/* * Copyright 2014 Google Inc. * * 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. */ #include #include #include /* MMIO word size is not standardized, but *usually* 32 (even on ARM64) */ typedef u32 mmio_word_t; static const int timeout_us = 100 * 1000; static const char output_overrun[] = "GDB output buffer overrun (try " "increasing reply.size)!\n"; /* Serial-specific glue code... add more transport layers here when desired. */ static void gdb_raw_putchar(u8 c) { serial_putchar(c); } static int gdb_raw_getchar(void) { u64 start = timer_us(0); while (!serial_havechar()) if (timer_us(start) > timeout_us) return -1; return serial_getchar(); } void gdb_transport_init(void) { console_remove_output_driver(serial_putchar); } void gdb_transport_teardown(void) { serial_console_init(); } /* Hex digit character <-> number conversion (illegal chars undefined!). */ static u8 from_hex(unsigned char c) { static const s8 values[] = { -1, 10, 11, 12, 13, 14, 15, -1, -1, -1, -1, -1, -1, -1, -1, -1, 0, 1, 2, 3, 4, 5, 6, 7, 8, 9, -1, -1, -1, -1, -1, -1, }; return values[c & 0x1f]; } static char to_hex(u8 v) { static const char digits[] = "0123456789abcdef"; return digits[v & 0xf]; } /* Message encode/decode functions (must access whole aligned words for MMIO) */ void gdb_message_encode_bytes(struct gdb_message *message, const void *data, int length) { die_if(message->used + length * 2 > message->size, output_overrun); const mmio_word_t *aligned = (mmio_word_t *)ALIGN_DOWN((uintptr_t)data, sizeof(*aligned)); mmio_word_t word = be32toh(readl(aligned++)); while (length--) { u8 byte = (word >> ((((void *)aligned - data) - 1) * 8)); message->buf[message->used++] = to_hex(byte >> 4); message->buf[message->used++] = to_hex(byte & 0xf); if (length && ++data == (void *)aligned) word = be32toh(readl(aligned++)); } } void gdb_message_decode_bytes(const struct gdb_message *message, int offset, void *data, int length) { die_if(offset + 2 * length > message->used, "Decode overrun in GDB " "message: %.*s", message->used, message->buf); mmio_word_t *aligned = (mmio_word_t *)ALIGN_DOWN((uintptr_t)data, sizeof(*aligned)); int shift = ((void *)(aligned + 1) - data) * 8; mmio_word_t word = be32toh(readl(aligned)) >> shift; while (length--) { word <<= 8; word |= from_hex(message->buf[offset++]) << 4; word |= from_hex(message->buf[offset++]); if (++data - (void *)aligned == sizeof(*aligned)) writel(htobe32(word), aligned++); } if (data != (void *)aligned) { shift = ((void *)(aligned + 1) - data) * 8; clrsetbits_be32(aligned, ~((1 << shift) - 1), word << shift); } } void gdb_message_encode_zero_bytes(struct gdb_message *message, int length) { die_if(message->used + length * 2 > message->size, output_overrun); memset(message->buf + message->used, '0', length * 2); message->used += length * 2; } void gdb_message_add_string(struct gdb_message *message, const char *string) { message->used += strlcpy((char *)message->buf + message->used, string, message->size - message->used); /* Check >= instead of > to account for strlcpy's trailing '\0'. */ die_if(message->used >= message->size, output_overrun); } void gdb_message_encode_int(struct gdb_message *message, uintptr_t val) { int length = sizeof(uintptr_t) * 2 - __builtin_clz(val) / 4; die_if(message->used + length > message->size, output_overrun); while (length--) message->buf[message->used++] = to_hex((val >> length * 4) & 0xf); } uintptr_t gdb_message_decode_int(const struct gdb_message *message, int offset, int length) { uintptr_t val = 0; die_if(length > sizeof(uintptr_t) * 2, "GDB decoding invalid number: " "%.*s", message->used, message->buf); while (length--) { val <<= 4; val |= from_hex(message->buf[offset++]); } return val; } /* Like strtok/strsep: writes back offset argument, returns original offset. */ int gdb_message_tokenize(const struct gdb_message *message, int *offset) { int token = *offset; while (!strchr(",;:", message->buf[(*offset)++])) die_if(*offset >= message->used, "Undelimited token in GDB " "message at offset %d: %.*s", token, message->used, message->buf); return token; } /* High-level send/receive functions. */ void gdb_get_command(struct gdb_message *command) { enum command_state { STATE_WAITING, STATE_COMMAND, STATE_CHECKSUM0, STATE_CHECKSUM1, }; u8 checksum = 0; u8 running_checksum = 0; enum command_state state = STATE_WAITING; while (1) { int c = gdb_raw_getchar(); if (c < 0) { /* * Timeout waiting for a byte. Reset the * state machine. */ state = STATE_WAITING; continue; } switch (state) { case STATE_WAITING: if (c == '$') { running_checksum = 0; command->used = 0; state = STATE_COMMAND; } break; case STATE_COMMAND: if (c == '#') { state = STATE_CHECKSUM0; break; } die_if(command->used >= command->size, "GDB input buf" "fer overrun (try increasing command.size)!\n"); command->buf[command->used++] = c; running_checksum += c; break; case STATE_CHECKSUM0: checksum = from_hex(c) << 4; state = STATE_CHECKSUM1; break; case STATE_CHECKSUM1: checksum += from_hex(c); if (running_checksum == checksum) { gdb_raw_putchar('+'); return; } else { state = STATE_WAITING; gdb_raw_putchar('-'); } break; } } } void gdb_send_reply(const struct gdb_message *reply) { int i; int retries = 1 * 1000 * 1000 / timeout_us; u8 checksum = 0; for (i = 0; i < reply->used; i++) checksum += reply->buf[i]; do { gdb_raw_putchar('$'); for (i = 0; i < reply->used; i++) gdb_raw_putchar(reply->buf[i]); gdb_raw_putchar('#'); gdb_raw_putchar(to_hex(checksum >> 4)); gdb_raw_putchar(to_hex(checksum & 0xf)); } while (gdb_raw_getchar() != '+' && retries--); }