thodg/got/lib/diffreg.c

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• Hash : 56b63ca4
  Author :
  Date : 2021-01-22T11:04:47
  

  make fclose(3) failure checks consistent; check 'fclose() == EOF' everywhere ok millert, naddy

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• lib/diffreg.c

• /*
   * Copyright (c) 2020 Neels Hofmeyr <neels@hofmeyr.de>
   * Copyright (c) 2020 Stefan Sperling <stsp@openbsd.org>
   *
   * Permission to use, copy, modify, and distribute this software for any
   * purpose with or without fee is hereby granted, provided that the above
   * copyright notice and this permission notice appear in all copies.
   *
   * THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES
   * WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF
   * MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR
   * ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES
   * WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN
   * ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF
   * OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE.
   */
  
  #include <sys/mman.h>
  #include <sys/stat.h>
  #include <sys/queue.h>
  
  #include <errno.h>
  #include <stdio.h>
  #include <stdlib.h>
  #include <string.h>
  
  #include "got_object.h"
  #include "got_opentemp.h"
  #include "got_error.h"
  
  #include "got_lib_diff.h"
  
  const struct diff_algo_config myers_then_patience;
  const struct diff_algo_config myers_then_myers_divide;
  const struct diff_algo_config patience;
  const struct diff_algo_config myers_divide;
  
  const struct diff_algo_config myers_then_patience = (struct diff_algo_config){
  	.impl = diff_algo_myers,
  	.permitted_state_size = 1024 * 1024 * sizeof(int),
  	.fallback_algo = &patience,
  };
  
  const struct diff_algo_config myers_then_myers_divide =
  	(struct diff_algo_config){
  	.impl = diff_algo_myers,
  	.permitted_state_size = 1024 * 1024 * sizeof(int),
  	.fallback_algo = &myers_divide,
  };
  
  const struct diff_algo_config patience = (struct diff_algo_config){
  	.impl = diff_algo_patience,
  	/* After subdivision, do Patience again: */
  	.inner_algo = &patience,
  	/* If subdivision failed, do Myers Divide et Impera: */
  	.fallback_algo = &myers_then_myers_divide,
  };
  
  const struct diff_algo_config myers_divide = (struct diff_algo_config){
  	.impl = diff_algo_myers_divide,
  	/* When division succeeded, start from the top: */
  	.inner_algo = &myers_then_myers_divide,
  	/* (fallback_algo = NULL implies diff_algo_none). */
  };
  
  /* If the state for a forward-Myers is small enough, use Myers, otherwise first
   * do a Myers-divide. */
  const struct diff_config diff_config_myers_then_myers_divide = {
  	.atomize_func = diff_atomize_text_by_line,
  	.algo = &myers_then_myers_divide,
  };
  
  /* If the state for a forward-Myers is small enough, use Myers, otherwise first
   * do a Patience. */
  const struct diff_config diff_config_myers_then_patience = {
  	.atomize_func = diff_atomize_text_by_line,
  	.algo = &myers_then_patience,
  };
  
  /* Directly force Patience as a first divider of the source file. */
  const struct diff_config diff_config_patience = {
  	.atomize_func = diff_atomize_text_by_line,
  	.algo = &patience,
  };
  
  /* Directly force Patience as a first divider of the source file. */
  const struct diff_config diff_config_no_algo = {
  	.atomize_func = diff_atomize_text_by_line,
  };
  
  const struct got_error *
  got_diffreg_close(FILE *f1, char *p1, size_t size1,
      FILE *f2, char *p2, size_t size2)
  {
  	const struct got_error *err = NULL;
  
  	if (p1 && munmap(p1, size1) == -1 && err == NULL)
  		err = got_error_from_errno("munmap");
  	if (p2 && munmap(p2, size2) == -1 && err == NULL)
  		err = got_error_from_errno("munmap");
  	if (f1 && fclose(f1) == EOF && err == NULL)
  		err = got_error_from_errno("fclose");
  	if (f2 && fclose(f2) == EOF && err == NULL)
  		err = got_error_from_errno("fclose");
  	return err;
  }
  
  const struct got_error *
  got_diff_get_config(struct diff_config **cfg,
      enum got_diff_algorithm algorithm,
      diff_atomize_func_t atomize_func, void *atomize_func_data)
  {
  	*cfg = calloc(1, sizeof(**cfg));
  	if (*cfg == NULL)
  		return got_error_from_errno("calloc");
  
  	switch (algorithm) {
  	case GOT_DIFF_ALGORITHM_PATIENCE:
  		(*cfg)->algo = &patience;
  		break;
  	case GOT_DIFF_ALGORITHM_MYERS:
  		(*cfg)->algo = &myers_then_myers_divide;
  		break;
  	default:
  		return got_error_msg(GOT_ERR_NOT_IMPL, "bad diff algorithm");
  	}
  
  	if (atomize_func) {
  		(*cfg)->atomize_func = atomize_func;
  		(*cfg)->atomize_func_data = atomize_func_data;
  	} else
  		(*cfg)->atomize_func = diff_atomize_text_by_line;
  
  	(*cfg)->max_recursion_depth = 0; /* use default recursion depth */
  
  	return NULL;
  }
  
  const struct got_error *
  got_diff_prepare_file(FILE *f, char **p, size_t *size,
      struct diff_data *diff_data, const struct diff_config *cfg,
      int ignore_whitespace, int force_text_diff)
  {
  	const struct got_error *err = NULL;
  	struct stat st;
  	int diff_flags = 0, rc;
  
  	*size = 0;
  
  	diff_flags |= DIFF_FLAG_SHOW_PROTOTYPES;
  	if (ignore_whitespace)
  		diff_flags |= DIFF_FLAG_IGNORE_WHITESPACE;
  	if (force_text_diff)
  		diff_flags |= DIFF_FLAG_FORCE_TEXT_DATA;
  
  	if (fstat(fileno(f), &st) == -1) {
  		err = got_error_from_errno("fstat");
  		goto done;
  	}
  #ifndef GOT_DIFF_NO_MMAP
  	*p = mmap(NULL, st.st_size, PROT_READ, MAP_PRIVATE,
  	    fileno(f), 0);
  	if (*p == MAP_FAILED)
  #endif
  		*p = NULL; /* fall back on file I/O */
  
  	rc = diff_atomize_file(diff_data, cfg, f, *p, st.st_size, diff_flags);
  	if (rc) {
  		err = got_error_set_errno(rc, "diff_atomize_file");
  		goto done;
  	}
  done:
  	if (err)
  		diff_data_free(diff_data);
  	else
  		*size = st.st_size;
  	return err;
  }
  
  const struct got_error *
  got_diffreg(struct got_diffreg_result **diffreg_result, FILE *f1, FILE *f2,
      enum got_diff_algorithm algorithm, int ignore_whitespace,
      int force_text_diff)
  {
  	const struct got_error *err = NULL;
  	struct diff_config *cfg = NULL;
  	char *p1 = NULL, *p2 = NULL;
  	int f1_created = 0, f2_created = 0;
  	size_t size1, size2;
  	struct diff_data d_left, d_right;
  	struct diff_data *left, *right;
  	struct diff_result *diff_result;
  
  	if (diffreg_result) {
  		*diffreg_result = calloc(1, sizeof(**diffreg_result));
  		if (*diffreg_result == NULL)
  			return got_error_from_errno("calloc");
  		left = &(*diffreg_result)->left;
  		right = &(*diffreg_result)->right;
  	} else {
  		memset(&d_left, 0, sizeof(d_left));
  		memset(&d_right, 0, sizeof(d_right));
  		left = &d_left;
  		right = &d_right;
  	}
  
  	err = got_diff_get_config(&cfg, algorithm, NULL, NULL);
  	if (err)
  		goto done;
  
  	if (f1 == NULL) {
  		f1_created = 1;
  		f1 = got_opentemp();
  		if (f1 == NULL) {
  			err = got_error_from_errno("got_opentemp");
  			goto done;
  		}
  	}
  	if (f2 == NULL) {
  		f2_created = 1;
  		f2 = got_opentemp();
  		if (f2 == NULL) {
  			err = got_error_from_errno("got_opentemp");
  			goto done;
  		}
  	}
  
  	err = got_diff_prepare_file(f1, &p1, &size1, left, cfg,
  	    ignore_whitespace, force_text_diff);
  	if (err)
  		goto done;
  
  	err = got_diff_prepare_file(f2, &p2, &size2, right, cfg,
  	    ignore_whitespace, force_text_diff);
  	if (err)
  		goto done;
  
  	diff_result = diff_main(cfg, left, right);
  	if (diff_result == NULL) {
  		err = got_error_set_errno(ENOMEM, "malloc");
  		goto done;
  	}
  	if (diff_result->rc != DIFF_RC_OK) {
  		err = got_error_set_errno(diff_result->rc, "diff");
  		goto done;
  	}
  
  	if (diffreg_result) {
  		(*diffreg_result)->result = diff_result;
  		if (f1_created)
  			(*diffreg_result)->f1 = f1;
  		(*diffreg_result)->map1 = p1;
  		(*diffreg_result)->size1 = size1;
  		if (f2_created)
  			(*diffreg_result)->f2 = f2;
  		(*diffreg_result)->map2 = p2;
  		(*diffreg_result)->size2 = size2;
  	}
  done:
  	free(cfg);
  	if (diffreg_result == NULL) {
  		diff_data_free(left);
  		diff_data_free(right);
  	}
  	if (err) {
  		got_diffreg_close(f1_created ? f1 : NULL, p1, size1,
  		    f2_created ? f2 : NULL, p2, size2);
  		if (diffreg_result) {
  			diff_data_free(left);
  			diff_data_free(right);
  			free(*diffreg_result);
  			*diffreg_result = NULL;
  		}
  	}
  	
  	return err;
  }
  
  const struct got_error *
  got_diffreg_output(off_t **line_offsets, size_t *nlines,
      struct got_diffreg_result *diff_result, int f1_exists, int f2_exists,
      const char *path1, const char *path2,
      enum got_diff_output_format output_format, int context_lines, FILE *outfile)
  {
  	struct diff_input_info info = {
  		.left_path = path1,
  		.right_path = path2,
  		.flags = 0,
  	};
  	int rc;
  	struct diff_output_info *output_info;
  
  	if (!f1_exists)
  		info.flags |= DIFF_INPUT_LEFT_NONEXISTENT;
  	if (!f2_exists)
  		info.flags |= DIFF_INPUT_RIGHT_NONEXISTENT;
  
  	switch (output_format) {
  	case GOT_DIFF_OUTPUT_UNIDIFF:
  		rc = diff_output_unidiff(
  		    line_offsets ? &output_info : NULL, outfile, &info,
  		    diff_result->result, context_lines);
  		if (rc != DIFF_RC_OK)
  			return got_error_set_errno(rc, "diff_output_unidiff");
  		break;
  	case GOT_DIFF_OUTPUT_EDSCRIPT:
  		rc = diff_output_edscript(line_offsets ? &output_info : NULL,
  		    outfile, &info, diff_result->result);
  		if (rc != DIFF_RC_OK)
  			return got_error_set_errno(rc, "diff_output_edscript");
  		break;
  
  	}
  
  	if (line_offsets && *line_offsets) {
  		if (output_info->line_offsets.len > 0) {
  			off_t prev_offset = 0, *p, *o;
  			int i, len;
  			if (*nlines > 0) {
  				prev_offset = (*line_offsets)[*nlines - 1];
  				/*
  				 * First line offset is always zero. Skip it
  				 * when appending to a pre-populated array.
  				 */
  				o = &output_info->line_offsets.head[1];
  				len = output_info->line_offsets.len - 1;
  			} else {
  				o = &output_info->line_offsets.head[0];
  				len = output_info->line_offsets.len;
  			}
  			p = reallocarray(*line_offsets, *nlines + len,
  			    sizeof(off_t));
  			if (p == NULL)
  				return got_error_from_errno("calloc");
  			for (i = 0; i < len; i++)
  				p[*nlines + i] = o[i] + prev_offset;
  			*line_offsets = p;
  			*nlines += len;
  		}
  		diff_output_info_free(output_info);
  	}
  
  	return NULL;
  }
  
  const struct got_error *
  got_diffreg_result_free(struct got_diffreg_result *diffreg_result)
  {
  	const struct got_error *err;
  
  	diff_result_free(diffreg_result->result);
  	diff_data_free(&diffreg_result->left);
  	diff_data_free(&diffreg_result->right);
  	err = got_diffreg_close(diffreg_result->f1, diffreg_result->map1,
  	    diffreg_result->size1, diffreg_result->f2,
  	    diffreg_result->map2, diffreg_result->size2);
  	free(diffreg_result);
  	return err;
  }
  
  const struct got_error *
  got_diffreg_result_free_left(struct got_diffreg_result *diffreg_result)
  {
  	diff_data_free(&diffreg_result->left);
  	memset(&diffreg_result->left, 0, sizeof(diffreg_result->left));
  	return got_diffreg_close(diffreg_result->f1, diffreg_result->map1,
  	    diffreg_result->size1, NULL, NULL, 0);
  }
  
  const struct got_error *
  got_diffreg_result_free_right(struct got_diffreg_result *diffreg_result)
  {
  	diff_data_free(&diffreg_result->right);
  	memset(&diffreg_result->right, 0, sizeof(diffreg_result->right));
  	return got_diffreg_close(NULL, NULL, 0, diffreg_result->f2,
  	    diffreg_result->map2, diffreg_result->size2);
  }
  

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