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/**
 * Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
 * SPDX-License-Identifier: Apache-2.0.
 */

#include <aws/common/common.h>
#include <aws/common/logging.h>
#include <aws/common/math.h>
#include <aws/common/private/dlloads.h>

#include <stdarg.h>
#include <stdlib.h>

#ifdef _WIN32
#    include <Windows.h>
#else
#    include <dlfcn.h>
#endif

#ifdef __MACH__
#    include <CoreFoundation/CoreFoundation.h>
#endif

/* turn off unused named parameter warning on msvc.*/
#ifdef _MSC_VER
#    pragma warning(push)
#    pragma warning(disable : 4100)
#endif

long (*g_set_mempolicy_ptr)(int, const unsigned long *, unsigned long) = NULL;
void *g_libnuma_handle = NULL;

void aws_secure_zero(void *pBuf, size_t bufsize) {
#if defined(_WIN32)
    SecureZeroMemory(pBuf, bufsize);
#else
    /* We cannot use memset_s, even on a C11 compiler, because that would require
     * that __STDC_WANT_LIB_EXT1__ be defined before the _first_ inclusion of string.h.
     *
     * We'll try to work around this by using inline asm on GCC-like compilers,
     * and by exposing the buffer pointer in a volatile local pointer elsewhere.
     */
#    if defined(__GNUC__) || defined(__clang__)
    memset(pBuf, 0, bufsize);
    /* This inline asm serves to convince the compiler that the buffer is (somehow) still
     * used after the zero, and therefore that the optimizer can't eliminate the memset.
     */
    __asm__ __volatile__("" /* The asm doesn't actually do anything. */
                         :  /* no outputs */
                         /* Tell the compiler that the asm code has access to the pointer to the buffer,
                          * and therefore it might be reading the (now-zeroed) buffer.
                          * Without this. clang/LLVM 9.0.0 optimizes away a memset of a stack buffer.
                          */
                         : "r"(pBuf)
                         /* Also clobber memory. While this seems like it might be unnecessary - after all,
                          * it's enough that the asm might read the buffer, right? - in practice GCC 7.3.0
                          * seems to optimize a zero of a stack buffer without it.
                          */
                         : "memory");
#    else  // not GCC/clang
    /* We don't have access to inline asm, since we're on a non-GCC platform. Move the pointer
     * through a volatile pointer in an attempt to confuse the optimizer.
     */
    volatile void *pVolBuf = pBuf;
    memset(pVolBuf, 0, bufsize);
#    endif // #else not GCC/clang
#endif     // #else not windows
}

#define AWS_DEFINE_ERROR_INFO_COMMON(C, ES) [(C)-0x0000] = AWS_DEFINE_ERROR_INFO(C, ES, "aws-c-common")
/* clang-format off */
static struct aws_error_info errors[] = {
    AWS_DEFINE_ERROR_INFO_COMMON(
        AWS_ERROR_SUCCESS,
        "Success."),
    AWS_DEFINE_ERROR_INFO_COMMON(
        AWS_ERROR_OOM,
        "Out of memory."),
    AWS_DEFINE_ERROR_INFO_COMMON(
        AWS_ERROR_UNKNOWN,
        "Unknown error."),
    AWS_DEFINE_ERROR_INFO_COMMON(
        AWS_ERROR_SHORT_BUFFER,
        "Buffer is not large enough to hold result."),
    AWS_DEFINE_ERROR_INFO_COMMON(
        AWS_ERROR_OVERFLOW_DETECTED,
        "Fixed size value overflow was detected."),
    AWS_DEFINE_ERROR_INFO_COMMON(
        AWS_ERROR_UNSUPPORTED_OPERATION,
        "Unsupported operation."),
    AWS_DEFINE_ERROR_INFO_COMMON(
        AWS_ERROR_INVALID_BUFFER_SIZE,
        "Invalid buffer size."),
    AWS_DEFINE_ERROR_INFO_COMMON(
        AWS_ERROR_INVALID_HEX_STR,
        "Invalid hex string."),
    AWS_DEFINE_ERROR_INFO_COMMON(
        AWS_ERROR_INVALID_BASE64_STR,
        "Invalid base64 string."),
    AWS_DEFINE_ERROR_INFO_COMMON(
        AWS_ERROR_INVALID_INDEX,
        "Invalid index for list access."),
    AWS_DEFINE_ERROR_INFO_COMMON(
        AWS_ERROR_THREAD_INVALID_SETTINGS,
        "Invalid thread settings."),
    AWS_DEFINE_ERROR_INFO_COMMON(
        AWS_ERROR_THREAD_INSUFFICIENT_RESOURCE,
        "Insufficent resources for thread."),
    AWS_DEFINE_ERROR_INFO_COMMON(
        AWS_ERROR_THREAD_NO_PERMISSIONS,
        "Insufficient permissions for thread operation."),
    AWS_DEFINE_ERROR_INFO_COMMON(
        AWS_ERROR_THREAD_NOT_JOINABLE,
        "Thread not joinable."),
    AWS_DEFINE_ERROR_INFO_COMMON(
        AWS_ERROR_THREAD_NO_SUCH_THREAD_ID,
        "No such thread ID."),
    AWS_DEFINE_ERROR_INFO_COMMON(
        AWS_ERROR_THREAD_DEADLOCK_DETECTED,
        "Deadlock detected in thread."),
    AWS_DEFINE_ERROR_INFO_COMMON(
        AWS_ERROR_MUTEX_NOT_INIT,
        "Mutex not initialized."),
    AWS_DEFINE_ERROR_INFO_COMMON(
        AWS_ERROR_MUTEX_TIMEOUT,
        "Mutex operation timed out."),
    AWS_DEFINE_ERROR_INFO_COMMON(
        AWS_ERROR_MUTEX_CALLER_NOT_OWNER,
        "The caller of a mutex operation was not the owner."),
    AWS_DEFINE_ERROR_INFO_COMMON(
        AWS_ERROR_MUTEX_FAILED,
        "Mutex operation failed."),
    AWS_DEFINE_ERROR_INFO_COMMON(
        AWS_ERROR_COND_VARIABLE_INIT_FAILED,
        "Condition variable initialization failed."),
    AWS_DEFINE_ERROR_INFO_COMMON(
        AWS_ERROR_COND_VARIABLE_TIMED_OUT,
        "Condition variable wait timed out."),
    AWS_DEFINE_ERROR_INFO_COMMON(
        AWS_ERROR_COND_VARIABLE_ERROR_UNKNOWN,
        "Condition variable unknown error."),
    AWS_DEFINE_ERROR_INFO_COMMON(
        AWS_ERROR_CLOCK_FAILURE,
        "Clock operation failed."),
    AWS_DEFINE_ERROR_INFO_COMMON(
        AWS_ERROR_LIST_EMPTY,
        "Empty list."),
    AWS_DEFINE_ERROR_INFO_COMMON(
        AWS_ERROR_DEST_COPY_TOO_SMALL,
        "Destination of copy is too small."),
    AWS_DEFINE_ERROR_INFO_COMMON(
        AWS_ERROR_LIST_EXCEEDS_MAX_SIZE,
        "A requested operation on a list would exceed it's max size."),
    AWS_DEFINE_ERROR_INFO_COMMON(
        AWS_ERROR_LIST_STATIC_MODE_CANT_SHRINK,
        "Attempt to shrink a list in static mode."),
    AWS_DEFINE_ERROR_INFO_COMMON(
        AWS_ERROR_PRIORITY_QUEUE_FULL,
        "Attempt to add items to a full preallocated queue in static mode."),
    AWS_DEFINE_ERROR_INFO_COMMON(
        AWS_ERROR_PRIORITY_QUEUE_EMPTY,
        "Attempt to pop an item from an empty queue."),
    AWS_DEFINE_ERROR_INFO_COMMON(
        AWS_ERROR_PRIORITY_QUEUE_BAD_NODE,
        "Bad node handle passed to remove."),
    AWS_DEFINE_ERROR_INFO_COMMON(
        AWS_ERROR_HASHTBL_ITEM_NOT_FOUND,
        "Item not found in hash table."),
    AWS_DEFINE_ERROR_INFO_COMMON(
        AWS_ERROR_INVALID_DATE_STR,
        "Date string is invalid and cannot be parsed."
    ),
    AWS_DEFINE_ERROR_INFO_COMMON(
        AWS_ERROR_INVALID_ARGUMENT,
        "An invalid argument was passed to a function."
    ),
    AWS_DEFINE_ERROR_INFO_COMMON(
        AWS_ERROR_RANDOM_GEN_FAILED,
        "A call to the random number generator failed. Retry later."
    ),
    AWS_DEFINE_ERROR_INFO_COMMON(
        AWS_ERROR_MALFORMED_INPUT_STRING,
        "An input string was passed to a parser and the string was incorrectly formatted."
    ),
    AWS_DEFINE_ERROR_INFO_COMMON(
        AWS_ERROR_UNIMPLEMENTED,
        "A function was called, but is not implemented."
    ),
    AWS_DEFINE_ERROR_INFO_COMMON(
        AWS_ERROR_INVALID_STATE,
        "An invalid state was encountered."
    ),
    AWS_DEFINE_ERROR_INFO_COMMON(
        AWS_ERROR_ENVIRONMENT_GET,
        "System call failure when getting an environment variable."
    ),
    AWS_DEFINE_ERROR_INFO_COMMON(
        AWS_ERROR_ENVIRONMENT_SET,
        "System call failure when setting an environment variable."
    ),
    AWS_DEFINE_ERROR_INFO_COMMON(
        AWS_ERROR_ENVIRONMENT_UNSET,
        "System call failure when unsetting an environment variable."
    ),
    AWS_DEFINE_ERROR_INFO_COMMON(
        AWS_ERROR_SYS_CALL_FAILURE,
        "System call failure"),
    AWS_DEFINE_ERROR_INFO_COMMON(
        AWS_ERROR_FILE_INVALID_PATH,
        "Invalid file path."),
    AWS_DEFINE_ERROR_INFO_COMMON(
        AWS_ERROR_MAX_FDS_EXCEEDED,
        "The maximum number of fds has been exceeded."),
    AWS_DEFINE_ERROR_INFO_COMMON(
        AWS_ERROR_NO_PERMISSION,
        "User does not have permission to perform the requested action."),
    AWS_DEFINE_ERROR_INFO_COMMON(
        AWS_ERROR_STREAM_UNSEEKABLE,
        "Stream does not support seek operations"),
    AWS_DEFINE_ERROR_INFO_COMMON(
        AWS_ERROR_C_STRING_BUFFER_NOT_NULL_TERMINATED,
        "A c-string like buffer was passed but a null terminator was not found within the bounds of the buffer."),
    AWS_DEFINE_ERROR_INFO_COMMON(
        AWS_ERROR_STRING_MATCH_NOT_FOUND,
      "The specified substring was not present in the input string."),
    AWS_DEFINE_ERROR_INFO_COMMON(
        AWS_ERROR_DIVIDE_BY_ZERO,
        "Attempt to divide a number by zero."),
};
/* clang-format on */

static struct aws_error_info_list s_list = {
    .error_list = errors,
    .count = AWS_ARRAY_SIZE(errors),
};

static struct aws_log_subject_info s_common_log_subject_infos[] = {
    DEFINE_LOG_SUBJECT_INFO(
        AWS_LS_COMMON_GENERAL,
        "aws-c-common",
        "Subject for aws-c-common logging that doesn't belong to any particular category"),
    DEFINE_LOG_SUBJECT_INFO(
        AWS_LS_COMMON_TASK_SCHEDULER,
        "task-scheduler",
        "Subject for task scheduler or task specific logging."),
    DEFINE_LOG_SUBJECT_INFO(AWS_LS_COMMON_THREAD, "thread", "Subject for logging thread related functions."),
    DEFINE_LOG_SUBJECT_INFO(AWS_LS_COMMON_XML_PARSER, "xml-parser", "Subject for xml parser specific logging."),
    DEFINE_LOG_SUBJECT_INFO(AWS_LS_COMMON_MEMTRACE, "memtrace", "Output from the aws_mem_trace_dump function"),
};

static struct aws_log_subject_info_list s_common_log_subject_list = {
    .subject_list = s_common_log_subject_infos,
    .count = AWS_ARRAY_SIZE(s_common_log_subject_infos),
};

static bool s_common_library_initialized = false;

void aws_common_library_init(struct aws_allocator *allocator) {
    (void)allocator;

    if (!s_common_library_initialized) {
        s_common_library_initialized = true;
        aws_register_error_info(&s_list);
        aws_register_log_subject_info_list(&s_common_log_subject_list);

/* NUMA is funky and we can't rely on libnuma.so being available. We also don't want to take a hard dependency on it,
 * try and load it if we can. */
#if !defined(_WIN32) && !defined(WIN32)
        g_libnuma_handle = dlopen("libnuma.so", RTLD_NOW);

        if (g_libnuma_handle) {
            AWS_LOGF_INFO(AWS_LS_COMMON_GENERAL, "static: libnuma.so loaded");
            *(void **)(&g_set_mempolicy_ptr) = dlsym(g_libnuma_handle, "set_mempolicy");
            if (g_set_mempolicy_ptr) {
                AWS_LOGF_INFO(AWS_LS_COMMON_GENERAL, "static: set_mempolicy() loaded");
            } else {
                AWS_LOGF_INFO(AWS_LS_COMMON_GENERAL, "static: set_mempolicy() failed to load");
            }
        } else {
            AWS_LOGF_INFO(AWS_LS_COMMON_GENERAL, "static: libnuma.so failed to load");
        }
#endif
    }
}

void aws_common_library_clean_up(void) {
    if (s_common_library_initialized) {
        s_common_library_initialized = false;
        aws_unregister_error_info(&s_list);
        aws_unregister_log_subject_info_list(&s_common_log_subject_list);
#if !defined(_WIN32) && !defined(WIN32)
        if (g_libnuma_handle) {
            dlclose(g_libnuma_handle);
        }
#endif
    }
}

void aws_common_fatal_assert_library_initialized(void) {
    if (!s_common_library_initialized) {
        fprintf(
            stderr, "%s", "aws_common_library_init() must be called before using any functionality in aws-c-common.");

        AWS_FATAL_ASSERT(s_common_library_initialized);
    }
}

#ifdef _MSC_VER
#    pragma warning(pop)
#endif