISC1, XT_REG_IDX_MISC2, XT_REG_IDX_MISC3, + XT_REG_IDX_A0, XT_REG_IDX_A1, XT_REG_IDX_A2, XT_REG_IDX_A3, + XT_REG_IDX_A4, XT_REG_IDX_A5, XT_REG_IDX_A6, XT_REG_IDX_A7, + XT_REG_IDX_A8, XT_REG_IDX_A9, XT_REG_IDX_A10, XT_REG_IDX_A11, + XT_REG_IDX_A12, XT_REG_IDX_A13, XT_REG_IDX_A14, XT_REG_IDX_A15, + XT_REG_IDX_PWRCTL, XT_REG_IDX_PWRSTAT, XT_REG_IDX_ERISTAT, + XT_REG_IDX_CS_ITCTRL, XT_REG_IDX_CS_CLAIMSET, XT_REG_IDX_CS_CLAIMCLR, + XT_REG_IDX_CS_LOCKACCESS, XT_REG_IDX_CS_LOCKSTATUS, XT_REG_IDX_CS_AUTHSTATUS, + XT_REG_IDX_FAULT_INFO, + XT_REG_IDX_TRAX_ID, XT_REG_IDX_TRAX_CTRL, XT_REG_IDX_TRAX_STAT, + XT_REG_IDX_TRAX_DATA, XT_REG_IDX_TRAX_ADDR, XT_REG_IDX_TRAX_PCTRIGGER, + XT_REG_IDX_TRAX_PCMATCH, XT_REG_IDX_TRAX_DELAY, XT_REG_IDX_TRAX_MEMSTART, + XT_REG_IDX_TRAX_MEMEND, + XT_REG_IDX_PMG, XT_REG_IDX_PMPC, XT_REG_IDX_PM0, XT_REG_IDX_PM1, + XT_REG_IDX_PMCTRL0, XT_REG_IDX_PMCTRL1, XT_REG_IDX_PMSTAT0, XT_REG_IDX_PMSTAT1, + XT_REG_IDX_OCD_ID, XT_REG_IDX_OCD_DCRCLR, XT_REG_IDX_OCD_DCRSET, XT_REG_IDX_OCD_DSR, +}; + +static const struct xtensa_user_reg_desc esp32_user_regs[ESP32_NUM_REGS - XT_NUM_REGS] = { + { "expstate", 0xE6, 0, 32, &xtensa_user_reg_u32_type }, + { "f64r_lo", 0xEA, 0, 32, &xtensa_user_reg_u32_type }, + { "f64r_hi", 0xEB, 0, 32, &xtensa_user_reg_u32_type }, + { "f64s", 0xEC, 0, 32, &xtensa_user_reg_u32_type }, +}; + +static const struct xtensa_config esp32_xtensa_cfg = { + .density = true, + .aregs_num = XT_AREGS_NUM_MAX, + .windowed = true, + .coproc = true, + .fp_coproc = true, + .loop = true, + .miscregs_num = 4, + .threadptr = true, + .boolean = true, + .reloc_vec = true, + .proc_id = true, + .cond_store = true, + .mac16 = true, + .user_regs_num = ARRAY_SIZE(esp32_user_regs), + .user_regs = esp32_user_regs, + .fetch_user_regs = xtensa_fetch_user_regs_u32, + .queue_write_dirty_user_regs = xtensa_queue_write_dirty_user_regs_u32, + .gdb_general_regs_num = ESP32_NUM_REGS_G_COMMAND, + .gdb_regs_mapping = esp32_gdb_regs_mapping, + .irom = { + .count = 2, + .regions = { + { + .base = ESP32_IROM_LOW, + .size = ESP32_IROM_HIGH - ESP32_IROM_LOW, + .access = XT_MEM_ACCESS_READ, + }, + { + .base = ESP32_IROM_MASK_LOW, + .size = ESP32_IROM_MASK_HIGH - ESP32_IROM_MASK_LOW, + .access = XT_MEM_ACCESS_READ, + }, + } + }, + .iram = { + .count = 2, + .regions = { + { + .base = ESP32_IRAM_LOW, + .size = ESP32_IRAM_HIGH - ESP32_IRAM_LOW, + .access = XT_MEM_ACCESS_READ | XT_MEM_ACCESS_WRITE, + }, + { + .base = ESP32_RTC_IRAM_LOW, + .size = ESP32_RTC_IRAM_HIGH - ESP32_RTC_IRAM_LOW, + .access = XT_MEM_ACCESS_READ | XT_MEM_ACCESS_WRITE, + }, + } + }, + .drom = { + .count = 1, + .regions = { + { + .base = ESP32_DROM_LOW, + .size = ESP32_DROM_HIGH - ESP32_DROM_LOW, + .access = XT_MEM_ACCESS_READ, + }, + } + }, + .dram = { + .count = 6, + .regions = { + { + .base = ESP32_DRAM_LOW, + .size = ESP32_DRAM_HIGH - ESP32_DRAM_LOW, + .access = XT_MEM_ACCESS_READ | XT_MEM_ACCESS_WRITE, + }, + { + .base = ESP32_RTC_DRAM_LOW, + .size = ESP32_RTC_DRAM_HIGH - ESP32_RTC_DRAM_LOW, + .access = XT_MEM_ACCESS_READ | XT_MEM_ACCESS_WRITE, + }, + { + .base = ESP32_RTC_DATA_LOW, + .size = ESP32_RTC_DATA_HIGH - ESP32_RTC_DATA_LOW, + .access = XT_MEM_ACCESS_READ | XT_MEM_ACCESS_WRITE, + }, + { + .base = ESP32_EXTRAM_DATA_LOW, + .size = ESP32_EXTRAM_DATA_HIGH - ESP32_EXTRAM_DATA_LOW, + .access = XT_MEM_ACCESS_READ | XT_MEM_ACCESS_WRITE, + }, + { + .base = ESP32_DR_REG_LOW, + .size = ESP32_DR_REG_HIGH - ESP32_DR_REG_LOW, + .access = XT_MEM_ACCESS_READ | XT_MEM_ACCESS_WRITE, + }, + { + .base = ESP32_SYS_RAM_LOW, + .size = ESP32_SYS_RAM_HIGH - ESP32_SYS_RAM_LOW, + .access = XT_MEM_ACCESS_READ | XT_MEM_ACCESS_WRITE, + }, + } + }, + .exc = { + .enabled = true, + }, + .irq = { + .enabled = true, + .irq_num = 32, + }, + .high_irq = { + .enabled = true, + .excm_level = 3, + .nmi_num = 1, + }, + .tim_irq = { + .enabled = true, + .comp_num = 3, + }, + .debug = { + .enabled = true, + .irq_level = 6, + .ibreaks_num = 2, + .dbreaks_num = 2, + .icount_sz = 32, + }, + .trace = { + .enabled = true, + .mem_sz = ESP32_TRACEMEM_BLOCK_SZ, + .reversed_mem_access = true, + }, +}; + +/* 0 - don't care, 1 - TMS low, 2 - TMS high */ +enum esp32_flash_bootstrap { + FBS_DONTCARE = 0, + FBS_TMSLOW, + FBS_TMSHIGH, +}; + +struct esp32_common { + struct esp_xtensa_smp_common esp_xtensa_smp; + enum esp32_flash_bootstrap flash_bootstrap; +}; + +static inline struct esp32_common *target_to_esp32(struct target *target) +{ + return container_of(target->arch_info, struct esp32_common, esp_xtensa_smp); +} + +/* Reset ESP32 peripherals. + * Postconditions: all peripherals except RTC_CNTL are reset, CPU's PC is undefined, PRO CPU is halted, + * APP CPU is in reset + * How this works: + * 0. make sure target is halted; if not, try to halt it; if that fails, try to reset it (via OCD) and then halt + * 1. set CPU initial PC to 0x50000000 (ESP32_SMP_RTC_DATA_LOW) by clearing RTC_CNTL_{PRO,APP}CPU_STAT_VECTOR_SEL + * 2. load stub code into ESP32_SMP_RTC_DATA_LOW; once executed, stub code will disable watchdogs and + * make CPU spin in an idle loop. + * 3. trigger SoC reset using RTC_CNTL_SW_SYS_RST bit + * 4. wait for the OCD to be reset + * 5. halt the target and wait for it to be halted (at this point CPU is in the idle loop) + * 6. restore initial PC and the contents of ESP32_SMP_RTC_DATA_LOW + * TODO: some state of RTC_CNTL is not reset during SW_SYS_RST. Need to reset that manually. */ + +const uint8_t esp32_reset_stub_code[] = { +#include "../../../contrib/loaders/reset/espressif/esp32/cpu_reset_handler_code.inc" +}; + +static int esp32_soc_reset(struct target *target) +{ + int res; + struct target_list *head; + struct xtensa *xtensa; + + LOG_DEBUG("start"); + /* In order to write to peripheral registers, target must be halted first */ + if (target->state != TARGET_HALTED) { + LOG_DEBUG("Target not halted before SoC reset, trying to halt it first"); + xtensa_halt(target); + res = target_wait_state(target, TARGET_HALTED, 1000); + if (res != ERROR_OK) { + LOG_DEBUG("Couldn't halt target before SoC reset, trying to do reset-halt"); + res = xtensa_assert_reset(target); + if (res != ERROR_OK) { + LOG_ERROR( + "Couldn't halt target before SoC reset! (xtensa_assert_reset returned %d)", + res); + return res; + } + alive_sleep(10); + xtensa_poll(target); + bool reset_halt_save = target->reset_halt; + target->reset_halt = true; + res = xtensa_deassert_reset(target); + target->reset_halt = reset_halt_save; + if (res != ERROR_OK) { + LOG_ERROR( + "Couldn't halt target before SoC reset! (xtensa_deassert_reset returned %d)", + res); + return res; + } + alive_sleep(10); + xtensa_poll(target); + xtensa_halt(target); + res = target_wait_state(target, TARGET_HALTED, 1000); + if (res != ERROR_OK) { + LOG_ERROR("Couldn't halt target before SoC reset"); + return res; + } + } + } + + if (target->smp) { + foreach_smp_target(head, target->smp_targets) { + xtensa = target_to_xtensa(head->target); + /* if any of the cores is stalled unstall them */ + if (xtensa_dm_core_is_stalled(&xtensa->dbg_mod)) { + LOG_TARGET_DEBUG(head->target, "Unstall CPUs before SW reset!"); + res = target_write_u32(target, + ESP32_RTC_CNTL_SW_CPU_STALL_REG, + ESP32_RTC_CNTL_SW_CPU_STALL_DEF); + if (res != ERROR_OK) { + LOG_TARGET_ERROR(head->target, "Failed to unstall CPUs before SW reset!"); + return res; + } + break; /* both cores are unstalled now, so exit the loop */ + } + } + } + + LOG_DEBUG("Loading stub code into RTC RAM"); + uint8_t slow_mem_save[sizeof(esp32_reset_stub_code)]; + + /* Save contents of RTC_SLOW_MEM which we are about to overwrite */ + res = target_read_buffer(target, ESP32_RTC_SLOW_MEM_BASE, sizeof(slow_mem_save), slow_mem_save); + if (res != ERROR_OK) { + LOG_ERROR("Failed to save contents of RTC_SLOW_MEM (%d)!", res); + return res; + } + + /* Write stub code into RTC_SLOW_MEM */ + res = target_write_buffer(target, ESP32_RTC_SLOW_MEM_BASE, sizeof(esp32_reset_stub_code), esp32_reset_stub_code); + if (res != ERROR_OK) { + LOG_ERROR("Failed to write stub (%d)!", res); + return res; + } + + LOG_DEBUG("Resuming the target"); + xtensa = target_to_xtensa(target); + xtensa->suppress_dsr_errors = true; + res = xtensa_resume(target, 0, ESP32_RTC_SLOW_MEM_BASE + 4, 0, 0); + xtensa->suppress_dsr_errors = false; + if (res != ERROR_OK) { + LOG_ERROR("Failed to run stub (%d)!", res); + return res; + } + LOG_DEBUG("resume done, waiting for the target to come alive"); + + /* Wait for SoC to reset */ + alive_sleep(100); + int64_t timeout = timeval_ms() + 100; + bool get_timeout = false; + while (target->state != TARGET_RESET && target->state != TARGET_RUNNING) { + alive_sleep(10); + xtensa_poll(target); + if (timeval_ms() >= timeout) { + LOG_TARGET_ERROR(target, "Timed out waiting for CPU to be reset, target state=%d", target->state); + get_timeout = true; + break; + } + } + + /* Halt the CPU again */ + LOG_DEBUG("halting the target"); + xtensa_halt(target); + res = target_wait_state(target, TARGET_HALTED, 1000); + if (res == ERROR_OK) { + LOG_DEBUG("restoring RTC_SLOW_MEM"); + res = target_write_buffer(target, ESP32_RTC_SLOW_MEM_BASE, sizeof(slow_mem_save), slow_mem_save); + if (res != ERROR_OK) + LOG_TARGET_ERROR(target, "Failed to restore contents of RTC_SLOW_MEM (%d)!", res); + } else { + LOG_TARGET_ERROR(target, "Timed out waiting for CPU to be halted after SoC reset"); + } + + return get_timeout ? ERROR_TARGET_TIMEOUT : res; +} + +static int esp32_disable_wdts(struct target *target) +{ + /* TIMG1 WDT */ + int res = target_write_u32(target, ESP32_TIMG0WDT_PROTECT, ESP32_WDT_WKEY_VALUE); + if (res != ERROR_OK) { + LOG_ERROR("Failed to write ESP32_TIMG0WDT_PROTECT (%d)!", res); + return res; + } + res = target_write_u32(target, ESP32_TIMG0WDT_CFG0, 0); + if (res != ERROR_OK) { + LOG_ERROR("Failed to write ESP32_TIMG0WDT_CFG0 (%d)!", res); + return res; + } + /* TIMG2 WDT */ + res = target_write_u32(target, ESP32_TIMG1WDT_PROTECT, ESP32_WDT_WKEY_VALUE); + if (res != ERROR_OK) { + LOG_ERROR("Failed to write ESP32_TIMG1WDT_PROTECT (%d)!", res); + return res; + } + res = target_write_u32(target, ESP32_TIMG1WDT_CFG0, 0); + if (res != ERROR_OK) { + LOG_ERROR("Failed to write ESP32_TIMG1WDT_CFG0 (%d)!", res); + return res; + } + /* RTC WDT */ + res = target_write_u32(target, ESP32_RTCWDT_PROTECT, ESP32_WDT_WKEY_VALUE); + if (res != ERROR_OK) { + LOG_ERROR("Failed to write ESP32_RTCWDT_PROTECT (%d)!", res); + return res; + } + res = target_write_u32(target, ESP32_RTCWDT_CFG, 0); + if (res != ERROR_OK) { + LOG_ERROR("Failed to write ESP32_RTCWDT_CFG (%d)!", res); + return res; + } + return ERROR_OK; +} + +static int esp32_on_halt(struct target *target) +{ + return esp32_disable_wdts(target); +} + +static int esp32_arch_state(struct target *target) +{ + return ERROR_OK; +} + +static int esp32_virt2phys(struct target *target, + target_addr_t virtual, target_addr_t *physical) +{ + if (physical) { + *physical = virtual; + return ERROR_OK; + } + return ERROR_FAIL; +} + + +/* The TDI pin is also used as a flash Vcc bootstrap pin. If we reset the CPU externally, the last state of the TDI pin + * can allow the power to an 1.8V flash chip to be raised to 3.3V, or the other way around. Users can use the + * esp32 flashbootstrap command to set a level, and this routine will make sure the tdi line will return to + * that when the jtag port is idle. */ + +static void esp32_queue_tdi_idle(struct target *target) +{ + struct esp32_common *esp32 = target_to_esp32(target); + static uint32_t value; + uint8_t t[4] = { 0, 0, 0, 0 }; + + if (esp32->flash_bootstrap == FBS_TMSLOW) + /* Make sure tdi is 0 at the exit of queue execution */ + value = 0; + else if (esp32->flash_bootstrap == FBS_TMSHIGH) + /* Make sure tdi is 1 at the exit of queue execution */ + value = 1; + else + return; + + /* Scan out 1 bit, do not move from IRPAUSE after we're done. */ + buf_set_u32(t, 0, 1, value); + jtag_add_plain_ir_scan(1, t, NULL, TAP_IRPAUSE); +} + +static int esp32_target_init(struct command_context *cmd_ctx, struct target *target) +{ + return esp_xtensa_smp_target_init(cmd_ctx, target); +} + +static const struct xtensa_debug_ops esp32_dbg_ops = { + .queue_enable = xtensa_dm_queue_enable, + .queue_reg_read = xtensa_dm_queue_reg_read, + .queue_reg_write = xtensa_dm_queue_reg_write +}; + +static const struct xtensa_power_ops esp32_pwr_ops = { + .queue_reg_read = xtensa_dm_queue_pwr_reg_read, + .queue_reg_write = xtensa_dm_queue_pwr_reg_write +}; + +static const struct esp_xtensa_smp_chip_ops esp32_chip_ops = { + .reset = esp32_soc_reset, + .on_halt = esp32_on_halt +}; + +static int esp32_target_create(struct target *target, Jim_Interp *interp) +{ + struct xtensa_debug_module_config esp32_dm_cfg = { + .dbg_ops = &esp32_dbg_ops, + .pwr_ops = &esp32_pwr_ops, + .tap = target->tap, + .queue_tdi_idle = esp32_queue_tdi_idle, + .queue_tdi_idle_arg = target + }; + + struct esp32_common *esp32 = calloc(1, sizeof(struct esp32_common)); + if (!esp32) { + LOG_ERROR("Failed to alloc memory for arch info!"); + return ERROR_FAIL; + } + + int ret = esp_xtensa_smp_init_arch_info(target, &esp32->esp_xtensa_smp, &esp32_xtensa_cfg, + &esp32_dm_cfg, &esp32_chip_ops); + if (ret != ERROR_OK) { + LOG_ERROR("Failed to init arch info!"); + free(esp32); + return ret; + } + esp32->flash_bootstrap = FBS_DONTCARE; + + /* Assume running target. If different, the first poll will fix this. */ + target->state = TARGET_RUNNING; + target->debug_reason = DBG_REASON_NOTHALTED; + return ERROR_OK; +} + +COMMAND_HELPER(esp32_cmd_flashbootstrap_do, struct esp32_common *esp32) +{ + int state = -1; + + if (CMD_ARGC < 1) { + const char *st; + state = esp32->flash_bootstrap; + if (state == FBS_DONTCARE) + st = "Don't care"; + else if (state == FBS_TMSLOW) + st = "Low (3.3V)"; + else if (state == FBS_TMSHIGH) + st = "High (1.8V)"; + else + st = "None"; + command_print(CMD, "Current idle tms state: %s", st); + return ERROR_OK; + } + + if (!strcasecmp(CMD_ARGV[0], "none")) + state = FBS_DONTCARE; + else if (!strcasecmp(CMD_ARGV[0], "1.8")) + state = FBS_TMSHIGH; + else if (!strcasecmp(CMD_ARGV[0], "3.3")) + state = FBS_TMSLOW; + else if (!strcasecmp(CMD_ARGV[0], "high")) + state = FBS_TMSHIGH; + else if (!strcasecmp(CMD_ARGV[0], "low")) + state = FBS_TMSLOW; + + if (state == -1) { + command_print(CMD, + "Argument unknown. Please pick one of none, high, low, 1.8 or 3.3"); + return ERROR_FAIL; + } + esp32->flash_bootstrap = state; + return ERROR_OK; +} + +COMMAND_HANDLER(esp32_cmd_flashbootstrap) +{ + struct target *target = get_current_target(CMD_CTX); + + if (target->smp) { + struct target_list *head; + struct target *curr; + foreach_smp_target(head, target->smp_targets) { + curr = head->target; + int ret = CALL_COMMAND_HANDLER(esp32_cmd_flashbootstrap_do, + target_to_esp32(curr)); + if (ret != ERROR_OK) + return ret; + } + return ERROR_OK; + } + return CALL_COMMAND_HANDLER(esp32_cmd_flashbootstrap_do, + target_to_esp32(target)); +} + +static const struct command_registration esp32_any_command_handlers[] = { + { + .name = "flashbootstrap", + .handler = esp32_cmd_flashbootstrap, + .mode = COMMAND_ANY, + .help = + "Set the idle state of the TMS pin, which at reset also is the voltage selector for the flash chip.", + .usage = "none|1.8|3.3|high|low", + }, + COMMAND_REGISTRATION_DONE +}; + +extern const struct command_registration semihosting_common_handlers[]; +static const struct command_registration esp32_command_handlers[] = { + { + .chain = esp_xtensa_smp_command_handlers, + }, + { + .name = "esp32", + .usage = "", + .chain = smp_command_handlers, + }, + { + .name = "esp32", + .usage = "", + .chain = esp32_any_command_handlers, + }, + COMMAND_REGISTRATION_DONE +}; + +/** Holds methods for Xtensa targets. */ +struct target_type esp32_target = { + .name = "esp32", + + .poll = esp_xtensa_smp_poll, + .arch_state = esp32_arch_state, + + .halt = xtensa_halt, + .resume = esp_xtensa_smp_resume, + .step = esp_xtensa_smp_step, + + .assert_reset = esp_xtensa_smp_assert_reset, + .deassert_reset = esp_xtensa_smp_deassert_reset, + .soft_reset_halt = esp_xtensa_smp_soft_reset_halt, + + .virt2phys = esp32_virt2phys, + .mmu = xtensa_mmu_is_enabled, + .read_memory = xtensa_read_memory, + .write_memory = xtensa_write_memory, + + .read_buffer = xtensa_read_buffer, + .write_buffer = xtensa_write_buffer, + + .checksum_memory = xtensa_checksum_memory, + + .get_gdb_arch = xtensa_get_gdb_arch, + .get_gdb_reg_list = xtensa_get_gdb_reg_list, + + .add_breakpoint = esp_xtensa_breakpoint_add, + .remove_breakpoint = esp_xtensa_breakpoint_remove, + + .add_watchpoint = esp_xtensa_smp_watchpoint_add, + .remove_watchpoint = esp_xtensa_smp_watchpoint_remove, + + .target_create = esp32_target_create, + .init_target = esp32_target_init, + .examine = xtensa_examine, + .deinit_target = esp_xtensa_target_deinit, + + .commands = esp32_command_handlers, +}; diff --git a/src/target/espressif/esp32.h b/src/target/espressif/esp32.h new file mode 100644 index 0000000..bb812d0 --- /dev/null +++ b/src/target/espressif/esp32.h @@ -0,0 +1,42 @@ +/*************************************************************************** + * ESP32 target for OpenOCD * + * Copyright (C) 2017 Espressif Systems Ltd. * + * * + * This program is free software; you can redistribute it and/or modify * + * it under the terms of the GNU General Public License as published by * + * the Free Software Foundation; either version 2 of the License, or * + * (at your option) any later version. * + * * + * This program is distributed in the hope that it will be useful, * + * but WITHOUT ANY WARRANTY; without even the implied warranty of * + * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * + * GNU General Public License for more details. * + * * + * You should have received a copy of the GNU General Public License * + * along with this program. If not, see <http://www.gnu.org/licenses/>. * + ***************************************************************************/ + +#ifndef OPENOCD_TARGET_ESP32_H +#define OPENOCD_TARGET_ESP32_H + +#include <target/xtensa/xtensa_regs.h> + +#define ESP32_DROM_LOW 0x3F400000 +#define ESP32_DROM_HIGH 0x3F800000 +#define ESP32_IROM_LOW 0x400D0000 +#define ESP32_IROM_HIGH 0x40400000 + +/* Number of registers returned directly by the G command + * Corresponds to the amount of regs listed in regformats/reg-xtensa.dat in the gdb source */ +#define ESP32_NUM_REGS_G_COMMAND 105 + +enum esp32_reg_id { + /* chip specific registers that extend ISA go after ISA-defined ones */ + ESP32_REG_IDX_EXPSTATE = XT_USR_REG_START, + ESP32_REG_IDX_F64R_LO, + ESP32_REG_IDX_F64R_HI, + ESP32_REG_IDX_F64S, + ESP32_NUM_REGS, +}; + +#endif /* OPENOCD_TARGET_ESP32_H */ diff --git a/src/target/espressif/esp32s2.c b/src/target/espressif/esp32s2.c index 212533f..3698032 100644 --- a/src/target/espressif/esp32s2.c +++ b/src/target/espressif/esp32s2.c @@ -474,7 +474,7 @@ static int esp32s2_soc_reset(struct target *target) res = esp32s2_set_peri_reg_mask(target, ESP32_S2_OPTIONS0, ESP32_S2_SW_SYS_RST_M, - 1U << ESP32_S2_SW_SYS_RST_S); + BIT(ESP32_S2_SW_SYS_RST_S)); xtensa->suppress_dsr_errors = false; if (res != ERROR_OK) { LOG_ERROR("Failed to write ESP32_S2_OPTIONS0 (%d)!", res); diff --git a/src/target/espressif/esp_xtensa_smp.c b/src/target/espressif/esp_xtensa_smp.c new file mode 100644 index 0000000..1c36a29 --- /dev/null +++ b/src/target/espressif/esp_xtensa_smp.c @@ -0,0 +1,716 @@ +/*************************************************************************** + * ESP Xtensa SMP target API for OpenOCD * + * Copyright (C) 2020 Espressif Systems Ltd. Co * + * Author: Alexey Gerenkov <alexey@espressif.com> * + * * + * This program is free software; you can redistribute it and/or modify * + * it under the terms of the GNU General Public License as published by * + * the Free Software Foundation; either version 2 of the License, or * + * (at your option) any later version. * + * * + * This program is distributed in the hope that it will be useful, * + * but WITHOUT ANY WARRANTY; without even the implied warranty of * + * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * + * GNU General Public License for more details. * + * * + * You should have received a copy of the GNU General Public License * + * along with this program. If not, see <http://www.gnu.org/licenses/>. * + ***************************************************************************/ + +#ifdef HAVE_CONFIG_H +#include "config.h" +#endif + +#include "assert.h" +#include <target/target.h> +#include <target/target_type.h> +#include <target/smp.h> +#include "esp_xtensa_smp.h" + +/* +Multiprocessor stuff common: + +The ESP Xtensa chip can have several cores in it, which can run in SMP-mode if an +SMP-capable OS is running. The hardware has a few features which makes +SMP debugging much easier. + +First of all, there's something called a 'break network', consisting of a +BreakIn input and a BreakOut output on each CPU. The idea is that as soon +as a CPU goes into debug mode for whatever reason, it'll signal that using +its DebugOut pin. This signal is connected to the other CPU's DebugIn +input, causing this CPU also to go into debugging mode. To resume execution +when using only this break network, we will need to manually resume both +CPUs. + +An alternative to this is the XOCDMode output and the RunStall (or DebugStall) +input. When these are cross-connected, a CPU that goes into debug mode will +halt execution entirely on the other CPU. Execution on the other CPU can be +resumed by either the first CPU going out of debug mode, or the second CPU +going into debug mode: the stall is temporarily lifted as long as the stalled +CPU is in debug mode. + +A third, separate, signal is CrossTrigger. This is connected in the same way +as the breakIn/breakOut network, but is for the TRAX (trace memory) feature; +it does not affect OCD in any way. +*/ + +/* +Multiprocessor stuff: + +The ESP Xtensa chip has several Xtensa cores inside, but represent themself to the OCD +as one chip that works in multithreading mode under FreeRTOS OS. +The core that initiate the stop condition will be defined as an active cpu. +When one core stops, then other core will be stopped automatically by smpbreak. +The core that initiates stop condition will be defined as an active core, and +registers of this core will be transferred. +*/ + +#define ESP_XTENSA_SMP_EXAMINE_OTHER_CORES 5 + +static int esp_xtensa_smp_update_halt_gdb(struct target *target, bool *need_resume); + +static inline struct esp_xtensa_smp_common *target_to_esp_xtensa_smp(struct target *target) +{ + return container_of(target->arch_info, struct esp_xtensa_smp_common, esp_xtensa); +} + +int esp_xtensa_smp_assert_reset(struct target *target) +{ + return ERROR_OK; +} + +int esp_xtensa_smp_deassert_reset(struct target *target) +{ + LOG_TARGET_DEBUG(target, "begin"); + + int ret = xtensa_deassert_reset(target); + if (ret != ERROR_OK) + return ret; + /* in SMP mode when chip was running single-core app the other core can be left un-examined, + because examination is done before SOC reset. But after SOC reset it is functional and should be handled. + So try to examine un-examined core just after SOC reset */ + if (target->smp && !target_was_examined(target)) + ret = xtensa_examine(target); + return ret; +} + +int esp_xtensa_smp_soft_reset_halt(struct target *target) +{ + int res; + struct target_list *head; + struct esp_xtensa_smp_common *esp_xtensa_smp = target_to_esp_xtensa_smp(target); + + LOG_TARGET_DEBUG(target, "begin"); + /* in SMP mode we need to ensure that at first we reset SOC on PRO-CPU + and then call xtensa_assert_reset() for all cores */ + if (target->smp && target->coreid != 0) + return ERROR_OK; + /* Reset the SoC first */ + if (esp_xtensa_smp->chip_ops->reset) { + res = esp_xtensa_smp->chip_ops->reset(target); + if (res != ERROR_OK) + return res; + } + if (!target->smp) + return xtensa_assert_reset(target); + + foreach_smp_target(head, target->smp_targets) { + res = xtensa_assert_reset(head->target); + if (res != ERROR_OK) + return res; + } + return ERROR_OK; +} + +static struct target *get_halted_esp_xtensa_smp(struct target *target, int32_t coreid) +{ + struct target_list *head; + struct target *curr; + + foreach_smp_target(head, target->smp_targets) { + curr = head->target; + if ((curr->coreid == coreid) && (curr->state == TARGET_HALTED)) + return curr; + } + + return target; +} + +int esp_xtensa_smp_poll(struct target *target) +{ + enum target_state old_state = target->state; + struct esp_xtensa_smp_common *esp_xtensa_smp = target_to_esp_xtensa_smp(target); + struct target_list *head; + struct target *curr; + bool other_core_resume_req = false; + + if (target->state == TARGET_HALTED && target->smp && target->gdb_service && !target->gdb_service->target) { + target->gdb_service->target = get_halted_esp_xtensa_smp(target, target->gdb_service->core[1]); + LOG_INFO("Switch GDB target to '%s'", target_name(target->gdb_service->target)); + if (esp_xtensa_smp->chip_ops->on_halt) + esp_xtensa_smp->chip_ops->on_halt(target); + target_call_event_callbacks(target, TARGET_EVENT_HALTED); + return ERROR_OK; + } + + int ret = esp_xtensa_poll(target); + if (ret != ERROR_OK) + return ret; + + if (target->smp) { + if (target->state == TARGET_RESET) { + esp_xtensa_smp->examine_other_cores = ESP_XTENSA_SMP_EXAMINE_OTHER_CORES; + } else if (esp_xtensa_smp->examine_other_cores > 0 && + (target->state == TARGET_RUNNING || target->state == TARGET_HALTED)) { + LOG_TARGET_DEBUG(target, "Check for unexamined cores after reset"); + bool all_examined = true; + foreach_smp_target(head, target->smp_targets) { + curr = head->target; + if (curr == target) + continue; + if (!target_was_examined(curr)) { + if (target_examine_one(curr) != ERROR_OK) { + LOG_DEBUG("Failed to examine!"); + all_examined = false; + } + } + } + if (all_examined) + esp_xtensa_smp->examine_other_cores = 0; + else + esp_xtensa_smp->examine_other_cores--; + } + } + + if (old_state != TARGET_HALTED && target->state == TARGET_HALTED) { + if (target->smp) { + ret = esp_xtensa_smp_update_halt_gdb(target, &other_core_resume_req); + if (ret != ERROR_OK) + return ret; + } + /* Call any event callbacks that are applicable */ + if (old_state == TARGET_DEBUG_RUNNING) { + target_call_event_callbacks(target, TARGET_EVENT_DEBUG_HALTED); + } else { + /* check whether any core polled by esp_xtensa_smp_update_halt_gdb() requested resume */ + if (target->smp && other_core_resume_req) { + /* Resume xtensa_resume will handle BREAK instruction. */ + ret = target_resume(target, 1, 0, 1, 0); + if (ret != ERROR_OK) { + LOG_ERROR("Failed to resume target"); + return ret; + } + return ERROR_OK; + } + if (esp_xtensa_smp->chip_ops->on_halt) + esp_xtensa_smp->chip_ops->on_halt(target); + target_call_event_callbacks(target, TARGET_EVENT_HALTED); + } + } + + return ERROR_OK; +} + +static int esp_xtensa_smp_update_halt_gdb(struct target *target, bool *need_resume) +{ + struct esp_xtensa_smp_common *esp_xtensa_smp; + struct target *gdb_target = NULL; + struct target_list *head; + struct target *curr; + int ret = ERROR_OK; + + *need_resume = false; + + if (target->gdb_service && target->gdb_service->target) + LOG_DEBUG("GDB target '%s'", target_name(target->gdb_service->target)); + + if (target->gdb_service && target->gdb_service->core[0] == -1) { + target->gdb_service->target = target; + target->gdb_service->core[0] = target->coreid; + LOG_INFO("Set GDB target to '%s'", target_name(target)); + } + + if (target->gdb_service) + gdb_target = target->gdb_service->target; + + /* due to smpbreak config other cores can also go to HALTED state */ + foreach_smp_target(head, target->smp_targets) { + curr = head->target; + LOG_DEBUG("Check target '%s'", target_name(curr)); + /* skip calling context */ + if (curr == target) + continue; + if (!target_was_examined(curr)) { + curr->state = TARGET_HALTED; + continue; + } + /* skip targets that were already halted */ + if (curr->state == TARGET_HALTED) + continue; + /* Skip gdb_target; it alerts GDB so has to be polled as last one */ + if (curr == gdb_target) + continue; + LOG_DEBUG("Poll target '%s'", target_name(curr)); + + esp_xtensa_smp = target_to_esp_xtensa_smp(curr); + /* avoid auto-resume after syscall, it will be done later */ + esp_xtensa_smp->other_core_does_resume = true; + /* avoid recursion in esp_xtensa_smp_poll() */ + curr->smp = 0; + if (esp_xtensa_smp->chip_ops->poll) + ret = esp_xtensa_smp->chip_ops->poll(curr); + else + ret = esp_xtensa_smp_poll(curr); + curr->smp = 1; + if (ret != ERROR_OK) + return ret; + esp_xtensa_smp->other_core_does_resume = false; + } + + /* after all targets were updated, poll the gdb serving target */ + if (gdb_target && gdb_target != target) { + esp_xtensa_smp = target_to_esp_xtensa_smp(gdb_target); + if (esp_xtensa_smp->chip_ops->poll) + ret = esp_xtensa_smp->chip_ops->poll(gdb_target); + else + ret = esp_xtensa_smp_poll(gdb_target); + } + + LOG_DEBUG("exit"); + + return ret; +} + +static inline int esp_xtensa_smp_smpbreak_disable(struct target *target, uint32_t *smp_break) +{ + int res = xtensa_smpbreak_get(target, smp_break); + if (res != ERROR_OK) + return res; + return xtensa_smpbreak_set(target, 0); +} + +static inline int esp_xtensa_smp_smpbreak_restore(struct target *target, uint32_t smp_break) +{ + return xtensa_smpbreak_set(target, smp_break); +} + +static int esp_xtensa_smp_resume_cores(struct target *target, + int handle_breakpoints, + int debug_execution) +{ + struct target_list *head; + struct target *curr; + + LOG_TARGET_DEBUG(target, "begin"); + + foreach_smp_target(head, target->smp_targets) { + curr = head->target; + /* in single-core mode disabled core cannot be examined, but need to be resumed too*/ + if ((curr != target) && (curr->state != TARGET_RUNNING) && target_was_examined(curr)) { + /* resume current address, not in SMP mode */ + curr->smp = 0; + int res = esp_xtensa_smp_resume(curr, 1, 0, handle_breakpoints, debug_execution); + curr->smp = 1; + if (res != ERROR_OK) + return res; + } + } + return ERROR_OK; +} + +int esp_xtensa_smp_resume(struct target *target, + int current, + target_addr_t address, + int handle_breakpoints, + int debug_execution) +{ + int res; + uint32_t smp_break; + + xtensa_smpbreak_get(target, &smp_break); + LOG_TARGET_DEBUG(target, "smp_break=0x%" PRIx32, smp_break); + + /* dummy resume for smp toggle in order to reduce gdb impact */ + if ((target->smp) && (target->gdb_service) && (target->gdb_service->core[1] != -1)) { + /* simulate a start and halt of target */ + target->gdb_service->target = NULL; + target->gdb_service->core[0] = target->gdb_service->core[1]; + /* fake resume at next poll we play the target core[1], see poll*/ + LOG_TARGET_DEBUG(target, "Fake resume"); + target_call_event_callbacks(target, TARGET_EVENT_RESUMED); + return ERROR_OK; + } + + /* xtensa_prepare_resume() can step over breakpoint/watchpoint and generate signals on BreakInOut circuit for + * other cores. So disconnect this core from BreakInOut circuit and do xtensa_prepare_resume(). */ + res = esp_xtensa_smp_smpbreak_disable(target, &smp_break); + if (res != ERROR_OK) + return res; + res = xtensa_prepare_resume(target, current, address, handle_breakpoints, debug_execution); + /* restore configured BreakInOut signals config */ + int ret = esp_xtensa_smp_smpbreak_restore(target, smp_break); + if (ret != ERROR_OK) + return ret; + if (res != ERROR_OK) { + LOG_TARGET_ERROR(target, "Failed to prepare for resume!"); + return res; + } + + if (target->smp) { + if (target->gdb_service) + target->gdb_service->core[0] = -1; + res = esp_xtensa_smp_resume_cores(target, handle_breakpoints, debug_execution); + if (res != ERROR_OK) + return res; + } + + res = xtensa_do_resume(target); + if (res != ERROR_OK) { + LOG_TARGET_ERROR(target, "Failed to resume!"); + return res; + } + + target->debug_reason = DBG_REASON_NOTHALTED; + if (!debug_execution) + target->state = TARGET_RUNNING; + else + target->state = TARGET_DEBUG_RUNNING; + + target_call_event_callbacks(target, TARGET_EVENT_RESUMED); + return ERROR_OK; +} + +int esp_xtensa_smp_step(struct target *target, + int current, + target_addr_t address, + int handle_breakpoints) +{ + int res; + uint32_t smp_break; + struct esp_xtensa_smp_common *esp_xtensa_smp = target_to_esp_xtensa_smp(target); + + if (target->smp) { + res = esp_xtensa_smp_smpbreak_disable(target, &smp_break); + if (res != ERROR_OK) + return res; + } + res = xtensa_step(target, current, address, handle_breakpoints); + + if (res == ERROR_OK) { + if (esp_xtensa_smp->chip_ops->on_halt) + esp_xtensa_smp->chip_ops->on_halt(target); + target_call_event_callbacks(target, TARGET_EVENT_HALTED); + } + + if (target->smp) { + int ret = esp_xtensa_smp_smpbreak_restore(target, smp_break); + if (ret != ERROR_OK) + return ret; + } + + return res; +} + +int esp_xtensa_smp_watchpoint_add(struct target *target, struct watchpoint *watchpoint) +{ + int res = xtensa_watchpoint_add(target, watchpoint); + if (res != ERROR_OK) + return res; + + if (!target->smp) + return ERROR_OK; + + struct target_list *head; + foreach_smp_target(head, target->smp_targets) { + struct target *curr = head->target; + if (curr == target || !target_was_examined(curr)) + continue; + /* Need to use high level API here because every target for core contains list of watchpoints. + * GDB works with active core only, so we need to duplicate every watchpoint on other cores, + * otherwise watchpoint_free() on active core can fail if WP has been initially added on another core. */ + curr->smp = 0; + res = watchpoint_add(curr, watchpoint->address, watchpoint->length, + watchpoint->rw, watchpoint->value, watchpoint->mask); + curr->smp = 1; + if (res != ERROR_OK) + return res; + } + return ERROR_OK; +} + +int esp_xtensa_smp_watchpoint_remove(struct target *target, struct watchpoint *watchpoint) +{ + int res = xtensa_watchpoint_remove(target, watchpoint); + if (res != ERROR_OK) + return res; + + if (!target->smp) + return ERROR_OK; + + struct target_list *head; + foreach_smp_target(head, target->smp_targets) { + struct target *curr = head->target; + if (curr == target) + continue; + /* see big comment in esp_xtensa_smp_watchpoint_add() */ + curr->smp = 0; + watchpoint_remove(curr, watchpoint->address); + curr->smp = 1; + } + return ERROR_OK; +} + +int esp_xtensa_smp_init_arch_info(struct target *target, + struct esp_xtensa_smp_common *esp_xtensa_smp, + const struct xtensa_config *xtensa_cfg, + struct xtensa_debug_module_config *dm_cfg, + const struct esp_xtensa_smp_chip_ops *chip_ops) +{ + int ret = esp_xtensa_init_arch_info(target, &esp_xtensa_smp->esp_xtensa, xtensa_cfg, dm_cfg); + if (ret != ERROR_OK) + return ret; + esp_xtensa_smp->chip_ops = chip_ops; + esp_xtensa_smp->examine_other_cores = ESP_XTENSA_SMP_EXAMINE_OTHER_CORES; + return ERROR_OK; +} + +int esp_xtensa_smp_target_init(struct command_context *cmd_ctx, struct target *target) +{ + return esp_xtensa_target_init(cmd_ctx, target); +} + +COMMAND_HANDLER(esp_xtensa_smp_cmd_permissive_mode) +{ + struct target *target = get_current_target(CMD_CTX); + if (target->smp && CMD_ARGC > 0) { + struct target_list *head; + struct target *curr; + foreach_smp_target(head, target->smp_targets) { + curr = head->target; + int ret = CALL_COMMAND_HANDLER(xtensa_cmd_permissive_mode_do, + target_to_xtensa(curr)); + if (ret != ERROR_OK) + return ret; + } + return ERROR_OK; + } + return CALL_COMMAND_HANDLER(xtensa_cmd_permissive_mode_do, + target_to_xtensa(target)); +} + +COMMAND_HANDLER(esp_xtensa_smp_cmd_smpbreak) +{ + struct target *target = get_current_target(CMD_CTX); + if (target->smp && CMD_ARGC > 0) { + struct target_list *head; + struct target *curr; + foreach_smp_target(head, target->smp_targets) { + curr = head->target; + int ret = CALL_COMMAND_HANDLER(xtensa_cmd_smpbreak_do, curr); + if (ret != ERROR_OK) + return ret; + } + return ERROR_OK; + } + return CALL_COMMAND_HANDLER(xtensa_cmd_smpbreak_do, target); +} + +COMMAND_HANDLER(esp_xtensa_smp_cmd_mask_interrupts) +{ + struct target *target = get_current_target(CMD_CTX); + if (target->smp && CMD_ARGC > 0) { + struct target_list *head; + struct target *curr; + foreach_smp_target(head, target->smp_targets) { + curr = head->target; + int ret = CALL_COMMAND_HANDLER(xtensa_cmd_mask_interrupts_do, + target_to_xtensa(curr)); + if (ret != ERROR_OK) + return ret; + } + return ERROR_OK; + } + return CALL_COMMAND_HANDLER(xtensa_cmd_mask_interrupts_do, + target_to_xtensa(target)); +} + +COMMAND_HANDLER(esp_xtensa_smp_cmd_perfmon_enable) +{ + struct target *target = get_current_target(CMD_CTX); + if (target->smp && CMD_ARGC > 0) { + struct target_list *head; + struct target *curr; + foreach_smp_target(head, target->smp_targets) { + curr = head->target; + int ret = CALL_COMMAND_HANDLER(xtensa_cmd_perfmon_enable_do, + target_to_xtensa(curr)); + if (ret != ERROR_OK) + return ret; + } + return ERROR_OK; + } + return CALL_COMMAND_HANDLER(xtensa_cmd_perfmon_enable_do, + target_to_xtensa(target)); +} + +COMMAND_HANDLER(esp_xtensa_smp_cmd_perfmon_dump) +{ + struct target *target = get_current_target(CMD_CTX); + if (target->smp) { + struct target_list *head; + struct target *curr; + foreach_smp_target(head, target->smp_targets) { + curr = head->target; + LOG_INFO("CPU%d:", curr->coreid); + int ret = CALL_COMMAND_HANDLER(xtensa_cmd_perfmon_dump_do, + target_to_xtensa(curr)); + if (ret != ERROR_OK) + return ret; + } + return ERROR_OK; + } + return CALL_COMMAND_HANDLER(xtensa_cmd_perfmon_dump_do, + target_to_xtensa(target)); +} + +COMMAND_HANDLER(esp_xtensa_smp_cmd_tracestart) +{ + struct target *target = get_current_target(CMD_CTX); + if (target->smp) { + struct target_list *head; + struct target *curr; + foreach_smp_target(head, target->smp_targets) { + curr = head->target; + int ret = CALL_COMMAND_HANDLER(xtensa_cmd_tracestart_do, + target_to_xtensa(curr)); + if (ret != ERROR_OK) + return ret; + } + return ERROR_OK; + } + return CALL_COMMAND_HANDLER(xtensa_cmd_tracestart_do, + target_to_xtensa(target)); +} + +COMMAND_HANDLER(esp_xtensa_smp_cmd_tracestop) +{ + struct target *target = get_current_target(CMD_CTX); + if (target->smp) { + struct target_list *head; + struct target *curr; + foreach_smp_target(head, target->smp_targets) { + curr = head->target; + int ret = CALL_COMMAND_HANDLER(xtensa_cmd_tracestop_do, + target_to_xtensa(curr)); + if (ret != ERROR_OK) + return ret; + } + return ERROR_OK; + } + return CALL_COMMAND_HANDLER(xtensa_cmd_tracestop_do, + target_to_xtensa(target)); +} + +COMMAND_HANDLER(esp_xtensa_smp_cmd_tracedump) +{ + struct target *target = get_current_target(CMD_CTX); + if (target->smp) { + struct target_list *head; + struct target *curr; + int32_t cores_max_id = 0; + /* assume that core IDs are assigned to SMP targets sequentially: 0,1,2... */ + foreach_smp_target(head, target->smp_targets) { + curr = head->target; + if (cores_max_id < curr->coreid) + cores_max_id = curr->coreid; + } + if (CMD_ARGC < ((uint32_t)cores_max_id + 1)) { + command_print(CMD, + "Need %d filenames to dump to as output!", + cores_max_id + 1); + return ERROR_FAIL; + } + foreach_smp_target(head, target->smp_targets) { + curr = head->target; + int ret = CALL_COMMAND_HANDLER(xtensa_cmd_tracedump_do, + target_to_xtensa(curr), CMD_ARGV[curr->coreid]); + if (ret != ERROR_OK) + return ret; + } + return ERROR_OK; + } + return CALL_COMMAND_HANDLER(xtensa_cmd_tracedump_do, + target_to_xtensa(target), CMD_ARGV[0]); +} + +const struct command_registration esp_xtensa_smp_xtensa_command_handlers[] = { + { + .name = "set_permissive", + .handler = esp_xtensa_smp_cmd_permissive_mode, + .mode = COMMAND_ANY, + .help = "When set to 1, enable Xtensa permissive mode (less client-side checks)", + .usage = "[0|1]", + }, + { + .name = "maskisr", + .handler = esp_xtensa_smp_cmd_mask_interrupts, + .mode = COMMAND_ANY, + .help = "mask Xtensa interrupts at step", + .usage = "['on'|'off']", + }, + { + .name = "smpbreak", + .handler = esp_xtensa_smp_cmd_smpbreak, + .mode = COMMAND_ANY, + .help = "Set the way the CPU chains OCD breaks", + .usage = + "[none|breakinout|runstall] | [BreakIn] [BreakOut] [RunStallIn] [DebugModeOut]", + }, + { + .name = "perfmon_enable", + .handler = esp_xtensa_smp_cmd_perfmon_enable, + .mode = COMMAND_EXEC, + .help = "Enable and start performance counter", + .usage = "<counter_id> <select> [mask] [kernelcnt] [tracelevel]", + }, + { + .name = "perfmon_dump", + .handler = esp_xtensa_smp_cmd_perfmon_dump, + .mode = COMMAND_EXEC, + .help = + "Dump performance counter value. If no argument specified, dumps all counters.", + .usage = "[counter_id]", + }, + { + .name = "tracestart", + .handler = esp_xtensa_smp_cmd_tracestart, + .mode = COMMAND_EXEC, + .help = + "Tracing: Set up and start a trace. Optionally set stop trigger address and amount of data captured after.", + .usage = "[pc <pcval>/[maskbitcount]] [after <n> [ins|words]]", + }, + { + .name = "tracestop", + .handler = esp_xtensa_smp_cmd_tracestop, + .mode = COMMAND_EXEC, + .help = "Tracing: Stop current trace as started by the tracestart command", + .usage = "", + }, + { + .name = "tracedump", + .handler = esp_xtensa_smp_cmd_tracedump, + .mode = COMMAND_EXEC, + .help = "Tracing: Dump trace memory to a files. One file per core.", + .usage = "<outfile1> <outfile2>", + }, + COMMAND_REGISTRATION_DONE +}; + +const struct command_registration esp_xtensa_smp_command_handlers[] = { + { + .name = "xtensa", + .usage = "", + .chain = esp_xtensa_smp_xtensa_command_handlers, + }, + COMMAND_REGISTRATION_DONE +}; diff --git a/src/target/espressif/esp_xtensa_smp.h b/src/target/espressif/esp_xtensa_smp.h new file mode 100644 index 0000000..e31bb93 --- /dev/null +++ b/src/target/espressif/esp_xtensa_smp.h @@ -0,0 +1,65 @@ +/*************************************************************************** + * ESP Xtensa SMP target for OpenOCD * + * Copyright (C) 2020 Espressif Systems Ltd. Co * + * * + * This program is free software; you can redistribute it and/or modify * + * it under the terms of the GNU General Public License as published by * + * the Free Software Foundation; either version 2 of the License, or * + * (at your option) any later version. * + * * + * This program is distributed in the hope that it will be useful, * + * but WITHOUT ANY WARRANTY; without even the implied warranty of * + * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * + * GNU General Public License for more details. * + * * + * You should have received a copy of the GNU General Public License * + * along with this program. If not, see <http://www.gnu.org/licenses/>. * + ***************************************************************************/ + +#ifndef OPENOCD_TARGET_XTENSA_ESP_SMP_H +#define OPENOCD_TARGET_XTENSA_ESP_SMP_H + +#include "esp_xtensa.h" + +struct esp_xtensa_smp_chip_ops { + int (*poll)(struct target *target); + int (*reset)(struct target *target); + int (*on_halt)(struct target *target); +}; + +struct esp_xtensa_smp_common { + struct esp_xtensa_common esp_xtensa; + const struct esp_xtensa_smp_chip_ops *chip_ops; + bool other_core_does_resume; + /* number of attempts to examine other SMP cores, attempts are made after reset on target poll */ + int examine_other_cores; +}; + +int esp_xtensa_smp_poll(struct target *target); +int esp_xtensa_smp_resume(struct target *target, + int current, + target_addr_t address, + int handle_breakpoints, + int debug_execution); +int esp_xtensa_smp_step(struct target *target, + int current, + target_addr_t address, + int handle_breakpoints); +int esp_xtensa_smp_assert_reset(struct target *target); +int esp_xtensa_smp_deassert_reset(struct target *target); +int esp_xtensa_smp_soft_reset_halt(struct target *target); +int esp_xtensa_smp_watchpoint_add(struct target *target, struct watchpoint *watchpoint); +int esp_xtensa_smp_watchpoint_remove(struct target *target, struct watchpoint *watchpoint); +int esp_xtensa_smp_handle_target_event(struct target *target, enum target_event event, void *priv); +int esp_xtensa_smp_target_init(struct command_context *cmd_ctx, struct target *target); +int esp_xtensa_smp_init_arch_info(struct target *target, + struct esp_xtensa_smp_common *esp_xtensa_smp, + const struct xtensa_config *xtensa_cfg, + struct xtensa_debug_module_config *dm_cfg, + const struct esp_xtensa_smp_chip_ops *chip_ops); + +extern const struct command_registration esp_xtensa_smp_command_handlers[]; +extern const struct command_registration esp_xtensa_smp_xtensa_command_handlers[]; +extern const struct command_registration esp_xtensa_smp_esp_command_handlers[]; + +#endif /* OPENOCD_TARGET_XTENSA_ESP_SMP_H */ diff --git a/src/target/target.c b/src/target/target.c index e2004e4..ea49b79 100644 --- a/src/target/target.c +++ b/src/target/target.c @@ -105,6 +105,7 @@ extern struct target_type hla_target; extern struct target_type nds32_v2_target; extern struct target_type nds32_v3_target; extern struct target_type nds32_v3m_target; +extern struct target_type esp32_target; extern struct target_type esp32s2_target; extern struct target_type or1k_target; extern struct target_type quark_x10xx_target; @@ -142,6 +143,7 @@ static struct target_type *target_types[] = { &nds32_v2_target, &nds32_v3_target, &nds32_v3m_target, + &esp32_target, &esp32s2_target, &or1k_target, &quark_x10xx_target, @@ -3336,7 +3338,7 @@ COMMAND_HANDLER(handle_soft_reset_halt_command) { struct target *target = get_current_target(CMD_CTX); - LOG_USER("requesting target halt and executing a soft reset"); + LOG_TARGET_INFO(target, "requesting target halt and executing a soft reset"); target_soft_reset_halt(target); diff --git a/src/target/xtensa/xtensa.h b/src/target/xtensa/xtensa.h index d8b15e1..d1ca0b4 100644 --- a/src/target/xtensa/xtensa.h +++ b/src/target/xtensa/xtensa.h @@ -302,6 +302,16 @@ int xtensa_fetch_user_regs_u32(struct target *target); int xtensa_queue_write_dirty_user_regs_u32(struct target *target); const char *xtensa_get_gdb_arch(struct target *target); + +COMMAND_HELPER(xtensa_cmd_permissive_mode_do, struct xtensa *xtensa); +COMMAND_HELPER(xtensa_cmd_mask_interrupts_do, struct xtensa *xtensa); +COMMAND_HELPER(xtensa_cmd_smpbreak_do, struct target *target); +COMMAND_HELPER(xtensa_cmd_perfmon_dump_do, struct xtensa *xtensa); +COMMAND_HELPER(xtensa_cmd_perfmon_enable_do, struct xtensa *xtensa); +COMMAND_HELPER(xtensa_cmd_tracestart_do, struct xtensa *xtensa); +COMMAND_HELPER(xtensa_cmd_tracestop_do, struct xtensa *xtensa); +COMMAND_HELPER(xtensa_cmd_tracedump_do, struct xtensa *xtensa, const char *fname); + extern const struct reg_arch_type xtensa_user_reg_u32_type; extern const struct reg_arch_type xtensa_user_reg_u128_type; extern const struct command_registration xtensa_command_handlers[]; diff --git a/tcl/board/esp32-ethernet-kit-3.3v.cfg b/tcl/board/esp32-ethernet-kit-3.3v.cfg new file mode 100644 index 0000000..3bfe84b --- /dev/null +++ b/tcl/board/esp32-ethernet-kit-3.3v.cfg @@ -0,0 +1,22 @@ +# SPDX-License-Identifier: GPL-2.0-or-later +# +# Example OpenOCD configuration file for ESP32-ETHERNET-KIT board. +# +# For example, OpenOCD can be started for ESP32 debugging on +# +# openocd -f board/esp32-ethernet-kit-3.3v.cfg +# + +# Source the JTAG interface configuration file +source [find interface/ftdi/esp32_devkitj_v1.cfg] +set ESP32_FLASH_VOLTAGE 3.3 +# Source the ESP32 configuration file +source [find target/esp32.cfg] + +# The speed of the JTAG interface, in kHz. If you get DSR/DIR errors (and they +# do not relate to OpenOCD trying to read from a memory range without physical +# memory being present there), you can try lowering this. +# +# On DevKit-J, this can go as high as 20MHz if CPU frequency is 80MHz, or 26MHz +# if CPU frequency is 160MHz or 240MHz. +adapter speed 20000 diff --git a/tcl/board/esp32-wrover-kit-1.8v.cfg b/tcl/board/esp32-wrover-kit-1.8v.cfg new file mode 100644 index 0000000..9aa3954 --- /dev/null +++ b/tcl/board/esp32-wrover-kit-1.8v.cfg @@ -0,0 +1,22 @@ +# SPDX-License-Identifier: GPL-2.0-or-later +# +# Example OpenOCD configuration file for ESP32-WROVER-KIT board. +# +# For example, OpenOCD can be started for ESP32 debugging on +# +# openocd -f board/esp32-wrover-kit-1.8v.cfg +# + +# Source the JTAG interface configuration file +source [find interface/ftdi/esp32_devkitj_v1.cfg] +set ESP32_FLASH_VOLTAGE 1.8 +# Source the ESP32 configuration file +source [find target/esp32.cfg] + +# The speed of the JTAG interface, in kHz. If you get DSR/DIR errors (and they +# do not relate to OpenOCD trying to read from a memory range without physical +# memory being present there), you can try lowering this. +# +# On DevKit-J, this can go as high as 20MHz if CPU frequency is 80MHz, or 26MHz +# if CPU frequency is 160MHz or 240MHz. +adapter speed 20000 diff --git a/tcl/board/esp32-wrover-kit-3.3v.cfg b/tcl/board/esp32-wrover-kit-3.3v.cfg new file mode 100644 index 0000000..ce62436 --- /dev/null +++ b/tcl/board/esp32-wrover-kit-3.3v.cfg @@ -0,0 +1,22 @@ +# SPDX-License-Identifier: GPL-2.0-or-later +# +# Example OpenOCD configuration file for ESP32-WROVER-KIT board. +# +# For example, OpenOCD can be started for ESP32 debugging on +# +# openocd -f board/esp32-wrover-kit-3.3v.cfg +# + +# Source the JTAG interface configuration file +source [find interface/ftdi/esp32_devkitj_v1.cfg] +set ESP32_FLASH_VOLTAGE 3.3 +# Source the ESP32 configuration file +source [find target/esp32.cfg] + +# The speed of the JTAG interface, in kHz. If you get DSR/DIR errors (and they +# do not relate to OpenOCD trying to read from a memory range without physical +# memory being present there), you can try lowering this. +# +# On DevKit-J, this can go as high as 20MHz if CPU frequency is 80MHz, or 26MHz +# if CPU frequency is 160MHz or 240MHz. +adapter speed 20000 diff --git a/tcl/interface/ftdi/esp32_devkitj_v1.cfg b/tcl/interface/ftdi/esp32_devkitj_v1.cfg new file mode 100644 index 0000000..c34a500 --- /dev/null +++ b/tcl/interface/ftdi/esp32_devkitj_v1.cfg @@ -0,0 +1,25 @@ +# SPDX-License-Identifier: GPL-2.0-or-later +# +# Driver for the FT2232H JTAG chip on the Espressif DevkitJ board +# (and most other FT2232H and FT232H based boards) +# + +adapter driver ftdi +ftdi vid_pid 0x0403 0x6010 0x0403 0x6014 + +# interface 1 is the uart +ftdi channel 0 + +# TCK, TDI, TDO, TMS: ADBUS0-3 +# LEDs: ACBUS4-7 + +ftdi layout_init 0x0008 0xf00b +ftdi layout_signal LED -data 0x1000 +ftdi layout_signal LED2 -data 0x2000 +ftdi layout_signal LED3 -data 0x4000 +ftdi layout_signal LED4 -data 0x8000 + +# ESP32 series chips do not have a TRST input, and the SRST line is connected to the EN pin. +# The target code doesn't handle SRST reset properly yet, so this is commented out: +# ftdi_layout_signal nSRST -oe 0x0020 +# reset_config srst_only diff --git a/tcl/target/esp32.cfg b/tcl/target/esp32.cfg new file mode 100644 index 0000000..f5ca78a --- /dev/null +++ b/tcl/target/esp32.cfg @@ -0,0 +1,70 @@ +# SPDX-License-Identifier: GPL-2.0-or-later +# +# The ESP32 only supports JTAG. +transport select jtag + +if { [info exists CHIPNAME] } { + set _CHIPNAME $CHIPNAME +} else { + set _CHIPNAME esp32 +} + +if { [info exists CPUTAPID] } { + set _CPUTAPID $CPUTAPID +} else { + set _CPUTAPID 0x120034e5 +} + +if { [info exists ESP32_ONLYCPU] } { + set _ONLYCPU $ESP32_ONLYCPU +} else { + set _ONLYCPU 2 +} + +if { [info exists ESP32_FLASH_VOLTAGE] } { + set _FLASH_VOLTAGE $ESP32_FLASH_VOLTAGE +} else { + set _FLASH_VOLTAGE 3.3 +} + +set _CPU0NAME cpu0 +set _CPU1NAME cpu1 +set _TARGETNAME_0 $_CHIPNAME.$_CPU0NAME +set _TARGETNAME_1 $_CHIPNAME.$_CPU1NAME + +jtag newtap $_CHIPNAME $_CPU0NAME -irlen 5 -expected-id $_CPUTAPID +if { $_ONLYCPU != 1 } { + jtag newtap $_CHIPNAME $_CPU1NAME -irlen 5 -expected-id $_CPUTAPID +} else { + jtag newtap $_CHIPNAME $_CPU1NAME -irlen 5 -disable -expected-id $_CPUTAPID +} + +# PRO-CPU +target create $_TARGETNAME_0 $_CHIPNAME -endian little -chain-position $_TARGETNAME_0 -coreid 0 +# APP-CPU +if { $_ONLYCPU != 1 } { + target create $_TARGETNAME_1 $_CHIPNAME -endian little -chain-position $_TARGETNAME_1 -coreid 1 + target smp $_TARGETNAME_0 $_TARGETNAME_1 +} + +$_TARGETNAME_0 esp32 flashbootstrap $_FLASH_VOLTAGE +$_TARGETNAME_0 xtensa maskisr on +$_TARGETNAME_0 xtensa smpbreak BreakIn BreakOut +$_TARGETNAME_0 configure -event reset-assert-post { soft_reset_halt } + +$_TARGETNAME_0 configure -event gdb-attach { + $_TARGETNAME_0 xtensa smpbreak BreakIn BreakOut + # necessary to auto-probe flash bank when GDB is connected + halt 1000 +} + +if { $_ONLYCPU != 1 } { + $_TARGETNAME_1 configure -event gdb-attach { + $_TARGETNAME_1 xtensa smpbreak BreakIn BreakOut + # necessary to auto-probe flash bank when GDB is connected + halt 1000 + } + $_TARGETNAME_1 configure -event reset-assert-post { soft_reset_halt } +} + +gdb_breakpoint_override hard |