Thu, 11 Jul 2019 10:11:43 +0200
resets revision number
/* * DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS HEADER. * * Copyright 2017 Mike Becker, Olaf Wintermann All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions are met: * * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" * AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE * LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE * POSSIBILITY OF SUCH DAMAGE. */ #include "buffer_tests.h" #include <stdint.h> UCX_TEST(test_ucx_buffer_new) { UcxBuffer *b = ucx_buffer_new(NULL, 16, UCX_BUFFER_AUTOEXTEND); UcxBuffer *b2 = ucx_buffer_new(NULL, 32, UCX_BUFFER_DEFAULT); UCX_TEST_BEGIN UCX_TEST_ASSERT(b->capacity==16, "wrong capacity"); UCX_TEST_ASSERT(b2->capacity==32, "wrong capacity"); UCX_TEST_ASSERT(b->size==0, "wrong size"); UCX_TEST_ASSERT(b2->size==0, "wrong size"); UCX_TEST_ASSERT(b->pos==0, "wrong position"); UCX_TEST_ASSERT(b2->pos==0, "wrong position"); UCX_TEST_ASSERT(b->flags==(UCX_BUFFER_AUTOEXTEND|UCX_BUFFER_AUTOFREE), "wrong flags for autoextending buffer"); UCX_TEST_ASSERT(b2->flags==UCX_BUFFER_AUTOFREE, "wrong flags for default bufer"); UCX_TEST_END ucx_buffer_free(b2); ucx_buffer_free(b); } UCX_TEST(test_ucx_buffer_new_prealloc) { char* test = (char*) malloc(16); UcxBuffer *b = ucx_buffer_new(test, 16, UCX_BUFFER_DEFAULT); UCX_TEST_BEGIN UCX_TEST_ASSERT(b->capacity==16, "wrong capacity"); UCX_TEST_ASSERT(b->size==0, "wrong size"); UCX_TEST_ASSERT(b->pos==0, "wrong position"); UCX_TEST_ASSERT(b->flags==0, "wrong flags - all should be cleared"); UCX_TEST_END free(test); ucx_buffer_free(b); } UCX_TEST(test_ucx_buffer_eof) { char *test = (char*)"0123456789ABCDEF"; UcxBuffer *b = ucx_buffer_new(test, 16, UCX_BUFFER_DEFAULT); UCX_TEST_BEGIN b->pos = 9; b->size = 10; UCX_TEST_ASSERT(!ucx_buffer_eof(b), "false positive"); b->pos = 10; b->size = 10; UCX_TEST_ASSERT(ucx_buffer_eof(b), "pos == size should be EOF"); b->pos = 11; b->size = 10; UCX_TEST_ASSERT(ucx_buffer_eof(b), "false negative"); UCX_TEST_END ucx_buffer_free(b); } UCX_TEST(test_ucx_buffer_seek_overflow) { UcxBuffer *b = ucx_buffer_new(NULL, 32, UCX_BUFFER_DEFAULT); b->size = 32; int r; UCX_TEST_BEGIN const size_t sizemax = (size_t)-1; size_t bigpos = sizemax - 5000; b->pos = bigpos; r = ucx_buffer_seek(b, 5016, SEEK_CUR); UCX_TEST_ASSERT(r != 0, "seek cur overflow"); UCX_TEST_ASSERT(b->pos == bigpos, "failed seek shall leave pos unchanged"); b->pos = 0; b->size = (sizemax >> 1) + 32; // we don't want to risk overflows in implicit constant casts const size_t bigoff_comp = (sizemax >> 1) - 16; off_t bigoff = (off_t)bigoff_comp; r = ucx_buffer_seek(b, -bigoff, SEEK_CUR); UCX_TEST_ASSERT(r != 0, "seek cur underflow"); UCX_TEST_ASSERT(b->pos == 0, "failed seek shall leave pos unchanged"); UCX_TEST_END ucx_buffer_free(b); } UCX_TEST(test_ucx_buffer_seek_invalid) { UcxBuffer *b = ucx_buffer_new(NULL, 32, UCX_BUFFER_DEFAULT); b->pos = 7; int r; UCX_TEST_BEGIN r = ucx_buffer_seek(b, 0, ~(SEEK_SET|SEEK_CUR|SEEK_END)); UCX_TEST_ASSERT(r != 0, "invalid whence shall fail"); UCX_TEST_ASSERT(b->pos == 7, "failed seek shall leave pos unchanged"); UCX_TEST_END ucx_buffer_free(b); } UCX_TEST(test_ucx_buffer_seek_oob) { UcxBuffer *b = ucx_buffer_new(NULL, 32, UCX_BUFFER_DEFAULT); b->size = 16; // less than capacity b->pos = 7; int r; UCX_TEST_BEGIN r = ucx_buffer_seek(b, -1, SEEK_SET); UCX_TEST_ASSERT(r != 0, "seek SET below bounds shall fail"); UCX_TEST_ASSERT(b->pos == 7, "failed seek shall leave pos unchanged"); r = ucx_buffer_seek(b, 16, SEEK_SET); UCX_TEST_ASSERT(r != 0, "seek SET above bounds shall fail"); UCX_TEST_ASSERT(b->pos == 7, "failed seek shall leave pos unchanged"); r = ucx_buffer_seek(b, -8, SEEK_CUR); UCX_TEST_ASSERT(r != 0, "seek CUR below bounds shall fail"); UCX_TEST_ASSERT(b->pos == 7, "failed seek shall leave pos unchanged"); r = ucx_buffer_seek(b, 9, SEEK_CUR); UCX_TEST_ASSERT(r != 0, "seek CUR above bounds shall fail"); UCX_TEST_ASSERT(b->pos == 7, "failed seek shall leave pos unchanged"); r = ucx_buffer_seek(b, -17, SEEK_END); UCX_TEST_ASSERT(r != 0, "seek END below bounds shall fail"); UCX_TEST_ASSERT(b->pos == 7, "failed seek shall leave pos unchanged"); r = ucx_buffer_seek(b, 1, SEEK_END); UCX_TEST_ASSERT(r != 0, "seek END above bounds shall fail"); UCX_TEST_ASSERT(b->pos == 7, "failed seek shall leave pos unchanged"); UCX_TEST_END ucx_buffer_free(b); } UCX_TEST(test_ucx_buffer_seek_set) { UcxBuffer *b = ucx_buffer_new(NULL, 32, UCX_BUFFER_DEFAULT); b->size = 16; int r; UCX_TEST_BEGIN r = ucx_buffer_seek(b, 5, SEEK_SET); UCX_TEST_ASSERT(r == 0, "seek SET+5 failed"); UCX_TEST_ASSERT(b->pos == 5, "seek SET+5 set wrong position"); r = ucx_buffer_seek(b, 10, SEEK_SET); UCX_TEST_ASSERT(r == 0, "seek SET+10 failed"); UCX_TEST_ASSERT(b->pos == 10, "seek SET+10 set wrong position"); UCX_TEST_END ucx_buffer_free(b); } UCX_TEST(test_ucx_buffer_seek_cur) { UcxBuffer *b = ucx_buffer_new(NULL, 32, UCX_BUFFER_DEFAULT); b->size = 16; int r; UCX_TEST_BEGIN b->pos = 7; r = ucx_buffer_seek(b, 5, SEEK_CUR); UCX_TEST_ASSERT(r == 0, "seek CUR+5 failed"); UCX_TEST_ASSERT(b->pos == 12, "seek CUR+5 set wrong position"); UCX_TEST_END ucx_buffer_free(b); } UCX_TEST(test_ucx_buffer_seek_end) { UcxBuffer *b = ucx_buffer_new(NULL, 32, UCX_BUFFER_DEFAULT); b->size = 16; int r; UCX_TEST_BEGIN r = ucx_buffer_seek(b, -5, SEEK_END); UCX_TEST_ASSERT(r == 0, "seek END-5 failed"); UCX_TEST_ASSERT(b->pos == 11, "seek END-5 set wrong position"); UCX_TEST_END ucx_buffer_free(b); } UCX_TEST(test_ucx_buffer_putc) { char *buffer = (char*) malloc(16); memset(buffer, 32, 16); UcxBuffer *b = ucx_buffer_new(buffer, 16, UCX_BUFFER_DEFAULT); b->size = b->capacity; UCX_TEST_BEGIN ucx_buffer_seek(b, 0, SEEK_SET); UCX_TEST_ASSERT(ucx_buffer_putc(b, '0'|~0xFF) == '0', "putc shall return (arg & 0xFF)"); ucx_buffer_putc(b, '0'); ucx_buffer_putc(b, '0'); UCX_TEST_ASSERT(b->pos == 3, "pos wrong after first 3 puts"); ucx_buffer_seek(b, 10, SEEK_CUR); ucx_buffer_putc(b, '0'); ucx_buffer_putc(b, '0'); ucx_buffer_putc(b, '0'); UCX_TEST_ASSERT(b->pos == 16, "pos wrong after last 3 puts"); UCX_TEST_ASSERT(!memcmp(b->space, "000 000", 16), "buffer content wrong") UCX_TEST_END ucx_buffer_free(b); free(buffer); } UCX_TEST(test_ucx_buffer_putc_oob) { UcxBuffer *b = ucx_buffer_new(NULL, 2, UCX_BUFFER_DEFAULT); UCX_TEST_BEGIN b->pos = b->size = b->capacity = 1; b->space[1] = 'X'; UCX_TEST_ASSERT(ucx_buffer_putc(b, 48) == EOF, "put shall return EOF " "when buffer is full and auto extend is disabled"); UCX_TEST_ASSERT(!memcmp(b->space, "\0X", 2), "wrong buffer content after failed putc"); UCX_TEST_END ucx_buffer_free(b); } UCX_TEST(test_ucx_buffer_putc_ae) { UcxBuffer *b = ucx_buffer_new(NULL, 2, UCX_BUFFER_AUTOEXTEND); ucx_buffer_putc(b, '0'); ucx_buffer_putc(b, '1'); UCX_TEST_BEGIN UCX_TEST_ASSERT(b->pos == 2, "pos wrong after first 2 puts"); UCX_TEST_ASSERT(b->size == 2, "size wrong after first 2 puts"); UCX_TEST_ASSERT(b->capacity == 2, "buffer erroneously extended"); UCX_TEST_ASSERT(!memcmp(b->space,"01", 2), "wrong content"); UCX_TEST_END ucx_buffer_free(b); } UCX_TEST(test_ucx_buffer_putc_oobae) { UcxBuffer *b = ucx_buffer_new(NULL, 2, UCX_BUFFER_AUTOEXTEND); ucx_buffer_putc(b, '0'); ucx_buffer_putc(b, '1'); UCX_TEST_BEGIN ucx_buffer_putc(b, 'a'); UCX_TEST_ASSERT(b->pos == 3, "pos wrong after put"); UCX_TEST_ASSERT(b->capacity == 4, "buffer not properly extended"); UCX_TEST_ASSERT(b->size == 3, "wrong buffer size"); UCX_TEST_ASSERT(!memcmp(b->space,"01a\0", 4), "wrong content"); UCX_TEST_END ucx_buffer_free(b); } UCX_TEST(test_ucx_buffer_putc_size) { UcxBuffer *b = ucx_buffer_new(NULL, 4, UCX_BUFFER_DEFAULT); UCX_TEST_BEGIN UCX_TEST_ASSERT(b->size == 0, "wrong initial size"); ucx_buffer_putc(b, 'a'); ucx_buffer_putc(b, 'b'); ucx_buffer_putc(b, 'c'); UCX_TEST_ASSERT(b->size == 3, "size does not increase"); ucx_buffer_seek(b, 1, SEEK_SET); ucx_buffer_putc(b, 'd'); UCX_TEST_ASSERT(b->size == 3, "size shall not decrease"); UCX_TEST_ASSERT(b->pos == 2, "wrong position after seek and putc"); UCX_TEST_END ucx_buffer_free(b); } UCX_TEST(test_ucx_buffer_getc) { char *buffer = (char*) malloc(16); memset(buffer, 32, 8); for (int i = 8; i < 16 ; i++) { buffer[i] = 40+i; } UcxBuffer *b = ucx_buffer_new(buffer, 16, UCX_BUFFER_DEFAULT); b->size = b->capacity; unsigned char ubuffer[] = {127, 128, 129, 130}; UcxBuffer *ub = ucx_buffer_new(ubuffer, 4, UCX_BUFFER_DEFAULT); ub->size = 4; UCX_TEST_BEGIN char rb[16]; for (size_t i = 0 ; i < 16 ; i++) { UCX_TEST_ASSERT(b->pos == i, "wrong position"); UCX_TEST_ASSERT(!ucx_buffer_eof(b), "EOF false positive"); rb[i] = ucx_buffer_getc(b); } UCX_TEST_ASSERT(memcmp(rb, " 01234567", 16) == 0, "read data incorrect"); UCX_TEST_ASSERT(ucx_buffer_eof(b), "EOF not set after last possible read"); UCX_TEST_ASSERT(b->pos == 16, "wrong position after EOF"); UCX_TEST_ASSERT(ucx_buffer_getc(b) == EOF, "out of bounds read does not return EOF"); UCX_TEST_ASSERT(b->pos == 16, "wrong position after out of bounds read"); int uc[5]; for(int i=0;i<5;i++) { uc[i] = ucx_buffer_getc(ub); } UCX_TEST_ASSERT(uc[0] == 127, "wrong unsigned value(0)"); UCX_TEST_ASSERT(uc[1] == 128, "wrong unsigned value(0)"); UCX_TEST_ASSERT(uc[2] == 129, "wrong unsigned value(0)"); UCX_TEST_ASSERT(uc[3] == 130, "wrong unsigned value(0)"); UCX_TEST_ASSERT(uc[4] == EOF, "EOF not set after last ub read"); UCX_TEST_END ucx_buffer_free(b); ucx_buffer_free(ub); free(buffer); } UCX_TEST(test_ucx_buffer_write) { char *buffer = (char*) malloc(32); memset(buffer, 0, 32); memset(buffer, 32, 8); for (int i = 8; i < 16 ; i++) { buffer[i] = 40+i; } UcxBuffer *b = ucx_buffer_new(buffer, 32, UCX_BUFFER_DEFAULT); int r; UCX_TEST_BEGIN b->pos = 4; r = ucx_buffer_write("test string", 1, 11, b); UCX_TEST_ASSERT(r == 11, "returned incorrect number of written bytes"); UCX_TEST_ASSERT(b->pos == 15, "incorrect position"); UCX_TEST_ASSERT(memcmp(buffer, " test string7\0\0", 18) == 0, "incorrect buffer content (test string)"); r = ucx_buffer_write(".", 1, 1, b); UCX_TEST_ASSERT(r == 1, "returned incorrect number of written elements"); UCX_TEST_ASSERT(b->pos == 16, "incorrect position"); int32_t testarr[4] = {0x09abcdef, 0x05fedcba, 0x01abefcd, 0x3cd07ab}; r = ucx_buffer_write(testarr, 4, 4, b); UCX_TEST_ASSERT(r = 4, "returned incorrect number of written elements"); UCX_TEST_ASSERT(b->pos == 32, "incorrect position"); char cmp[32]; memset(cmp, 0, 32); memcpy(cmp, " test string.", 16); int32_t *ptr = (int32_t*) (cmp+16); ptr[0] = testarr[0]; ptr[1] = testarr[1]; ptr[2] = testarr[2]; ptr[3] = testarr[3]; UCX_TEST_ASSERT(memcmp(buffer, cmp, 32) == 0, "incorrect buffer content (int array)"); UCX_TEST_END ucx_buffer_free(b); free(buffer); } UCX_TEST(test_ucx_buffer_write_oob) { char *buffer = (char*) malloc(32); memset(buffer, 0, 32); UcxBuffer *b = ucx_buffer_new(buffer, 15, UCX_BUFFER_DEFAULT); int r; UCX_TEST_BEGIN r = ucx_buffer_write("a very long string", 1, 18, b); UCX_TEST_ASSERT(r == 15, "incorrect number of written bytes"); UCX_TEST_ASSERT(memcmp(buffer, "a very long str\0\0\0", 18) == 0, "invalid buffer content (test string)"); b->size = b->pos = 0; int32_t intarr[4] = {0,-1,0,-1}; memset(buffer, 0, 32); r = ucx_buffer_write(intarr, 4, 4, b); UCX_TEST_ASSERT(r == 3, "incorrect number of written elements"); UCX_TEST_ASSERT(memcmp(buffer, "\0\0\0\0\xff\xff\xff\xff\0\0\0\0\0\0\0\0", 16) == 0, "invalid buffer content (test string)"); UCX_TEST_END ucx_buffer_free(b); free(buffer); } UCX_TEST(test_ucx_buffer_write_ax) { char *buffer = (char*) malloc(16); memset(buffer, 0, 16); UcxBuffer *b = ucx_buffer_new(buffer, 16, UCX_BUFFER_AUTOEXTEND | UCX_BUFFER_AUTOFREE); int r; UCX_TEST_BEGIN const char* teststring = "this is way too much"; r = ucx_buffer_write((void*)teststring, 1, 20, b); buffer = (char*) b->space; /*autoextend enabled, we MUST retrieve pointer*/ UCX_TEST_ASSERT(r == 20, "not all characters written"); UCX_TEST_ASSERT(b->capacity == 32, "buffer not properly extended"); UCX_TEST_ASSERT(b->pos == 20, "position incorrect"); UCX_TEST_ASSERT(memcmp(buffer, "this is way too much\0\0\0\0\0\0\0\0\0\0\0\0", 32) == 0, "incorrect buffer content"); UCX_TEST_END ucx_buffer_free(b); } UCX_TEST(test_ucx_buffer_read) { UcxBuffer *b = ucx_buffer_new(NULL, 8, UCX_BUFFER_AUTOFREE); ucx_buffer_write("01234567", 1, 8, b); b->pos = 0; char buf[32]; memset(buf, 'X', 32); int r; UCX_TEST_BEGIN ucx_buffer_seek(b, 2, SEEK_SET); r = ucx_buffer_read(buf, 1, 2, b); UCX_TEST_ASSERT(r == 2, "wrong number of bytes read (2 items)"); UCX_TEST_ASSERT(buf[0] == '2' && buf[1] == '3' && buf[2] == 'X', "buffer incorrect after read"); UCX_TEST_ASSERT(b->pos == 4, "wrong position after read (2 items)"); UCX_TEST_END ucx_buffer_free(b); } UCX_TEST(test_ucx_buffer_read_oob) { UcxBuffer *b = ucx_buffer_new(NULL, 8, UCX_BUFFER_AUTOFREE); ucx_buffer_write("01234567", 1, 8, b); char buf[32]; memset(buf, 'X', 32); int r; UCX_TEST_BEGIN b->pos = 2; r = ucx_buffer_read(buf + 2, 1, 8, b); UCX_TEST_ASSERT(r == 6, "wrong number of bytes read (8 items)"); UCX_TEST_ASSERT(memcmp(buf, "XX234567XX", 10) == 0, "buffer incorrect after read"); UCX_TEST_ASSERT(b->pos == 8, "wrong position after read (8 items out of bound)"); b->pos = 0; memset(buf, 'X', 32); r = ucx_buffer_read(buf, 3, 3, b); UCX_TEST_ASSERT(r == 2, "wrong number of blocks read"); UCX_TEST_ASSERT(memcmp(buf, "012345XX", 8) == 0, "buffer incorrect after block out of bounds read"); r = ucx_buffer_read(buf+6, 1, 5, b); UCX_TEST_ASSERT(r == 2, "wrong number of remaining bytes read"); UCX_TEST_ASSERT(memcmp(buf, "01234567XX", 10) == 0, "buffer incorrect after remaining byte read"); UCX_TEST_END ucx_buffer_free(b); } UCX_TEST(test_ucx_buffer_extract) { char *buffer = (char*) malloc(16); strcpy(buffer, "this is a test!"); UcxBuffer *src = ucx_buffer_new(buffer, 16, UCX_BUFFER_AUTOFREE); src->size = 16; UcxBuffer *dst = ucx_buffer_extract(src, 5, 5, UCX_BUFFER_AUTOEXTEND); UCX_TEST_BEGIN UCX_TEST_ASSERT(dst != NULL, "ucx_buffer_extract returned NULL"); UCX_TEST_ASSERT(dst->flags == (UCX_BUFFER_AUTOEXTEND | UCX_BUFFER_AUTOFREE), "autofree flag shall be enforced"); UCX_TEST_ASSERT(dst->size == 5, "wrong size for new buffer"); UCX_TEST_ASSERT(dst->capacity == 5, "wrong capacity for new buffer"); UCX_TEST_ASSERT(dst->pos == 0, "wrong position for new buffer"); char rb[5]; ucx_buffer_read(rb, 1, 5, dst); UCX_TEST_ASSERT(memcmp(rb, "is a ", 5) == 0, "new buffer has incorrect content"); UCX_TEST_END ucx_buffer_free(dst); ucx_buffer_free(src); } UCX_TEST(test_ucx_buffer_extract_oob) { char *buffer = (char*) malloc(16); strcpy(buffer, "this is a test!"); UcxBuffer *src = ucx_buffer_new(buffer, 16, UCX_BUFFER_AUTOFREE); src->size = 16; UCX_TEST_BEGIN UCX_TEST_ASSERT(ucx_buffer_extract(src, 5, 0, UCX_BUFFER_DEFAULT) == NULL, "extract shall fail on zero length"); UCX_TEST_ASSERT(ucx_buffer_extract(src, 10, 10, UCX_BUFFER_DEFAULT) == NULL, "extract shall fail on invalid bounds (size exceeds limits)"); UCX_TEST_ASSERT(ucx_buffer_extract(src, 20, -7, UCX_BUFFER_DEFAULT) == NULL, "extract shall fail on invalid bounds (start exceeds limits)"); UCX_TEST_END ucx_buffer_free(src); } UCX_TEST(test_ucx_buffer_extract_overflow) { char *buffer = (char*) malloc(16); strcpy(buffer, "this is a test!"); UcxBuffer *src = ucx_buffer_new(buffer, 16, UCX_BUFFER_AUTOFREE); src->size = 16; UCX_TEST_BEGIN UCX_TEST_ASSERT(ucx_buffer_extract(src, 5, (size_t)-4, UCX_BUFFER_DEFAULT) == NULL, "extract shall fail on integer overflow"); UCX_TEST_END ucx_buffer_free(src); } UCX_TEST(test_ucx_buffer_extend) { UcxBuffer *b = ucx_buffer_new(NULL, 10, UCX_BUFFER_DEFAULT); UCX_TEST_BEGIN UCX_TEST_ASSERT(ucx_buffer_extend(b, 15) == 0, "shall return 0 on success"); UCX_TEST_ASSERT(b->capacity = 40, "wrong capacity"); UCX_TEST_ASSERT((b->size == 0 && b->pos == 0), "pos and size shall remain unchanged"); UCX_TEST_ASSERT(ucx_buffer_extend(b, (size_t) - 61) != 0, "shall fail and return a non-zero value on overflow"); UCX_TEST_END ucx_buffer_free(b); } UCX_TEST(test_ucx_buffer_shl) { const char* hw = "Shift the World!"; UcxBuffer *b = ucx_buffer_new(NULL, 20, UCX_BUFFER_DEFAULT); ucx_buffer_puts(b, hw); b->pos = 5; UCX_TEST_BEGIN char* expected; ucx_buffer_shift_left(b, 2); expected = "ift the World!"; UCX_TEST_ASSERT(b->pos == 3, "position after normal shl wrong"); UCX_TEST_ASSERT(b->size == strlen(expected), "size after normal shl wrong"); UCX_TEST_ASSERT(!memcmp(b->space, expected, b->size), "contents after normal shl wrong"); ucx_buffer_shift_left(b, 5); expected = "he World!"; UCX_TEST_ASSERT(b->pos == 0, "position after overshift left wrong"); UCX_TEST_ASSERT(b->size == strlen(expected), "size after overshift left wrong"); UCX_TEST_ASSERT(!memcmp(b->space, expected, b->size), "contents after overshift left wrong"); ucx_buffer_shift_left(b, 10); UCX_TEST_ASSERT(b->pos == 0, "position after 'shl everything away' wrong"); UCX_TEST_ASSERT(b->size == 0, "size after 'shl everything away' wrong"); UCX_TEST_END ucx_buffer_free(b); } UCX_TEST(test_ucx_buffer_shr) { const char* hw = "Shift the World!"; UcxBuffer *b = ucx_buffer_new(NULL, 20, UCX_BUFFER_DEFAULT); ucx_buffer_puts(b, hw); b->pos = 12; UCX_TEST_BEGIN char* expected; ucx_buffer_shift_right(b, 2); expected = "ShShift the World!"; UCX_TEST_ASSERT(b->pos == 14, "position after normal shr wrong"); UCX_TEST_ASSERT(b->size == strlen(expected), "size after normal shr wrong"); UCX_TEST_ASSERT(!memcmp(b->space, expected, b->size), "contents after normal shr wrong"); ucx_buffer_shift_right(b, 5); expected = "ShShiShShift the Wor"; UCX_TEST_ASSERT(strlen(expected) == b->capacity, "Test data is wrong, please fix the test."); UCX_TEST_ASSERT(b->pos == 19, "position after overshift right w/o auto-extend wrong"); UCX_TEST_ASSERT(b->size == 20, "size after overshift right w/o auto-extend wrong"); UCX_TEST_ASSERT(b->capacity == 20, "capacity after overshift right w/o auto-extend wrong"); UCX_TEST_ASSERT(!memcmp(b->space, expected, b->size), "contents after overshift right w/o auto-extend wrong"); ucx_buffer_shift_right(b, 15); UCX_TEST_ASSERT(b->pos == b->capacity, "position after 'shr to eof' wrong"); UCX_TEST_ASSERT(b->size == b->capacity, "size after 'shr to eof' wrong"); UCX_TEST_ASSERT(ucx_buffer_eof(b), "buffer not eof after 'shr to eof'"); UCX_TEST_END ucx_buffer_free(b); } UCX_TEST(test_ucx_buffer_shr_ax) { const char* hw = "Shift the World!"; UcxBuffer *b = ucx_buffer_new(NULL, 20, UCX_BUFFER_AUTOEXTEND); ucx_buffer_puts(b, hw); b->pos = 12; UCX_TEST_BEGIN const char* expected = "Shift the Shift the World!"; ucx_buffer_shift_right(b, 10); UCX_TEST_ASSERT(b->pos == 22, "position after shr w/ auto-extend wrong"); UCX_TEST_ASSERT(b->size == strlen(expected), "size after shr w/ auto-extend wrong"); UCX_TEST_ASSERT(b->capacity >= b->size, "auto-extension of capacity after shr w/ auto-extend failed"); UCX_TEST_ASSERT(!ucx_buffer_eof(b), "buffer should not be eof after shr w/ auto-extend"); UCX_TEST_ASSERT(!memcmp(b->space, expected, b->size), "contents wrong after shr w/ auto-extend"); UCX_TEST_END ucx_buffer_free(b); }