#include #include #include #include #include #include #include "strntol.h" #include "pattern.h" #include "../minmax.h" #include "../oslib/strcasestr.h" /** * parse_string() - parses string in double quotes, like "abc" * @beg - string input * @out - output buffer where parsed number should be put * @out_len - length of the output buffer * @filled - pointer where number of bytes successfully * parsed will be put * * Returns the end pointer where parsing has been stopped. * In case of parsing error or lack of bytes in output buffer * NULL will be returned. */ static const char *parse_string(const char *beg, char *out, unsigned int out_len, unsigned int *filled) { const char *end; if (!out_len) return NULL; assert(*beg == '"'); beg++; end = strchr(beg, '"'); if (!end) return NULL; if (end - beg > out_len) return NULL; memcpy(out, beg, end - beg); *filled = end - beg; /* Catch up quote */ return end + 1; } /** * parse_number() - parses numbers * @beg - string input * @out - output buffer where parsed number should be put * @out_len - length of the output buffer * @filled - pointer where number of bytes successfully * parsed will be put * * Supports decimals in the range [INT_MIN, INT_MAX] and * hexidecimals of any size, which should be started with * prefix 0x or 0X. * * Returns the end pointer where parsing has been stopped. * In case of parsing error or lack of bytes in output buffer * NULL will be returned. */ static const char *parse_number(const char *beg, char *out, unsigned int out_len, unsigned int *filled) { const char *end; unsigned int val; long lval; int num, i; if (!out_len) return NULL; num = 0; sscanf(beg, "0%*[xX]%*[0-9a-fA-F]%n", &num); if (num == 0) { /* Here we are trying to parse decimal */ char *_end; /* Looking ahead */ _end = strcasestr(beg, "0x"); if (_end) num = _end - beg; if (num) lval = strntol(beg, num, &_end, 10); else lval = strtol(beg, &_end, 10); if (beg == _end || lval > INT_MAX || lval < INT_MIN) return NULL; end = _end; i = 0; if (!lval) { num = 0; out[i] = 0x00; i = 1; } else { val = (unsigned int)lval; for (; val && out_len; out_len--, i++, val >>= 8) out[i] = val & 0xff; if (val) return NULL; } } else { assert(num > 2); /* Catch up 0x prefix */ num -= 2; beg += 2; /* Look back, handle this combined string: 0xff0x14 */ if (beg[num] && !strncasecmp(&beg[num - 1], "0x", 2)) num--; end = beg + num; for (i = 0; num && out_len; out_len--, i++, num -= 2, beg += 2) { const char *fmt; fmt = (num & 1 ? "%1hhx" : "%2hhx"); sscanf(beg, fmt, &out[i]); if (num & 1) { num++; beg--; } } if (num) return NULL; } *filled = i; return end; } /** * parse_format() - parses formats, like %o, etc * @in - string input * @out - output buffer where space for format should be reserved * @parsed - number of bytes which were already parsed so far * @out_len - length of the output buffer * @fmt_desc - format descritor array, what we expect to find * @fmt_desc_sz - size of the format descritor array * @fmt - format array, the output * @fmt_sz - size of format array * * This function tries to find formats, e.g.: * %o - offset of the block * * In case of successfull parsing it fills the format param * with proper offset and the size of the expected value, which * should be pasted into buffer using the format 'func' callback. * * Returns the end pointer where parsing has been stopped. * In case of parsing error or lack of bytes in output buffer * NULL will be returned. */ static const char *parse_format(const char *in, char *out, unsigned int parsed, unsigned int out_len, unsigned int *filled, const struct pattern_fmt_desc *fmt_desc, unsigned int fmt_desc_sz, struct pattern_fmt *fmt, unsigned int fmt_sz) { int i; struct pattern_fmt *f = NULL; unsigned int len = 0; if (!out_len || !fmt_desc || !fmt_desc_sz || !fmt || !fmt_sz) return NULL; assert(*in == '%'); for (i = 0; i < fmt_desc_sz; i++) { const struct pattern_fmt_desc *desc; desc = &fmt_desc[i]; len = strlen(desc->fmt); if (0 == strncmp(in, desc->fmt, len)) { fmt->desc = desc; fmt->off = parsed; f = fmt; break; } } if (!f) return NULL; if (f->desc->len > out_len) return NULL; memset(out, '\0', f->desc->len); *filled = f->desc->len; return in + len; } /** * parse_and_fill_pattern() - Parses combined input, which consists of strings, * numbers and pattern formats. * @in - string input * @in_len - size of the input string * @out - output buffer where parsed result will be put * @out_len - lengths of the output buffer * @fmt_desc - array of pattern format descriptors [input] * @fmt_desc_sz - size of the format descriptor array * @fmt - array of pattern formats [output] * @fmt_sz - pointer where the size of pattern formats array stored [input], * after successfull parsing this pointer will contain the number * of parsed formats if any [output]. * * strings: * bytes sequence in double quotes, e.g. "123". * NOTE: there is no way to escape quote, so "123\"abc" does not work. * * numbers: * hexidecimal - sequence of hex bytes starting from 0x or 0X prefix, * e.g. 0xff12ceff1100ff * decimal - decimal number in range [INT_MIN, INT_MAX] * * formats: * %o - offset of block, reserved 8 bytes. * * Explicit examples of combined string: * #1 #2 #3 #4 * in="abcd" in=-1024 in=66 in=0xFF0X1 * out=61 62 63 64 out=00 fc ff ff out=42 out=ff 01 * * #5 #6 * in=%o in="123"0xFFeeCC * out=00 00 00 00 00 00 00 00 out=31 32 33 ff ec cc * * #7 * in=-100xab"1"%o"2" * out=f6 ff ff ff ab 31 00 00 00 00 00 00 00 00 32 * * #9 * in=%o0xdeadbeef%o * out=00 00 00 00 00 00 00 00 de ad be ef 00 00 00 00 00 00 00 00 * * #10 * in=0xfefefefefefefefefefefefefefefefefefefefefe * out=fe fe fe fe fe fe fe fe fe fe fe fe fe fe fe fe fe fe fe fe fe * * Returns number of bytes filled or err < 0 in case of failure. */ int parse_and_fill_pattern(const char *in, unsigned int in_len, char *out, unsigned int out_len, const struct pattern_fmt_desc *fmt_desc, unsigned int fmt_desc_sz, struct pattern_fmt *fmt, unsigned int *fmt_sz_out) { const char *beg, *end, *out_beg = out; unsigned int total = 0, fmt_rem = 0; if (!in || !in_len || !out || !out_len) return -EINVAL; if (fmt_sz_out) fmt_rem = *fmt_sz_out; beg = in; do { unsigned int filled; int parsed_fmt; filled = 0; parsed_fmt = 0; switch (*beg) { case '"': end = parse_string(beg, out, out_len, &filled); break; case '%': end = parse_format(beg, out, out - out_beg, out_len, &filled, fmt_desc, fmt_desc_sz, fmt, fmt_rem); parsed_fmt = 1; break; default: end = parse_number(beg, out, out_len, &filled); break; } if (!end) return -EINVAL; if (parsed_fmt) { assert(fmt_rem); fmt_rem--; fmt++; } assert(end - beg <= in_len); in_len -= end - beg; beg = end; assert(filled); assert(filled <= out_len); out_len -= filled; out += filled; total += filled; } while (in_len); if (fmt_sz_out) *fmt_sz_out -= fmt_rem; return total; } /** * dup_pattern() - Duplicates part of the pattern all over the buffer. * * Returns 0 in case of success or errno < 0 in case of failure. */ static int dup_pattern(char *out, unsigned int out_len, unsigned int pattern_len) { unsigned int left, len, off; if (out_len <= pattern_len) /* Normal case */ return 0; off = pattern_len; left = (out_len - off); len = min(left, off); /* Duplicate leftover */ while (left) { memcpy(out + off, out, len); left -= len; off <<= 1; len = min(left, off); } return 0; } /** * cpy_pattern() - Copies pattern to the buffer. * * Function copies pattern along the whole buffer. * * Returns 0 in case of success or errno < 0 in case of failure. */ int cpy_pattern(const char *pattern, unsigned int pattern_len, char *out, unsigned int out_len) { unsigned int len; if (!pattern || !pattern_len || !out || !out_len) return -EINVAL; /* Copy pattern */ len = min(pattern_len, out_len); memcpy(out, pattern, len); /* Spread filled chunk all over the buffer */ return dup_pattern(out, out_len, pattern_len); } /** * cmp_pattern() - Compares pattern and buffer. * * For the sake of performance this function avoids any loops. * Firstly it tries to compare the buffer itself, checking that * buffer consists of repeating patterns along the buffer size. * * If the difference is not found then the function tries to compare * buffer and pattern. * * Returns 0 in case of success or errno < 0 in case of failure. */ int cmp_pattern(const char *pattern, unsigned int pattern_size, unsigned int off, const char *buf, unsigned int len) { int rc; unsigned int size; /* Find the difference in buffer */ if (len > pattern_size) { rc = memcmp(buf, buf + pattern_size, len - pattern_size); if (rc) return -EILSEQ; } /* Compare second part of the pattern with buffer */ if (off) { size = min(len, pattern_size - off); rc = memcmp(buf, pattern + off, size); if (rc) return -EILSEQ; buf += size; len -= size; } /* Compare first part of the pattern or the whole pattern * with buffer */ if (len) { size = min(len, (off ? off : pattern_size)); rc = memcmp(buf, pattern, size); if (rc) return -EILSEQ; } return 0; } /** * paste_format_inplace() - Pastes parsed formats to the pattern. * * This function pastes formats to the pattern. If @fmt_sz is 0 * function does nothing and pattern buffer is left untouched. * * Returns 0 in case of success or errno < 0 in case of failure. */ int paste_format_inplace(char *pattern, unsigned int pattern_len, struct pattern_fmt *fmt, unsigned int fmt_sz, void *priv) { int i, rc; unsigned int len; if (!pattern || !pattern_len || !fmt) return -EINVAL; /* Paste formats for first pattern chunk */ for (i = 0; i < fmt_sz; i++) { struct pattern_fmt *f; f = &fmt[i]; if (pattern_len <= f->off) break; len = min(pattern_len - f->off, f->desc->len); rc = f->desc->paste(pattern + f->off, len, priv); if (rc) return rc; } return 0; } /** * paste_format() - Pastes parsed formats to the buffer. * * This function copies pattern to the buffer, pastes format * into it and then duplicates pattern all over the buffer size. * * Returns 0 in case of success or errno < 0 in case of failure. */ int paste_format(const char *pattern, unsigned int pattern_len, struct pattern_fmt *fmt, unsigned int fmt_sz, char *out, unsigned int out_len, void *priv) { int rc; unsigned int len; if (!pattern || !pattern_len || !out || !out_len) return -EINVAL; /* Copy pattern */ len = min(pattern_len, out_len); memcpy(out, pattern, len); rc = paste_format_inplace(out, len, fmt, fmt_sz, priv); if (rc) return rc; /* Spread filled chunk all over the buffer */ return dup_pattern(out, out_len, pattern_len); }