/home/uke/oil/cpp/libc.cc

Source (jump to first uncovered line)
// libc.cc: Replacement for pyext/libc.c

#include "cpp/libc.h"

#include <errno.h>
#include <fnmatch.h>
#include <glob.h>
#include <locale.h>
#include <regex.h>
#include <sys/ioctl.h>
#include <unistd.h>  // gethostname()
#include <wchar.h>

namespace libc {

BigStr* gethostname() {
  // Note: Fixed issue #1656 - OS X and FreeBSD don't have HOST_NAME_MAX
  // https://reviews.freebsd.org/D30062
  BigStr* result = OverAllocatedStr(_POSIX_HOST_NAME_MAX);
  int status = ::gethostname(result->data_, _POSIX_HOST_NAME_MAX);
  if (status != 0) {
    throw Alloc<OSError>(errno);
  }
  // Important: set the length of the string!
  result->MaybeShrink(strlen(result->data_));
  return result;
}

BigStr* realpath(BigStr* path) {
  BigStr* result = OverAllocatedStr(PATH_MAX);
  char* p = ::realpath(path->data_, result->data_);
  if (p == nullptr) {
    throw Alloc<OSError>(errno);
  }
  result->MaybeShrink(strlen(result->data_));
  return result;
}

int fnmatch(BigStr* pat, BigStr* str, int flags) {
#ifdef FNM_EXTMATCH
  flags |= FNM_EXTMATCH;
#else
  // TODO: We should detect this at ./configure time, and then maybe flag these
  // at parse time, not runtime
#endif

  int result = ::fnmatch(pat->data_, str->data_, flags);
  switch (result) {
  case 0:
    return 1;
  case FNM_NOMATCH:
    return 0;
  default:
    // Other error
    return -1;
  }
}

List<BigStr*>* glob(BigStr* pat) {
  glob_t results;
  // Hm, it's weird that the first one can't be called with GLOB_APPEND.  You
  // get a segfault.
  int flags = 0;
  // int flags = GLOB_APPEND;
  // flags |= GLOB_NOMAGIC;
  int ret = glob(pat->data_, flags, NULL, &results);

  const char* err_str = NULL;
  switch (ret) {
  case 0:  // no error
    break;
  case GLOB_ABORTED:
    err_str = "read error";
    break;
  case GLOB_NOMATCH:
    // No error, because not matching isn't necessarily a problem.
    // NOTE: This can be turned on to log overaggressive calls to glob().
    // err_str = "nothing matched";
    break;
  case GLOB_NOSPACE:
    err_str = "no dynamic memory";
    break;
  default:
    err_str = "unknown problem";
    break;
  }
  if (err_str) {
    throw Alloc<RuntimeError>(StrFromC(err_str));
  }

  // http://stackoverflow.com/questions/3512414/does-this-pylist-appendlist-py-buildvalue-leak
  size_t n = results.gl_pathc;
  auto matches = NewList<BigStr*>();

  // Print array of results
  size_t i;
  for (i = 0; i < n; i++) {
    const char* m = results.gl_pathv[i];
    matches->append(StrFromC(m));
  }
  globfree(&results);

  return matches;
}

// Raises RuntimeError if the pattern is invalid.  TODO: Use a different
// exception?
List<int>* regex_search(BigStr* pattern, int cflags, BigStr* str, int eflags,
                        int pos) {
  cflags |= REG_EXTENDED;
  regex_t pat;
  int status = regcomp(&pat, pattern->data_, cflags);
  if (status != 0) {
    char error_desc[50];
    regerror(status, &pat, error_desc, 50);

    char error_message[80];
    snprintf(error_message, 80, "Invalid regex %s (%s)", pattern->data_,
             error_desc);

    throw Alloc<ValueError>(StrFromC(error_message));
  }
  // log("pat = %d, str = %d", len(pattern), len(str));

  int num_groups = pat.re_nsub + 1;  // number of captures

  List<int>* indices = NewList<int>();
  indices->reserve(num_groups * 2);

  const char* s = str->data_;
  regmatch_t* pmatch =
      static_cast<regmatch_t*>(malloc(sizeof(regmatch_t) * num_groups));
  bool match = regexec(&pat, s + pos, num_groups, pmatch, eflags) == 0;
  if (match) {
    int i;
    for (i = 0; i < num_groups; i++) {
      int start = pmatch[i].rm_so;
      if (start != -1) {
        start += pos;
      }
      indices->append(start);

      int end = pmatch[i].rm_eo;
      if (end != -1) {
        end += pos;
      }
      indices->append(end);
    }
  }

  free(pmatch);
  regfree(&pat);

  if (!match) {
    return nullptr;
  }

  return indices;
}

// For ${//}, the number of groups is always 1, so we want 2 match position
// results -- the whole regex (which we ignore), and then first group.
//
// For [[ =~ ]], do we need to count how many matches the user gave?

const int NMATCH = 2;

// Odd: This a Tuple2* not Tuple2 because it's Optional[Tuple2]!
Tuple2<int, int>* regex_first_group_match(BigStr* pattern, BigStr* str,
                                          int pos) {
  regex_t pat;
  regmatch_t m[NMATCH];

  // Could have been checked by regex_parse for [[ =~ ]], but not for glob
  // patterns like ${foo/x*/y}.

  if (regcomp(&pat, pattern->data_, REG_EXTENDED) != 0) {
    throw Alloc<RuntimeError>(
        StrFromC("Invalid regex syntax (func_regex_first_group_match)"));
  }

  // Match at offset 'pos'
  int result = regexec(&pat, str->data_ + pos, NMATCH, m, 0 /*flags*/);
  regfree(&pat);

  if (result != 0) {
    return nullptr;
  }

  // Assume there is a match
  regoff_t start = m[1].rm_so;
  regoff_t end = m[1].rm_eo;
  Tuple2<int, int>* tup = Alloc<Tuple2<int, int>>(pos + start, pos + end);

  return tup;
}

int wcswidth(BigStr* s) {
  // Behavior of mbstowcs() depends on LC_CTYPE

  // Calculate length first
  int num_wide_chars = ::mbstowcs(NULL, s->data_, 0);
  if (num_wide_chars == -1) {
    throw Alloc<UnicodeError>(StrFromC("mbstowcs() 1"));
  }

  // Allocate buffer
  int buf_size = (num_wide_chars + 1) * sizeof(wchar_t);
  wchar_t* wide_chars = static_cast<wchar_t*>(malloc(buf_size));
  DCHECK(wide_chars != nullptr);

  // Convert to wide chars
  num_wide_chars = ::mbstowcs(wide_chars, s->data_, num_wide_chars);
  if (num_wide_chars == -1) {
    free(wide_chars);  // cleanup

    throw Alloc<UnicodeError>(StrFromC("mbstowcs() 2"));
  }

  // Find number of columns
  int width = ::wcswidth(wide_chars, num_wide_chars);
  if (width == -1) {
    free(wide_chars);  // cleanup

    // unprintable chars
    throw Alloc<UnicodeError>(StrFromC("wcswidth()"));
  }

  free(wide_chars);
  return width;
}

int get_terminal_width() {
  struct winsize w;
  if (ioctl(STDOUT_FILENO, TIOCGWINSZ, &w) == -1) {
    throw Alloc<IOError>(errno);
  }
  return w.ws_col;
}

}  // namespace libc

cpp

Coverage Report

Created: 2024-06-29 16:46

Line	Count	Source (jump to first uncovered line)
1		// libc.cc: Replacement for pyext/libc.c
2
3		#include "cpp/libc.h"
4
5		#include <errno.h>
6		#include <fnmatch.h>
7		#include <glob.h>
8		#include <locale.h>
9		#include <regex.h>
10		#include <sys/ioctl.h>
11		#include <unistd.h> // gethostname()
12		#include <wchar.h>
13
14		namespace libc {
15
16	2	BigStr* gethostname() {
17		// Note: Fixed issue #1656 - OS X and FreeBSD don't have HOST_NAME_MAX
18		// https://reviews.freebsd.org/D30062
19	2	BigStr* result = OverAllocatedStr(_POSIX_HOST_NAME_MAX);
20	2	int status = ::gethostname(result->data_, _POSIX_HOST_NAME_MAX);
21	2	if (status != 0) {
22	0	throw Alloc<OSError>(errno);
23	0	}
24		// Important: set the length of the string!
25	2	result->MaybeShrink(strlen(result->data_));
26	2	return result;
27	2	}
28
29	2	BigStr* realpath(BigStr* path) {
30	2	BigStr* result = OverAllocatedStr(PATH_MAX);
31	2	char* p = ::realpath(path->data_, result->data_);
32	2	if (p == nullptr) {
33	1	throw Alloc<OSError>(errno);
34	1	}
35	1	result->MaybeShrink(strlen(result->data_));
36	1	return result;
37	2	}
38
39	5	int fnmatch(BigStr* pat, BigStr* str, int flags) {
40	5	#ifdef FNM_EXTMATCH
41	5	flags \|= FNM_EXTMATCH;
42		#else
43		// TODO: We should detect this at ./configure time, and then maybe flag these
44		// at parse time, not runtime
45		#endif
46
47	5	int result = ::fnmatch(pat->data_, str->data_, flags);
48	5	switch (result) {
49	3	case 0:
50	3	return 1;
51	2	case FNM_NOMATCH:
52	2	return 0;
53	0	default:
54		// Other error
55	0	return -1;
56	5	}
57	5	}
58
59	2	List<BigStr> glob(BigStr* pat) {
60	2	glob_t results;
61		// Hm, it's weird that the first one can't be called with GLOB_APPEND. You
62		// get a segfault.
63	2	int flags = 0;
64		// int flags = GLOB_APPEND;
65		// flags \|= GLOB_NOMAGIC;
66	2	int ret = glob(pat->data_, flags, NULL, &results);
67
68	2	const char* err_str = NULL;
69	2	switch (ret) {
70	1	case 0: // no error
71	1	break;
72	0	case GLOB_ABORTED:
73	0	err_str = "read error";
74	0	break;
75	1	case GLOB_NOMATCH:
76		// No error, because not matching isn't necessarily a problem.
77		// NOTE: This can be turned on to log overaggressive calls to glob().
78		// err_str = "nothing matched";
79	1	break;
80	0	case GLOB_NOSPACE:
81	0	err_str = "no dynamic memory";
82	0	break;
83	0	default:
84	0	err_str = "unknown problem";
85	0	break;
86	2	}
87	2	if (err_str) {
88	0	throw Alloc<RuntimeError>(StrFromC(err_str));
89	0	}
90
91		// http://stackoverflow.com/questions/3512414/does-this-pylist-appendlist-py-buildvalue-leak
92	2	size_t n = results.gl_pathc;
93	2	auto matches = NewList<BigStr*>();
94
95		// Print array of results
96	2	size_t i;
97	5	for (i = 0; i < n; i++) {
98	3	const char* m = results.gl_pathv[i];
99	3	matches->append(StrFromC(m));
100	3	}
101	2	globfree(&results);
102
103	2	return matches;
104	2	}
105
106		// Raises RuntimeError if the pattern is invalid. TODO: Use a different
107		// exception?
108		List<int>* regex_search(BigStr* pattern, int cflags, BigStr* str, int eflags,
109	4	int pos) {
110	4	cflags \|= REG_EXTENDED;
111	4	regex_t pat;
112	4	int status = regcomp(&pat, pattern->data_, cflags);
113	4	if (status != 0) {
114	0	char error_desc[50];
115	0	regerror(status, &pat, error_desc, 50);
116
117	0	char error_message[80];
118	0	snprintf(error_message, 80, "Invalid regex %s (%s)", pattern->data_,
119	0	error_desc);
120
121	0	throw Alloc<ValueError>(StrFromC(error_message));
122	0	}
123		// log("pat = %d, str = %d", len(pattern), len(str));
124
125	4	int num_groups = pat.re_nsub + 1; // number of captures
126
127	4	List<int>* indices = NewList<int>();
128	4	indices->reserve(num_groups * 2);
129
130	4	const char* s = str->data_;
131	4	regmatch_t* pmatch =
132	4	static_cast<regmatch_t>(malloc(sizeof(regmatch_t) num_groups));
133	4	bool match = regexec(&pat, s + pos, num_groups, pmatch, eflags) == 0;
134	4	if (match) {
135	3	int i;
136	10	for (i = 0; i < num_groups; i++) {
137	7	int start = pmatch[i].rm_so;
138	7	if (start != -1) {
139	6	start += pos;
140	6	}
141	7	indices->append(start);
142
143	7	int end = pmatch[i].rm_eo;
144	7	if (end != -1) {
145	6	end += pos;
146	6	}
147	7	indices->append(end);
148	7	}
149	3	}
150
151	4	free(pmatch);
152	4	regfree(&pat);
153
154	4	if (!match) {
155	1	return nullptr;
156	1	}
157
158	3	return indices;
159	4	}
160
161		// For ${//}, the number of groups is always 1, so we want 2 match position
162		// results -- the whole regex (which we ignore), and then first group.
163		//
164		// For [[ =~ ]], do we need to count how many matches the user gave?
165
166		const int NMATCH = 2;
167
168		// Odd: This a Tuple2* not Tuple2 because it's Optional[Tuple2]!
169		Tuple2<int, int>* regex_first_group_match(BigStr* pattern, BigStr* str,
170	3	int pos) {
171	3	regex_t pat;
172	3	regmatch_t m[NMATCH];
173
174		// Could have been checked by regex_parse for [[ =~ ]], but not for glob
175		// patterns like ${foo/x*/y}.
176
177	3	if (regcomp(&pat, pattern->data_, REG_EXTENDED) != 0) {
178	0	throw Alloc<RuntimeError>(
179	0	StrFromC("Invalid regex syntax (func_regex_first_group_match)"));
180	0	}
181
182		// Match at offset 'pos'
183	3	int result = regexec(&pat, str->data_ + pos, NMATCH, m, 0 /flags/);
184	3	regfree(&pat);
185
186	3	if (result != 0) {
187	0	return nullptr;
188	0	}
189
190		// Assume there is a match
191	3	regoff_t start = m[1].rm_so;
192	3	regoff_t end = m[1].rm_eo;
193	3	Tuple2<int, int>* tup = Alloc<Tuple2<int, int>>(pos + start, pos + end);
194
195	3	return tup;
196	3	}
197
198	1	int wcswidth(BigStr* s) {
199		// Behavior of mbstowcs() depends on LC_CTYPE
200
201		// Calculate length first
202	1	int num_wide_chars = ::mbstowcs(NULL, s->data_, 0);
203	1	if (num_wide_chars == -1) {
204	0	throw Alloc<UnicodeError>(StrFromC("mbstowcs() 1"));
205	0	}
206
207		// Allocate buffer
208	1	int buf_size = (num_wide_chars + 1) * sizeof(wchar_t);
209	1	wchar_t* wide_chars = static_cast<wchar_t*>(malloc(buf_size));
210	1	DCHECK(wide_chars != nullptr);
211
212		// Convert to wide chars
213	0	num_wide_chars = ::mbstowcs(wide_chars, s->data_, num_wide_chars);
214	1	if (num_wide_chars == -1) {
215	0	free(wide_chars); // cleanup
216
217	0	throw Alloc<UnicodeError>(StrFromC("mbstowcs() 2"));
218	0	}
219
220		// Find number of columns
221	1	int width = ::wcswidth(wide_chars, num_wide_chars);
222	1	if (width == -1) {
223	0	free(wide_chars); // cleanup
224
225		// unprintable chars
226	0	throw Alloc<UnicodeError>(StrFromC("wcswidth()"));
227	0	}
228
229	1	free(wide_chars);
230	1	return width;
231	1	}
232
233	1	int get_terminal_width() {
234	1	struct winsize w;
235	1	if (ioctl(STDOUT_FILENO, TIOCGWINSZ, &w) == -1) {
236	1	throw Alloc<IOError>(errno);
237	1	}
238	0	return w.ws_col;
239	1	}
240
241		} // namespace libc