/* * Copyright 2021 Advanced Micro Devices, Inc. * All Rights Reserved. * * Permission is hereby granted, free of charge, to any person obtaining a * copy of this software and associated documentation files (the "Software"), * to deal in the Software without restriction, including without limitation * on the rights to use, copy, modify, merge, publish, distribute, sub * license, and/or sell copies of the Software, and to permit persons to whom * the Software is furnished to do so, subject to the following conditions: * * The above copyright notice and this permission notice (including the next * paragraph) shall be included in all copies or substantial portions of the * Software. * * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, * FITNESS FOR A PARTICULAR PURPOSE AND NON-INFRINGEMENT. IN NO EVENT SHALL * THE AUTHOR(S) AND/OR THEIR SUPPLIERS BE LIABLE FOR ANY CLAIM, * DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR * OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE * USE OR OTHER DEALINGS IN THE SOFTWARE. * */ /** * \file ac_msgpack.c * * This file provides functions to create msgpack formatted data. * for msgpack specification refer to * github.com/msgpack/msgpack/blob/master/spec.md */ #include #include #include #include #include #include "util/u_math.h" #include "ac_msgpack.h" #define MSGPACK_MEM_START_SIZE 0x1000 #define MSGPACK_MEM_INC_SIZE 0x1000 #define MSGPACK_FIXMAP_OP 0x80 #define MSGPACK_MAP16_OP 0xde #define MSGPACK_MAP32_OP 0xdf #define MSGPACK_FIXARRAY_OP 0x90 #define MSGPACK_ARRAY16_OP 0xdc #define MSGPACK_ARRAY32_OP 0xdd #define MSGPACK_FIXSTR_OP 0xa0 #define MSGPACK_STR8_OP 0xd9 #define MSGPACK_STR16_OP 0xda #define MSGPACK_STR32_OP 0xdb #define MSGPACK_UINT8_OP 0xcc #define MSGPACK_UINT16_OP 0xcd #define MSGPACK_UINT32_OP 0xce #define MSGPACK_UINT64_OP 0xcf #define MSGPACK_NIL_OP 0xc0 #define MSGPACK_INT8_OP 0xd0 #define MSGPACK_INT16_OP 0xd1 #define MSGPACK_INT32_OP 0xd2 #define MSGPACK_INT64_OP 0xd3 void ac_msgpack_init(struct ac_msgpack *msgpack) { msgpack->mem = malloc(MSGPACK_MEM_START_SIZE); msgpack->mem_size = MSGPACK_MEM_START_SIZE; msgpack->offset = 0; } void ac_msgpack_destroy(struct ac_msgpack *msgpack) { free(msgpack->mem); } int ac_msgpack_resize_if_required(struct ac_msgpack *msgpack, uint32_t data_size) { if ((msgpack->offset + data_size) > msgpack->mem_size) { uint32_t new_mem_size; new_mem_size = msgpack->mem_size + MAX2(MSGPACK_MEM_INC_SIZE, data_size); msgpack->mem = realloc(msgpack->mem, new_mem_size); if (msgpack->mem == NULL) return false; msgpack->mem_size = new_mem_size; } return true; } void ac_msgpack_add_fixmap_op(struct ac_msgpack *msgpack, uint32_t n) { if (n <= 0xf ) { if (!ac_msgpack_resize_if_required(msgpack, 1)) return; msgpack->mem[msgpack->offset] = MSGPACK_FIXMAP_OP | n; msgpack->offset = msgpack->offset + 1; } else if (n <= 0xffff) { if (!ac_msgpack_resize_if_required(msgpack, 3)) return; msgpack->mem[msgpack->offset] = MSGPACK_MAP16_OP; *((uint16_t*)&msgpack->mem[msgpack->offset + 1]) = util_bswap16(n); msgpack->offset = msgpack->offset + 3; } else { if (!ac_msgpack_resize_if_required(msgpack, 5)) return; msgpack->mem[msgpack->offset] = MSGPACK_MAP32_OP; *((unsigned int*)&msgpack->mem[msgpack->offset + 1]) = util_bswap32(n); msgpack->offset = msgpack->offset + 5; } } void ac_msgpack_add_fixarray_op(struct ac_msgpack *msgpack, uint32_t n) { if (n <= 0xf ) { if (!ac_msgpack_resize_if_required(msgpack, 1)) return; msgpack->mem[msgpack->offset] = MSGPACK_FIXARRAY_OP | n; msgpack->offset = msgpack->offset + 1; } else if (n <= 0xffff) { if (!ac_msgpack_resize_if_required(msgpack, 3)) return; msgpack->mem[msgpack->offset] = MSGPACK_ARRAY16_OP; *((uint16_t*)&msgpack->mem[msgpack->offset + 1]) = util_bswap16(n); msgpack->offset = msgpack->offset + 3; } else { if (!ac_msgpack_resize_if_required(msgpack, 5)) return; msgpack->mem[msgpack->offset] = MSGPACK_ARRAY32_OP; *((uint32_t*)&msgpack->mem[msgpack->offset + 1]) = util_bswap32(n); msgpack->offset = msgpack->offset + 5; } } void ac_msgpack_add_fixstr(struct ac_msgpack *msgpack, char *str) { uint32_t n; n = strlen(str); if (n <= 0x1f) { if (!ac_msgpack_resize_if_required(msgpack, 1 + n)) return; msgpack->mem[msgpack->offset] = MSGPACK_FIXSTR_OP | n; msgpack->offset = msgpack->offset + 1; } else if (n <= 0xff) { if (!ac_msgpack_resize_if_required(msgpack, 2 + n)) return; msgpack->mem[msgpack->offset] = MSGPACK_STR8_OP; msgpack->mem[msgpack->offset + 1] = n; msgpack->offset = msgpack->offset + 2; } else if (n <= 0xffff) { if (!ac_msgpack_resize_if_required(msgpack, 3 + n)) return; msgpack->mem[msgpack->offset] = MSGPACK_STR16_OP; *((uint16_t*)&msgpack->mem[msgpack->offset + 1]) = util_bswap16(n); msgpack->offset = msgpack->offset + 3; } else { if (!ac_msgpack_resize_if_required(msgpack, 5 + n)) return; msgpack->mem[msgpack->offset] = MSGPACK_STR32_OP; *((uint32_t*)&msgpack->mem[msgpack->offset + 1]) = util_bswap32(n); msgpack->offset = msgpack->offset + 5; } memcpy (&msgpack->mem[msgpack->offset], str, n); msgpack->offset = msgpack->offset + n; } void ac_msgpack_add_uint(struct ac_msgpack *msgpack, uint64_t val) { if (val <= 0x7f) { if (!ac_msgpack_resize_if_required(msgpack, 1)) return; msgpack->mem[msgpack->offset] = val; msgpack->offset = msgpack->offset + 1; } else if (val <= 0xff) { if (!ac_msgpack_resize_if_required(msgpack, 2)) return; msgpack->mem[msgpack->offset] = MSGPACK_UINT8_OP; msgpack->mem[msgpack->offset + 1] = val; msgpack->offset = msgpack->offset + 2; } else if (val <= 0xffff) { if (!ac_msgpack_resize_if_required(msgpack, 3)) return; msgpack->mem[msgpack->offset] = MSGPACK_UINT16_OP; *((uint16_t*)&msgpack->mem[msgpack->offset + 1]) = util_bswap16(val); msgpack->offset = msgpack->offset + 3; } else if (val <= 0xffffffff) { if (!ac_msgpack_resize_if_required(msgpack, 5)) return; msgpack->mem[msgpack->offset] = MSGPACK_UINT32_OP; *((uint32_t*)&msgpack->mem[msgpack->offset + 1]) = util_bswap32(val); msgpack->offset = msgpack->offset + 5; } else { if (!ac_msgpack_resize_if_required(msgpack, 9)) return; msgpack->mem[msgpack->offset] = MSGPACK_UINT64_OP; *((uint64_t*)&msgpack->mem[msgpack->offset + 1]) = util_bswap64(val); msgpack->offset = msgpack->offset + 9; } } void ac_msgpack_add_int(struct ac_msgpack *msgpack, int64_t val) { if ((val >= -0x7f) && (val <= 0x7f)) { if ((val >= -31) && (val < 0)) { if (!ac_msgpack_resize_if_required(msgpack, 1)) return; msgpack->mem[msgpack->offset] = val | MSGPACK_NIL_OP; msgpack->offset = msgpack->offset + 1; } else if ((val >= 0) && (val <= 127)) { if (!ac_msgpack_resize_if_required(msgpack, 1)) return; msgpack->mem[msgpack->offset] = val; msgpack->offset = msgpack->offset + 1; } else { if (!ac_msgpack_resize_if_required(msgpack, 2)) return; msgpack->mem[msgpack->offset] = MSGPACK_INT8_OP; msgpack->mem[msgpack->offset + 1] = val; msgpack->offset = msgpack->offset + 2; } } else if ((val >= -0x7fff) && (val <= 0x7fff)) { if (!ac_msgpack_resize_if_required(msgpack, 3)) return; msgpack->mem[msgpack->offset] = MSGPACK_INT16_OP; *((int16_t*)&msgpack->mem[msgpack->offset + 1]) = util_bswap32(val); msgpack->offset = msgpack->offset + 3; } else if ((val >= -0x7fffffff) && (val <= 0x7fffffff)) { if (!ac_msgpack_resize_if_required(msgpack, 5)) return; msgpack->mem[msgpack->offset] = MSGPACK_INT32_OP; *((int32_t*)&msgpack->mem[msgpack->offset + 1]) = util_bswap32(val); msgpack->offset = msgpack->offset + 5; } else { if (!ac_msgpack_resize_if_required(msgpack, 9)) return; msgpack->mem[msgpack->offset] = MSGPACK_INT64_OP; *((int64_t*)&msgpack->mem[msgpack->offset + 1]) = util_bswap64(val); msgpack->offset = msgpack->offset + 9; } }