diff --git a/src/target/riscv/riscv-013.c b/src/target/riscv/riscv-013.c index f2c467618..15b5467d3 100644 --- a/src/target/riscv/riscv-013.c +++ b/src/target/riscv/riscv-013.c @@ -2168,8 +2168,8 @@ static unsigned riscv013_data_bits(struct target *target) RISCV013_INFO(info); RISCV_INFO(r); - for (unsigned int i = 0; i < RISCV_NUM_MEM_ACCESS_METHODS; i++) { - int method = r->mem_access_methods[i]; + for (unsigned int i = 0; i < r->num_enabled_mem_access_methods; i++) { + riscv_mem_access_method_t method = r->mem_access_methods[i]; if (method == RISCV_MEM_ACCESS_PROGBUF) { if (has_sufficient_progbuf(target, 3)) @@ -2190,9 +2190,9 @@ static unsigned riscv013_data_bits(struct target *target) * take those into account as well. For now we assume abstract commands * support XLEN-wide accesses. */ return riscv_xlen(target); - } else if (method == RISCV_MEM_ACCESS_UNSPECIFIED) - /* No further mem access method to try. */ - break; + } else { + assert(false); + } } LOG_TARGET_ERROR(target, "Unable to determine supported data bits on this target. Assuming 32 bits."); return 32; @@ -3389,7 +3389,7 @@ static int read_memory_bus_v1(struct target *target, target_addr_t address, return ERROR_OK; } -static void log_mem_access_result(struct target *target, bool success, int method, bool is_read) +static void log_mem_access_result(struct target *target, bool success, riscv_mem_access_method_t method, bool is_read) { RISCV_INFO(r); bool warn = false; @@ -3404,18 +3404,8 @@ static void log_mem_access_result(struct target *target, bool success, int metho /* Determine the log message severity. Show warnings only once. */ if (!success) { - if (method == RISCV_MEM_ACCESS_PROGBUF) { - warn = r->mem_access_progbuf_warn; - r->mem_access_progbuf_warn = false; - } - if (method == RISCV_MEM_ACCESS_SYSBUS) { - warn = r->mem_access_sysbus_warn; - r->mem_access_sysbus_warn = false; - } - if (method == RISCV_MEM_ACCESS_ABSTRACT) { - warn = r->mem_access_abstract_warn; - r->mem_access_abstract_warn = false; - } + warn = r->mem_access_warn[method]; + r->mem_access_warn[method] = false; } if (warn) @@ -3424,101 +3414,180 @@ static void log_mem_access_result(struct target *target, bool success, int metho LOG_TARGET_DEBUG(target, "%s", msg); } -static bool mem_should_skip_progbuf(struct target *target, target_addr_t address, - uint32_t size, bool is_read, char **skip_reason) +typedef enum { + MEM_ACCESS_RESULT_TYPE_OK, + MEM_ACCESS_RESULT_TYPE_DISABLED, + MEM_ACCESS_RESULT_TYPE_SKIPPED, + MEM_ACCESS_RESULT_TYPE_FAILED +} mem_access_result_type_t; + +#define LIST_OF_MEM_ACCESS_RESULTS \ + MEM_ACCESS_RESULT_HANDLER(MEM_ACCESS_OK, \ + MEM_ACCESS_RESULT_TYPE_OK, "ok") \ + MEM_ACCESS_RESULT_HANDLER(MEM_ACCESS_DISABLED, \ + MEM_ACCESS_RESULT_TYPE_DISABLED, "disabled") \ + MEM_ACCESS_RESULT_HANDLER(MEM_ACCESS_SKIPPED_ABSTRACT_ACCESS_CMDERR, \ + MEM_ACCESS_RESULT_TYPE_SKIPPED, "skipped (abstract access cmderr)") \ + MEM_ACCESS_RESULT_HANDLER(MEM_ACCESS_SKIPPED_PROGBUF_NOT_PRESENT, \ + MEM_ACCESS_RESULT_TYPE_SKIPPED, "skipped (progbuf not present)") \ + MEM_ACCESS_RESULT_HANDLER(MEM_ACCESS_SKIPPED_PROGBUF_INSUFFICIENT, \ + MEM_ACCESS_RESULT_TYPE_SKIPPED, "skipped (insufficient progbuf)") \ + MEM_ACCESS_RESULT_HANDLER(MEM_ACCESS_SKIPPED_UNSUPPORTED_ACCESS_SIZE, \ + MEM_ACCESS_RESULT_TYPE_SKIPPED, "skipped (unsupported access size)") \ + MEM_ACCESS_RESULT_HANDLER(MEM_ACCESS_SKIPPED_XLEN_TOO_SHORT, \ + MEM_ACCESS_RESULT_TYPE_SKIPPED, "skipped (xlen too short)") \ + MEM_ACCESS_RESULT_HANDLER(MEM_ACCESS_SKIPPED_TARGET_NOT_HALTED, \ + MEM_ACCESS_RESULT_TYPE_SKIPPED, "skipped (target not halted)") \ + MEM_ACCESS_RESULT_HANDLER(MEM_ACCESS_SKIPPED_TOO_LARGE_ADDRESS, \ + MEM_ACCESS_RESULT_TYPE_SKIPPED, "skipped (address too large)") \ + MEM_ACCESS_RESULT_HANDLER(MEM_ACCESS_SKIPPED_UNSUPPORTED_INCREMENT_SIZE, \ + MEM_ACCESS_RESULT_TYPE_SKIPPED, "skipped (increment size not supported)") \ + MEM_ACCESS_RESULT_HANDLER(MEM_ACCESS_SKIPPED_TARGET_SELECT_FAILED, \ + MEM_ACCESS_RESULT_TYPE_SKIPPED, "skipped (dm target select failed)") \ + MEM_ACCESS_RESULT_HANDLER(MEM_ACCESS_SKIPPED_FENCE_EXEC_FAILED, \ + MEM_ACCESS_RESULT_TYPE_SKIPPED, "skipped (fence execution failed)") \ + MEM_ACCESS_RESULT_HANDLER(MEM_ACCESS_FAILED, \ + MEM_ACCESS_RESULT_TYPE_FAILED, "failed") \ + MEM_ACCESS_RESULT_HANDLER(MEM_ACCESS_FAILED_DM_ACCESS_FAILED, \ + MEM_ACCESS_RESULT_TYPE_FAILED, "failed (DM register access failed)") \ + MEM_ACCESS_RESULT_HANDLER(MEM_ACCESS_FAILED_PRIV_MOD_FAILED, \ + MEM_ACCESS_RESULT_TYPE_FAILED, "failed (privilege modification failed)") \ + + +#define MEM_ACCESS_RESULT_HANDLER(name, kind, msg) name, +typedef enum { + LIST_OF_MEM_ACCESS_RESULTS +} mem_access_result_t; +#undef MEM_ACCESS_RESULT_HANDLER + +bool is_mem_access_failed(mem_access_result_t status) { - assert(skip_reason); + #define MEM_ACCESS_RESULT_HANDLER(name, kind, msg) \ + case name: return kind == MEM_ACCESS_RESULT_TYPE_FAILED; + switch (status) { + LIST_OF_MEM_ACCESS_RESULTS + } + #undef MEM_ACCESS_RESULT_HANDLER + LOG_ERROR("Unknown memory access status: %d", status); + assert(false); + return false; +} +bool is_mem_access_skipped(mem_access_result_t status) +{ + #define MEM_ACCESS_RESULT_HANDLER(name, kind, msg) \ + case name: return kind == MEM_ACCESS_RESULT_TYPE_SKIPPED; + switch (status) { + LIST_OF_MEM_ACCESS_RESULTS + } + #undef MEM_ACCESS_RESULT_HANDLER + LOG_ERROR("Unknown memory access status: %d", status); + assert(false); + return false; +} + +const char *mem_access_result_to_str(mem_access_result_t status) +{ + #define MEM_ACCESS_RESULT_HANDLER(name, kind, msg) \ + [name] = msg, + static const char * const table[] = { + LIST_OF_MEM_ACCESS_RESULTS + }; + #undef MEM_ACCESS_RESULT_HANDLER + + assert(status < ARRAY_SIZE(table)); + return table[status]; +} + +static mem_access_result_t mem_should_skip_progbuf(struct target *target, + target_addr_t address, uint32_t size, bool is_read) +{ + if (!has_sufficient_progbuf(target, 1)) { + LOG_TARGET_DEBUG(target, "Skipping mem %s via progbuf " + "- progbuf not present", is_read ? "read" : "write"); + return MEM_ACCESS_SKIPPED_PROGBUF_NOT_PRESENT; + } if (!has_sufficient_progbuf(target, 3)) { LOG_TARGET_DEBUG(target, "Skipping mem %s via progbuf - insufficient progbuf size.", is_read ? "read" : "write"); - *skip_reason = "skipped (insufficient progbuf)"; - return true; + return MEM_ACCESS_SKIPPED_PROGBUF_INSUFFICIENT; } if (target->state != TARGET_HALTED) { - LOG_TARGET_DEBUG(target, "Skipping mem %s via progbuf - target not halted.", - is_read ? "read" : "write"); - *skip_reason = "skipped (target not halted)"; - return true; + LOG_TARGET_DEBUG(target, + "Skipping mem %s via progbuf - target not halted.", + is_read ? "read" : "write"); + return MEM_ACCESS_SKIPPED_TARGET_NOT_HALTED; } if (riscv_xlen(target) < size * 8) { - LOG_TARGET_DEBUG(target, "Skipping mem %s via progbuf - XLEN (%d) is too short for %d-bit memory access.", - is_read ? "read" : "write", riscv_xlen(target), size * 8); - *skip_reason = "skipped (XLEN too short)"; - return true; + LOG_TARGET_DEBUG(target, + "Skipping mem %s via progbuf - " + "XLEN (%d) is too short for %d-bit memory access.", + is_read ? "read" : "write", riscv_xlen(target), size * 8); + return MEM_ACCESS_SKIPPED_XLEN_TOO_SHORT; } if (size > 8) { - LOG_TARGET_DEBUG(target, "Skipping mem %s via progbuf - unsupported size.", - is_read ? "read" : "write"); - *skip_reason = "skipped (unsupported size)"; - return true; + LOG_TARGET_DEBUG(target, + "Skipping mem %s via progbuf - unsupported size.", + is_read ? "read" : "write"); + return MEM_ACCESS_SKIPPED_UNSUPPORTED_ACCESS_SIZE; } if ((sizeof(address) * 8 > riscv_xlen(target)) && (address >> riscv_xlen(target))) { - LOG_TARGET_DEBUG(target, "Skipping mem %s via progbuf - progbuf only supports %u-bit address.", - is_read ? "read" : "write", riscv_xlen(target)); - *skip_reason = "skipped (too large address)"; - return true; + LOG_TARGET_DEBUG(target, + "Skipping mem %s via progbuf - progbuf only supports %u-bit address.", + is_read ? "read" : "write", riscv_xlen(target)); + return MEM_ACCESS_SKIPPED_TOO_LARGE_ADDRESS; } - return false; + return MEM_ACCESS_OK; } -static bool mem_should_skip_sysbus(struct target *target, target_addr_t address, - uint32_t size, uint32_t increment, bool is_read, char **skip_reason) +static mem_access_result_t +mem_should_skip_sysbus(struct target *target, target_addr_t address, + uint32_t size, uint32_t increment, bool is_read) { - assert(skip_reason); - RISCV013_INFO(info); if (!sba_supports_access(target, size)) { LOG_TARGET_DEBUG(target, "Skipping mem %s via system bus - unsupported size.", is_read ? "read" : "write"); - *skip_reason = "skipped (unsupported size)"; - return true; + return MEM_ACCESS_SKIPPED_UNSUPPORTED_ACCESS_SIZE; } unsigned int sbasize = get_field(info->sbcs, DM_SBCS_SBASIZE); if ((sizeof(address) * 8 > sbasize) && (address >> sbasize)) { LOG_TARGET_DEBUG(target, "Skipping mem %s via system bus - sba only supports %u-bit address.", is_read ? "read" : "write", sbasize); - *skip_reason = "skipped (too large address)"; - return true; + return MEM_ACCESS_SKIPPED_TOO_LARGE_ADDRESS; } if (is_read && increment != size && (get_field(info->sbcs, DM_SBCS_SBVERSION) == 0 || increment != 0)) { LOG_TARGET_DEBUG(target, "Skipping mem read via system bus - " "sba reads only support size==increment or also size==0 for sba v1."); - *skip_reason = "skipped (unsupported increment)"; - return true; + return MEM_ACCESS_SKIPPED_UNSUPPORTED_INCREMENT_SIZE; } - return false; + return MEM_ACCESS_OK; } -static bool mem_should_skip_abstract(struct target *target, target_addr_t address, - uint32_t size, uint32_t increment, bool is_read, char **skip_reason) +static mem_access_result_t +mem_should_skip_abstract(struct target *target, target_addr_t address, + uint32_t size, uint32_t increment, bool is_read) { - assert(skip_reason); - if (size > 8) { /* TODO: Add 128b support if it's ever used. Involves modifying read/write_abstract_arg() to work on two 64b values. */ LOG_TARGET_DEBUG(target, "Skipping mem %s via abstract access - unsupported size: %d bits", is_read ? "read" : "write", size * 8); - *skip_reason = "skipped (unsupported size)"; - return true; + return MEM_ACCESS_SKIPPED_UNSUPPORTED_ACCESS_SIZE; } if ((sizeof(address) * 8 > riscv_xlen(target)) && (address >> riscv_xlen(target))) { LOG_TARGET_DEBUG(target, "Skipping mem %s via abstract access - abstract access only supports %u-bit address.", is_read ? "read" : "write", riscv_xlen(target)); - *skip_reason = "skipped (too large address)"; - return true; + return MEM_ACCESS_SKIPPED_TOO_LARGE_ADDRESS; } if (is_read && size != increment) { LOG_TARGET_ERROR(target, "Skipping mem read via abstract access - " "abstract command reads only support size==increment."); - *skip_reason = "skipped (unsupported increment)"; - return true; + return MEM_ACCESS_SKIPPED_UNSUPPORTED_INCREMENT_SIZE; } - - return false; + return MEM_ACCESS_OK; } /* @@ -3526,12 +3595,16 @@ static bool mem_should_skip_abstract(struct target *target, target_addr_t addres * supported are 1, 2, and 4 bytes despite the spec's support of 8 and 16 byte * aamsize fields in the memory access abstract command. */ -static int read_memory_abstract(struct target *target, target_addr_t address, - uint32_t size, uint32_t count, uint8_t *buffer, uint32_t increment) +static mem_access_result_t +read_memory_abstract(struct target *target, target_addr_t address, + uint32_t size, uint32_t count, uint8_t *buffer, uint32_t increment) { - RISCV013_INFO(info); + mem_access_result_t skip_reason = + mem_should_skip_abstract(target, address, size, increment, /* is_read = */ true); + if (skip_reason != MEM_ACCESS_OK) + return skip_reason; - int result = ERROR_OK; + RISCV013_INFO(info); bool use_aampostincrement = info->has_aampostincrement != YNM_NO; LOG_TARGET_DEBUG(target, "Reading %d words of %d bytes from 0x%" TARGET_PRIxADDR, count, @@ -3547,6 +3620,7 @@ static int read_memory_abstract(struct target *target, target_addr_t address, /* Execute the reads */ uint8_t *p = buffer; + int result = ERROR_OK; bool updateaddr = true; unsigned int width32 = (width < 32) ? 32 : width; for (uint32_t c = 0; c < count; c++) { @@ -3556,7 +3630,7 @@ static int read_memory_abstract(struct target *target, target_addr_t address, result = write_abstract_arg(target, 1, address + c * size, riscv_xlen(target)); if (result != ERROR_OK) { LOG_TARGET_ERROR(target, "Failed to write arg1."); - return result; + return MEM_ACCESS_FAILED_DM_ACCESS_FAILED; } } @@ -3572,7 +3646,7 @@ static int read_memory_abstract(struct target *target, target_addr_t address, riscv_reg_t new_address; result = read_abstract_arg(target, &new_address, 1, riscv_xlen(target)); if (result != ERROR_OK) - return result; + return MEM_ACCESS_FAILED_DM_ACCESS_FAILED; if (new_address == address + size) { LOG_TARGET_DEBUG(target, "aampostincrement is supported on this target."); @@ -3592,14 +3666,17 @@ static int read_memory_abstract(struct target *target, target_addr_t address, } } + /* TODO: + * (1) Only the 1st access can result in a 'skip' + * (2) Analyze cmderr value */ if (result != ERROR_OK) - return result; + return MEM_ACCESS_SKIPPED_ABSTRACT_ACCESS_CMDERR; /* Copy arg0 to buffer (rounded width up to nearest 32) */ riscv_reg_t value; result = read_abstract_arg(target, &value, 0, width32); if (result != ERROR_OK) - return result; + return MEM_ACCESS_FAILED_DM_ACCESS_FAILED; buf_set_u64(p, 0, 8 * size, value); if (info->has_aampostincrement == YNM_YES) @@ -3607,7 +3684,7 @@ static int read_memory_abstract(struct target *target, target_addr_t address, p += size; } - return result; + return MEM_ACCESS_OK; } /* @@ -3615,9 +3692,16 @@ static int read_memory_abstract(struct target *target, target_addr_t address, * sizes supported are 1, 2, and 4 bytes despite the spec's support of 8 and 16 * byte aamsize fields in the memory access abstract command. */ -static int write_memory_abstract(struct target *target, target_addr_t address, - uint32_t size, uint32_t count, const uint8_t *buffer) +static mem_access_result_t +write_memory_abstract(struct target *target, target_addr_t address, + uint32_t size, uint32_t count, const uint8_t *buffer) { + mem_access_result_t skip_reason = + mem_should_skip_abstract(target, address, size, + /* increment = */ 0, /* is_read = */ false); + if (skip_reason != MEM_ACCESS_OK) + return skip_reason; + RISCV013_INFO(info); int result = ERROR_OK; bool use_aampostincrement = info->has_aampostincrement != YNM_NO; @@ -3640,7 +3724,7 @@ static int write_memory_abstract(struct target *target, target_addr_t address, result = write_abstract_arg(target, 0, value, riscv_xlen(target)); if (result != ERROR_OK) { LOG_TARGET_ERROR(target, "Failed to write arg0."); - return result; + return MEM_ACCESS_FAILED_DM_ACCESS_FAILED; } /* Update the address if it is the first time or aampostincrement is not supported by the target. */ @@ -3649,7 +3733,7 @@ static int write_memory_abstract(struct target *target, target_addr_t address, result = write_abstract_arg(target, 1, address + c * size, riscv_xlen(target)); if (result != ERROR_OK) { LOG_TARGET_ERROR(target, "Failed to write arg1."); - return result; + return MEM_ACCESS_FAILED_DM_ACCESS_FAILED; } } @@ -3665,7 +3749,7 @@ static int write_memory_abstract(struct target *target, target_addr_t address, riscv_reg_t new_address; result = read_abstract_arg(target, &new_address, 1, riscv_xlen(target)); if (result != ERROR_OK) - return result; + return MEM_ACCESS_FAILED_DM_ACCESS_FAILED; if (new_address == address + size) { LOG_TARGET_DEBUG(target, "aampostincrement is supported on this target."); @@ -3685,15 +3769,18 @@ static int write_memory_abstract(struct target *target, target_addr_t address, } } + /* TODO: + * (1) Only the 1st access can result in a 'skip' + * (2) Analyze cmderr value */ if (result != ERROR_OK) - return result; + return MEM_ACCESS_SKIPPED_ABSTRACT_ACCESS_CMDERR; if (info->has_aampostincrement == YNM_YES) updateaddr = false; p += size; } - return result; + return MEM_ACCESS_OK; } /** @@ -4223,32 +4310,32 @@ static int read_memory_progbuf_inner_one(struct target *target, /** * Read the requested memory, silently handling memory access errors. */ -static int read_memory_progbuf(struct target *target, target_addr_t address, - uint32_t size, uint32_t count, uint8_t *buffer, uint32_t increment) +static mem_access_result_t +read_memory_progbuf(struct target *target, target_addr_t address, + uint32_t size, uint32_t count, uint8_t *buffer, uint32_t increment) { - if (riscv_xlen(target) < size * 8) { - LOG_TARGET_ERROR(target, "XLEN (%d) is too short for %" - PRIu32 "-bit memory read.", riscv_xlen(target), size * 8); - return ERROR_FAIL; - } + mem_access_result_t skip_reason = + mem_should_skip_progbuf(target, address, size, /* is_read = */ true); + if (skip_reason != MEM_ACCESS_OK) + return skip_reason; LOG_TARGET_DEBUG(target, "reading %" PRIu32 " elements of %" PRIu32 " bytes from 0x%" TARGET_PRIxADDR, count, size, address); if (dm013_select_target(target) != ERROR_OK) - return ERROR_FAIL; + return MEM_ACCESS_SKIPPED_TARGET_SELECT_FAILED; select_dmi(target); memset(buffer, 0, count*size); if (execute_fence(target) != ERROR_OK) - return ERROR_FAIL; + return MEM_ACCESS_SKIPPED_FENCE_EXEC_FAILED; uint64_t mstatus = 0; uint64_t mstatus_old = 0; if (modify_privilege(target, &mstatus, &mstatus_old) != ERROR_OK) - return ERROR_FAIL; + return MEM_ACCESS_FAILED_PRIV_MOD_FAILED; const bool mprven = riscv_enable_virtual && get_field(mstatus, MSTATUS_MPRV); const struct memory_access_info access = { @@ -4263,9 +4350,32 @@ static int read_memory_progbuf(struct target *target, target_addr_t address, if (mstatus != mstatus_old && register_write_direct(target, GDB_REGNO_MSTATUS, mstatus_old) != ERROR_OK) - return ERROR_FAIL; + return MEM_ACCESS_FAILED; - return result; + return (result == ERROR_OK) ? MEM_ACCESS_OK : MEM_ACCESS_FAILED; +} + +static mem_access_result_t +read_memory_sysbus(struct target *target, target_addr_t address, + uint32_t size, uint32_t count, uint8_t *buffer, uint32_t increment) +{ + mem_access_result_t skip_reason = + mem_should_skip_sysbus(target, address, size, increment, /* is_read = */ true); + if (skip_reason != MEM_ACCESS_OK) + return skip_reason; + + int ret = ERROR_FAIL; + uint64_t sbver = get_field(get_info(target)->sbcs, DM_SBCS_SBVERSION); + if (sbver == 0) { + ret = read_memory_bus_v0(target, address, size, count, buffer, increment); + } else if (sbver == 1) { + ret = read_memory_bus_v1(target, address, size, count, buffer, increment); + } else { + LOG_TARGET_ERROR(target, + "Unknown system bus version: %" PRIu64, sbver); + } + + return (ret == ERROR_OK) ? MEM_ACCESS_OK : MEM_ACCESS_FAILED; } static int read_memory(struct target *target, target_addr_t address, @@ -4274,62 +4384,58 @@ static int read_memory(struct target *target, target_addr_t address, if (count == 0) return ERROR_OK; - if (size != 1 && size != 2 && size != 4 && size != 8 && size != 16) { + if (!IS_PWR_OF_2(size) || size < 1 || size > 16) { LOG_TARGET_ERROR(target, "BUG: Unsupported size for memory read: %d", size); return ERROR_FAIL; } - int ret = ERROR_FAIL; - RISCV_INFO(r); - RISCV013_INFO(info); - - char *progbuf_result = "disabled"; - char *sysbus_result = "disabled"; - char *abstract_result = "disabled"; - - for (unsigned int i = 0; i < RISCV_NUM_MEM_ACCESS_METHODS; i++) { - int method = r->mem_access_methods[i]; - - if (method == RISCV_MEM_ACCESS_PROGBUF) { - if (mem_should_skip_progbuf(target, address, size, true, &progbuf_result)) - continue; - - ret = read_memory_progbuf(target, address, size, count, buffer, increment); - - if (ret != ERROR_OK) - progbuf_result = "failed"; - } else if (method == RISCV_MEM_ACCESS_SYSBUS) { - if (mem_should_skip_sysbus(target, address, size, increment, true, &sysbus_result)) - continue; - - if (get_field(info->sbcs, DM_SBCS_SBVERSION) == 0) - ret = read_memory_bus_v0(target, address, size, count, buffer, increment); - else if (get_field(info->sbcs, DM_SBCS_SBVERSION) == 1) - ret = read_memory_bus_v1(target, address, size, count, buffer, increment); - - if (ret != ERROR_OK) - sysbus_result = "failed"; - } else if (method == RISCV_MEM_ACCESS_ABSTRACT) { - if (mem_should_skip_abstract(target, address, size, increment, true, &abstract_result)) - continue; - - ret = read_memory_abstract(target, address, size, count, buffer, increment); + mem_access_result_t skip_reason[] = { + [RISCV_MEM_ACCESS_PROGBUF] = MEM_ACCESS_DISABLED, + [RISCV_MEM_ACCESS_SYSBUS] = MEM_ACCESS_DISABLED, + [RISCV_MEM_ACCESS_ABSTRACT] = MEM_ACCESS_DISABLED, + }; - if (ret != ERROR_OK) - abstract_result = "failed"; - } else if (method == RISCV_MEM_ACCESS_UNSPECIFIED) - /* No further mem access method to try. */ - break; + RISCV_INFO(r); + for (unsigned int i = 0; i < r->num_enabled_mem_access_methods; ++i) { + riscv_mem_access_method_t method = r->mem_access_methods[i]; + switch (method) { + case RISCV_MEM_ACCESS_PROGBUF: + skip_reason[method] = + read_memory_progbuf(target, address, + size, count, buffer, increment); + break; + case RISCV_MEM_ACCESS_SYSBUS: + skip_reason[method] = + read_memory_sysbus(target, address, + size, count, buffer, increment); + break; + case RISCV_MEM_ACCESS_ABSTRACT: + skip_reason[method] = + read_memory_abstract(target, address, + size, count, buffer, increment); + break; + default: + LOG_TARGET_ERROR(target, "Unknown memory access method: %d", method); + assert(false); + return ERROR_FAIL; + } - log_mem_access_result(target, ret == ERROR_OK, method, true); + if (is_mem_access_failed(skip_reason[method])) + goto failure; - if (ret == ERROR_OK) - return ret; + const bool success = (skip_reason[method] == MEM_ACCESS_OK); + log_mem_access_result(target, success, method, /* is_read = */ true); + if (success) + return ERROR_OK; } - LOG_TARGET_ERROR(target, "Failed to read memory (addr=0x%" PRIx64 ")", address); - LOG_TARGET_ERROR(target, " progbuf=%s, sysbus=%s, abstract=%s", progbuf_result, sysbus_result, abstract_result); - return ret; +failure: + LOG_TARGET_ERROR(target, "Failed to read memory (addr=0x%" PRIx64 ")\n" + " progbuf=%s, sysbus=%s, abstract=%s", address, + mem_access_result_to_str(skip_reason[RISCV_MEM_ACCESS_PROGBUF]), + mem_access_result_to_str(skip_reason[RISCV_MEM_ACCESS_SYSBUS]), + mem_access_result_to_str(skip_reason[RISCV_MEM_ACCESS_ABSTRACT])); + return ERROR_FAIL; } static int write_memory_bus_v0(struct target *target, target_addr_t address, @@ -4783,25 +4889,25 @@ static int write_memory_progbuf_inner(struct target *target, target_addr_t start return write_memory_progbuf_teardown(target); } -static int write_memory_progbuf(struct target *target, target_addr_t address, +static mem_access_result_t +write_memory_progbuf(struct target *target, target_addr_t address, uint32_t size, uint32_t count, const uint8_t *buffer) { - if (riscv_xlen(target) < size * 8) { - LOG_TARGET_ERROR(target, "XLEN (%u) is too short for %" PRIu32 "-bit memory write.", - riscv_xlen(target), size * 8); - return ERROR_FAIL; - } + mem_access_result_t skip_reason = + mem_should_skip_progbuf(target, address, size, /* is_read = */ false); + if (skip_reason != MEM_ACCESS_OK) + return skip_reason; LOG_TARGET_DEBUG(target, "writing %" PRIu32 " words of %" PRIu32 " bytes to 0x%" TARGET_PRIxADDR, count, size, address); if (dm013_select_target(target) != ERROR_OK) - return ERROR_FAIL; + return MEM_ACCESS_SKIPPED_TARGET_SELECT_FAILED; uint64_t mstatus = 0; uint64_t mstatus_old = 0; if (modify_privilege(target, &mstatus, &mstatus_old) != ERROR_OK) - return ERROR_FAIL; + return MEM_ACCESS_FAILED_PRIV_MOD_FAILED; const bool mprven = riscv_enable_virtual && get_field(mstatus, MSTATUS_MPRV); @@ -4810,73 +4916,97 @@ static int write_memory_progbuf(struct target *target, target_addr_t address, /* Restore MSTATUS */ if (mstatus != mstatus_old) if (register_write_direct(target, GDB_REGNO_MSTATUS, mstatus_old)) - return ERROR_FAIL; + return MEM_ACCESS_FAILED; if (execute_fence(target) != ERROR_OK) - return ERROR_FAIL; + return MEM_ACCESS_SKIPPED_FENCE_EXEC_FAILED; - return result; + return result == ERROR_OK ? MEM_ACCESS_OK : MEM_ACCESS_FAILED; } -static int write_memory(struct target *target, target_addr_t address, - uint32_t size, uint32_t count, const uint8_t *buffer) +static mem_access_result_t +write_memory_sysbus(struct target *target, target_addr_t address, + uint32_t size, uint32_t count, const uint8_t *buffer) { - if (size != 1 && size != 2 && size != 4 && size != 8 && size != 16) { - LOG_TARGET_ERROR(target, "BUG: Unsupported size for memory write: %d", size); - return ERROR_FAIL; - } + riscv013_info_t *info = get_info(target); + mem_access_result_t skip_reason = + mem_should_skip_sysbus(target, address, size, 0, /* is_read = */ false); + if (skip_reason != MEM_ACCESS_OK) + return skip_reason; + /* TODO: write_memory_bus_* should return mem_access_result_t too*/ int ret = ERROR_FAIL; - RISCV_INFO(r); - RISCV013_INFO(info); - - char *progbuf_result = "disabled"; - char *sysbus_result = "disabled"; - char *abstract_result = "disabled"; - - for (unsigned int i = 0; i < RISCV_NUM_MEM_ACCESS_METHODS; i++) { - int method = r->mem_access_methods[i]; - - if (method == RISCV_MEM_ACCESS_PROGBUF) { - if (mem_should_skip_progbuf(target, address, size, false, &progbuf_result)) - continue; - - ret = write_memory_progbuf(target, address, size, count, buffer); + uint64_t sbver = get_field(info->sbcs, DM_SBCS_SBVERSION); + if (sbver == 0) { + ret = write_memory_bus_v0(target, address, size, count, buffer); + } else if (sbver == 1) { + ret = write_memory_bus_v1(target, address, size, count, buffer); + } else { + LOG_TARGET_ERROR(target, + "Unknown system bus version: %" PRIu64, sbver); + } - if (ret != ERROR_OK) - progbuf_result = "failed"; - } else if (method == RISCV_MEM_ACCESS_SYSBUS) { - if (mem_should_skip_sysbus(target, address, size, 0, false, &sysbus_result)) - continue; + if (ret != ERROR_OK) + skip_reason = MEM_ACCESS_FAILED; - if (get_field(info->sbcs, DM_SBCS_SBVERSION) == 0) - ret = write_memory_bus_v0(target, address, size, count, buffer); - else if (get_field(info->sbcs, DM_SBCS_SBVERSION) == 1) - ret = write_memory_bus_v1(target, address, size, count, buffer); + return skip_reason; +} - if (ret != ERROR_OK) - sysbus_result = "failed"; - } else if (method == RISCV_MEM_ACCESS_ABSTRACT) { - if (mem_should_skip_abstract(target, address, size, 0, false, &abstract_result)) - continue; +static int write_memory(struct target *target, target_addr_t address, + uint32_t size, uint32_t count, const uint8_t *buffer) +{ + if (!IS_PWR_OF_2(size) || size > 1 || size > 16) { + LOG_TARGET_ERROR(target, "BUG: Unsupported size for memory write: %d", size); + return ERROR_FAIL; + } - ret = write_memory_abstract(target, address, size, count, buffer); + mem_access_result_t skip_reason[] = { + [RISCV_MEM_ACCESS_PROGBUF] = MEM_ACCESS_DISABLED, + [RISCV_MEM_ACCESS_SYSBUS] = MEM_ACCESS_DISABLED, + [RISCV_MEM_ACCESS_ABSTRACT] = MEM_ACCESS_DISABLED + }; - if (ret != ERROR_OK) - abstract_result = "failed"; - } else if (method == RISCV_MEM_ACCESS_UNSPECIFIED) - /* No further mem access method to try. */ - break; + RISCV_INFO(r); + for (unsigned int i = 0; i < r->num_enabled_mem_access_methods; ++i) { + riscv_mem_access_method_t method = r->mem_access_methods[i]; + switch (method) { + case RISCV_MEM_ACCESS_PROGBUF: + skip_reason[method] = + write_memory_progbuf(target, address, + size, count, buffer); + break; + case RISCV_MEM_ACCESS_SYSBUS: + skip_reason[method] = + write_memory_sysbus(target, address, + size, count, buffer); + break; + case RISCV_MEM_ACCESS_ABSTRACT: + skip_reason[method] = + write_memory_abstract(target, address, + size, count, buffer); + break; + default: + LOG_TARGET_ERROR(target, "Unknown memory access method: %d", method); + assert(false); + return ERROR_FAIL; + } - log_mem_access_result(target, ret == ERROR_OK, method, false); + if (is_mem_access_failed(skip_reason[method])) + goto failure; - if (ret == ERROR_OK) - return ret; + const bool success = (skip_reason[method] == MEM_ACCESS_OK); + log_mem_access_result(target, success, method, /* is_read = */ false); + if (success) + return ERROR_OK; } - LOG_TARGET_ERROR(target, "Target %s: Failed to write memory (addr=0x%" PRIx64 ")", target_name(target), address); - LOG_TARGET_ERROR(target, " progbuf=%s, sysbus=%s, abstract=%s", progbuf_result, sysbus_result, abstract_result); - return ret; +failure: + LOG_TARGET_ERROR(target, "Failed to write memory (addr=0x%" PRIx64 ")\n" + "progbuf=%s, sysbus=%s, abstract=%s", address, + mem_access_result_to_str(skip_reason[RISCV_MEM_ACCESS_PROGBUF]), + mem_access_result_to_str(skip_reason[RISCV_MEM_ACCESS_SYSBUS]), + mem_access_result_to_str(skip_reason[RISCV_MEM_ACCESS_ABSTRACT])); + return ERROR_FAIL; } static bool riscv013_get_impebreak(const struct target *target) diff --git a/src/target/riscv/riscv.c b/src/target/riscv/riscv.c index 11f3956cc..21af259d9 100644 --- a/src/target/riscv/riscv.c +++ b/src/target/riscv/riscv.c @@ -3870,9 +3870,10 @@ COMMAND_HANDLER(riscv_set_mem_access) int sysbus_cnt = 0; int abstract_cnt = 0; - if (CMD_ARGC < 1 || CMD_ARGC > RISCV_NUM_MEM_ACCESS_METHODS) { - LOG_ERROR("Command takes 1 to %d parameters", RISCV_NUM_MEM_ACCESS_METHODS); - return ERROR_COMMAND_SYNTAX_ERROR; + if (CMD_ARGC < 1 || CMD_ARGC > RISCV_MEM_ACCESS_MAX_METHODS_NUM) { + command_print(CMD, "Command takes 1 to %d parameters", + RISCV_MEM_ACCESS_MAX_METHODS_NUM); + return ERROR_COMMAND_ARGUMENT_INVALID; } /* Check argument validity */ @@ -3895,8 +3896,7 @@ COMMAND_HANDLER(riscv_set_mem_access) } /* Args are valid, store them */ - for (unsigned int i = 0; i < RISCV_NUM_MEM_ACCESS_METHODS; i++) - r->mem_access_methods[i] = RISCV_MEM_ACCESS_UNSPECIFIED; + r->num_enabled_mem_access_methods = CMD_ARGC; for (unsigned int i = 0; i < CMD_ARGC; i++) { if (strcmp("progbuf", CMD_ARGV[i]) == 0) r->mem_access_methods[i] = RISCV_MEM_ACCESS_PROGBUF; @@ -3907,9 +3907,8 @@ COMMAND_HANDLER(riscv_set_mem_access) } /* Reset warning flags */ - r->mem_access_progbuf_warn = true; - r->mem_access_sysbus_warn = true; - r->mem_access_abstract_warn = true; + for (size_t i = 0; i < RISCV_MEM_ACCESS_MAX_METHODS_NUM; ++i) + r->mem_access_warn[i] = true; return ERROR_OK; } @@ -5451,9 +5450,9 @@ static void riscv_info_init(struct target *target, struct riscv_info *r) r->mem_access_methods[1] = RISCV_MEM_ACCESS_SYSBUS; r->mem_access_methods[2] = RISCV_MEM_ACCESS_ABSTRACT; - r->mem_access_progbuf_warn = true; - r->mem_access_sysbus_warn = true; - r->mem_access_abstract_warn = true; + r->num_enabled_mem_access_methods = RISCV_MEM_ACCESS_MAX_METHODS_NUM; + for (size_t i = 0; i < RISCV_MEM_ACCESS_MAX_METHODS_NUM; ++i) + r->mem_access_warn[i] = true; INIT_LIST_HEAD(&r->expose_csr); INIT_LIST_HEAD(&r->expose_custom); diff --git a/src/target/riscv/riscv.h b/src/target/riscv/riscv.h index 635e672f5..4ac10fa76 100644 --- a/src/target/riscv/riscv.h +++ b/src/target/riscv/riscv.h @@ -32,8 +32,6 @@ struct riscv_program; #define PG_MAX_LEVEL 5 -#define RISCV_NUM_MEM_ACCESS_METHODS 3 - #define RISCV_BATCH_ALLOC_SIZE 128 extern struct target_type riscv011_target; @@ -52,12 +50,12 @@ typedef enum { YNM_NO } yes_no_maybe_t; -enum riscv_mem_access_method { - RISCV_MEM_ACCESS_UNSPECIFIED, +typedef enum riscv_mem_access_method { RISCV_MEM_ACCESS_PROGBUF, RISCV_MEM_ACCESS_SYSBUS, - RISCV_MEM_ACCESS_ABSTRACT -}; + RISCV_MEM_ACCESS_ABSTRACT, + RISCV_MEM_ACCESS_MAX_METHODS_NUM +} riscv_mem_access_method_t; enum riscv_halt_reason { RISCV_HALT_INTERRUPT, @@ -272,13 +270,13 @@ struct riscv_info { bool *reserved_triggers; /* Memory access methods to use, ordered by priority, highest to lowest. */ - int mem_access_methods[RISCV_NUM_MEM_ACCESS_METHODS]; + riscv_mem_access_method_t mem_access_methods[RISCV_MEM_ACCESS_MAX_METHODS_NUM]; + + unsigned int num_enabled_mem_access_methods; /* Different memory regions may need different methods but single configuration is applied * for all. Following flags are used to warn only once about failing memory access method. */ - bool mem_access_progbuf_warn; - bool mem_access_sysbus_warn; - bool mem_access_abstract_warn; + bool mem_access_warn[RISCV_MEM_ACCESS_MAX_METHODS_NUM]; /* In addition to the ones in the standard spec, we'll also expose additional * CSRs in this list. */