/* * This file and its contents are supplied under the terms of the * Common Development and Distribution License ("CDDL"), version 1.0. * You may only use this file in accordance with the terms of version * 1.0 of the CDDL. * * A full copy of the text of the CDDL should have accompanied this * source. A copy of the CDDL is also available via the Internet at * http://www.illumos.org/license/CDDL. */ /* * String utility functions with dynamic memory management. */ /* * Copyright 2019 Joyent, Inc. */ #include #include #include #include #include #include #include #include "libcustr.h" /* * libcustr is used by some things in usr/src/tools. If we are building * on an older platform, __unused might not be defined on the build host. * We define it here if needed. */ #ifndef __unused #if __GNUC_VERSION >= 20700 #define __unused __attribute__((_unused__)) #else #define __unused #endif /* __GNUC_VERSION */ #endif /* __unused */ typedef enum { CUSTR_FIXEDBUF = 0x01 } custr_flags_t; struct custr { size_t cus_strlen; size_t cus_datalen; char *cus_data; custr_flags_t cus_flags; custr_alloc_t *cus_alloc; }; #define CUSTR_ALLOC(_cus, _len) \ (_cus)->cus_alloc->cua_ops->custr_ao_alloc((_cus)->cus_alloc, (_len)) #define CUSTR_FREE(_cus, _p, _len) \ (_cus)->cus_alloc->cua_ops->custr_ao_free((_cus)->cus_alloc, \ (_p), (_len)) #define STRING_CHUNK_SIZE 64 static void *custr_def_alloc(custr_alloc_t *, size_t); static void custr_def_free(custr_alloc_t *, void *, size_t); static custr_alloc_ops_t custr_alloc_ops_default = { NULL, /* custr_ao_init */ NULL, /* custr_ao_fini */ custr_def_alloc, /* custr_ao_alloc */ custr_def_free /* custr_ao_free */ }; static custr_alloc_t custr_alloc_default = { CUSTR_VERSION, /* cua_version */ &custr_alloc_ops_default, /* cua_ops */ NULL /* cua_arg */ }; void custr_reset(custr_t *cus) { if (cus->cus_data == NULL) return; cus->cus_strlen = 0; cus->cus_data[0] = '\0'; } size_t custr_len(custr_t *cus) { return (cus->cus_strlen); } const char * custr_cstr(custr_t *cus) { if (cus->cus_data == NULL) { VERIFY(cus->cus_strlen == 0); VERIFY(cus->cus_datalen == 0); /* * This function should never return NULL. If no buffer has * been allocated, return a pointer to a zero-length string. */ return (""); } return (cus->cus_data); } int custr_append_vprintf(custr_t *cus, const char *fmt, va_list ap) { int len = vsnprintf(NULL, 0, fmt, ap); size_t chunksz = STRING_CHUNK_SIZE; if (len < 0) { return (len); } while (chunksz < len) { chunksz *= 2; } if (len + cus->cus_strlen + 1 >= cus->cus_datalen) { char *new_data; size_t new_datalen = cus->cus_datalen + chunksz; if (cus->cus_flags & CUSTR_FIXEDBUF) { errno = EOVERFLOW; return (-1); } /* * Allocate replacement memory: */ if ((new_data = CUSTR_ALLOC(cus, new_datalen)) == NULL) { return (-1); } /* * Copy existing data into replacement memory and free * the old memory. */ if (cus->cus_data != NULL) { (void) memcpy(new_data, cus->cus_data, cus->cus_strlen + 1); CUSTR_FREE(cus, cus->cus_data, cus->cus_datalen); } /* * Swap in the replacement buffer: */ cus->cus_data = new_data; cus->cus_datalen = new_datalen; } /* * Append new string to existing string: */ if ((len = vsnprintf(cus->cus_data + cus->cus_strlen, cus->cus_datalen - cus->cus_strlen, fmt, ap)) < 0) { return (len); } cus->cus_strlen += len; return (0); } int custr_appendc(custr_t *cus, char newc) { return (custr_append_printf(cus, "%c", newc)); } int custr_append_printf(custr_t *cus, const char *fmt, ...) { va_list ap; int ret; va_start(ap, fmt); ret = custr_append_vprintf(cus, fmt, ap); va_end(ap); return (ret); } int custr_append(custr_t *cus, const char *name) { return (custr_append_printf(cus, "%s", name)); } int custr_alloc_init(custr_alloc_t *cua, const custr_alloc_ops_t *ops, ...) { int ret = 0; if (cua->cua_version != CUSTR_VERSION || ops->custr_ao_alloc == NULL || ops->custr_ao_free == NULL) { errno = EINVAL; return (-1); } cua->cua_ops = ops; cua->cua_arg = NULL; if (ops->custr_ao_init != NULL) { va_list ap; va_start(ap, ops); ret = ops->custr_ao_init(cua, ap); va_end(ap); } return ((ret == 0) ? 0 : -1); } void custr_alloc_fini(custr_alloc_t *cua) { if (cua->cua_ops->custr_ao_fini != NULL) cua->cua_ops->custr_ao_fini(cua); } int custr_xalloc(custr_t **cus, custr_alloc_t *cao) { custr_t *t; if (cao == NULL) cao = &custr_alloc_default; if ((t = cao->cua_ops->custr_ao_alloc(cao, sizeof (*t))) == NULL) { *cus = NULL; return (-1); } (void) memset(t, 0, sizeof (*t)); t->cus_alloc = cao; *cus = t; return (0); } int custr_alloc(custr_t **cus) { return (custr_xalloc(cus, NULL)); } int custr_xalloc_buf(custr_t **cus, void *buf, size_t buflen, custr_alloc_t *cao) { int ret; if (buflen == 0 || buf == NULL) { errno = EINVAL; return (-1); } if ((ret = custr_xalloc(cus, cao)) != 0) return (ret); (*cus)->cus_data = buf; (*cus)->cus_datalen = buflen; (*cus)->cus_strlen = 0; (*cus)->cus_flags = CUSTR_FIXEDBUF; (*cus)->cus_data[0] = '\0'; return (0); } int custr_alloc_buf(custr_t **cus, void *buf, size_t buflen) { return (custr_xalloc_buf(cus, buf, buflen, NULL)); } void custr_free(custr_t *cus) { custr_alloc_t *cao; if (cus == NULL) return; if ((cus->cus_flags & CUSTR_FIXEDBUF) == 0) CUSTR_FREE(cus, cus->cus_data, cus->cus_datalen); cao = cus->cus_alloc; cao->cua_ops->custr_ao_free(cao, cus, sizeof (*cus)); } /*ARGSUSED*/ static void * custr_def_alloc(custr_alloc_t *cao __unused, size_t len) { return (malloc(len)); } /*ARGSUSED*/ static void custr_def_free(custr_alloc_t *cao __unused, void *p, size_t len __unused) { free(p); }