#include #include #include #include #include #include #include #include #include #include #include #include // A URI takes the form of: resource://root/path // The following function splits up a URI into its componenets bool uri_resolve(char *uri, char **resource, char **root, char **path) { size_t length = strlen(uri) + 1; char *buf = ext_mem_alloc(length); memcpy(buf, uri, length); uri = buf; *resource = *root = *path = NULL; // Get resource for (size_t i = 0; ; i++) { if (strlen(uri + i) < 3) return false; if (!memcmp(uri + i, "://", 3)) { *resource = uri; uri[i] = 0; uri += i + 3; break; } } // Get root for (size_t i = 0; ; i++) { if (uri[i] == 0) return false; if (uri[i] == '/') { *root = uri; uri[i] = 0; uri += i + 1; break; } } // Get path if (*uri == 0) return false; *path = uri; return true; } static bool parse_bios_partition(char *loc, int *drive, int *partition) { uint64_t val; for (size_t i = 0; ; i++) { if (loc[i] == 0) return false; if (loc[i] == ':') { loc[i] = 0; if (*loc == 0) { panic(true, "Drive number cannot be omitted for hdd:// and odd://"); } else { val = strtoui(loc, NULL, 10); if (val < 1 || val > 256) { panic(true, "Drive number outside range 1-256"); } *drive = val; } loc += i + 1; break; } } val = strtoui(loc, NULL, 10); if (val > 256) { panic(true, "Partition number outside range 0-256"); } *partition = val; return true; } static struct file_handle *uri_hdd_dispatch(char *loc, char *path) { int drive, partition; if (!parse_bios_partition(loc, &drive, &partition)) return NULL; struct volume *volume = volume_get_by_coord(false, drive, partition); if (volume == NULL) return NULL; return fopen(volume, path); } static struct file_handle *uri_odd_dispatch(char *loc, char *path) { int drive, partition; if (!parse_bios_partition(loc, &drive, &partition)) return NULL; struct volume *volume = volume_get_by_coord(true, drive, partition); if (volume == NULL) return NULL; return fopen(volume, path); } static struct file_handle *uri_guid_dispatch(char *guid_str, char *path) { struct guid guid; if (!string_to_guid_be(&guid, guid_str)) return NULL; struct volume *volume = volume_get_by_guid(&guid); if (volume == NULL) { if (!string_to_guid_mixed(&guid, guid_str)) return NULL; volume = volume_get_by_guid(&guid); if (volume == NULL) return NULL; } return fopen(volume, path); } static struct file_handle *uri_fslabel_dispatch(char *fslabel, char *path) { struct volume *volume = volume_get_by_fslabel(fslabel); if (volume == NULL) { return NULL; } return fopen(volume, path); } static struct file_handle *uri_fwcfg_dispatch(char *path) { struct file_handle *ret = ext_mem_alloc(sizeof(struct file_handle)); if (!fwcfg_open(ret, path)) { return NULL; } return ret; } #if bios == 1 static struct file_handle *uri_tftp_dispatch(char *root, char *path) { uint32_t ip; if (!strcmp(root, "")) { ip = 0; } else { if (inet_pton(root, &ip)) { panic("tftp: Invalid ipv4 address: %s", root); } } struct file_handle *ret; if ((ret = tftp_open(ip, 69, path)) == NULL) { return NULL; } return ret; } #endif static struct file_handle *uri_boot_dispatch(char *s_part, char *path) { #if bios == 1 if (boot_volume->pxe) return uri_tftp_dispatch(s_part, path); #endif int partition; if (s_part[0] != '\0') { uint64_t val = strtoui(s_part, NULL, 10); if (val > 256) { panic(true, "Partition number outside range 0-256"); } partition = val; } else { partition = boot_volume->partition; } struct volume *volume = volume_get_by_coord(boot_volume->is_optical, boot_volume->index, partition); if (volume == NULL) return NULL; return fopen(volume, path); } struct file_handle *uri_open(char *uri) { struct file_handle *ret; char *resource, *root, *path; uri_resolve(uri, &resource, &root, &path); if (resource == NULL) { panic("No resource specified for URI `%s`.", uri); } bool compressed = false; if (*resource == '$') { compressed = true; resource++; } if (!strcmp(resource, "bios")) { panic(true, "bios:// resource is no longer supported. Check CONFIG.md for hdd:// and odd://"); } else if (!strcmp(resource, "hdd")) { ret = uri_hdd_dispatch(root, path); } else if (!strcmp(resource, "odd")) { ret = uri_odd_dispatch(root, path); } else if (!strcmp(resource, "boot")) { ret = uri_boot_dispatch(root, path); } else if (!strcmp(resource, "guid")) { ret = uri_guid_dispatch(root, path); } else if (!strcmp(resource, "uuid")) { ret = uri_guid_dispatch(root, path); } else if (!strcmp(resource, "fslabel")) { ret = uri_fslabel_dispatch(root, path); #if bios == 1 } else if (!strcmp(resource, "tftp")) { ret = uri_tftp_dispatch(root, path); #endif // note: fwcfg MUST be the last on the list due to fwcfg simple mode. } else if (!strcmp(resource, "fwcfg")) { if (*root != 0) { panic(true, "No root supported in an fwcfg:// uri!"); } ret = uri_fwcfg_dispatch(path); } else { panic("Resource `%s` not valid.", resource); } if (compressed && ret != NULL) { struct file_handle *compressed_fd = ext_mem_alloc(sizeof(struct file_handle)); fread(ret, &compressed_fd->size, ret->size - 4, sizeof(uint32_t)); compressed_fd->fd = ext_mem_alloc(compressed_fd->size); void *src = freadall(ret, MEMMAP_BOOTLOADER_RECLAIMABLE); if (tinf_gzip_uncompress(compressed_fd->fd, src, ret->size)) { panic(true, "tinf error"); } compressed_fd->vol = ret->vol; fclose(ret); compressed_fd->is_memfile = true; ret = compressed_fd; } return ret; }