启动云端模型

模型信息：https://ollama.com/library/qwen3-coder:480b-cloud

启动指令

ollama run qwen3-coder:480b-cloud

根据提示，点击生成的链接，在浏览器完成登录，确认操作。
后续的启动不在需要web确认，效果如下：

yeqiang@yeqiang-Default-string:~/code/GmSSL$ ollama run qwen3-coder:480b-cloud
Connecting to 'qwen3-coder:480b' on 'ollama.com' ⚡
>>> Send a message (/? for help)

基于ollama自动配置并启动claude code

yeqiang@yeqiang-Default-string:~/code/GmSSL$ ollama run qwen3-coder:480b-cloud
Connecting to 'qwen3-coder:480b' on 'ollama.com' ⚡
>>> 
# 直接退出
Use Ctrl + d or /bye to exit.
>>> 

# 自动配置
yeqiang@yeqiang-Default-string:~/code/GmSSL$ ollama launch claude --config

Model Configuration

Select model: Type to filter...
    codegeex4:9b-all-q8_0
    deepseek-r1:14b
    deepseek-r1:32b
    deepseek-r1:70b
    ministral-3:14b
    qwen2.5-coder:14b
  # 这里用上下键，选择 qwen3-code:480b-cloud
  > qwen3-coder:480b-cloud
    shaw/dmeta-embedding-zh
    glm-4.7-flash - Recommended (requires ~25GB VRAM), install?
    glm-4.7:cloud - Recommended, install?
  ... and 2 more

# 选择模型后，回车，提示是否启动，输入y
yeqiang@yeqiang-Default-string:~/code/GmSSL$ ollama launch claude --config
Launch Claude Code now? (y/n) yes

Launching Claude Code with qwen3-coder:480b-cloud...
^[[I
 ▐▛███▜▌   Claude Code v2.1.31
▝▜█████▛▘  qwen3-coder:480b-cloud · API Usage Billing
  ▘▘ ▝▝    ~/code/GmSSL

  /model to try Opus 4.5

──────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────
❯ Try "how do I log an error?"
──────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────
  ? for shortcuts               

完成claude code的初始化（当前在gmssl项目目录下）

初始化指令是 /init

╭─── Claude Code v2.1.31 ────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────╮
│                                                │ Tips for getting started                                                                                                                                                                                                      │
│                  Welcome back!                 │ Run /init to create a CLAUDE.md file with instructions for Claude                                                                                                                                                             │
│                                                │ ─────────────────────────────────────────────────────────────────                                                                                                                                                             │
│                                                │ Recent activity                                                                                                                                                                                                               │
│                     ▐▛███▜▌                    │ No recent activity                                                                                                                                                                                                            │
│                    ▝▜█████▛▘                   │                                                                                                                                                                                                                               │
│                      ▘▘ ▝▝                     │                                                                                                                                                                                                                               │
│   qwen3-coder:480b-cloud · API Usage Billing   │                                                                                                                                                                                                                               │
│                  ~/code/GmSSL                  │                                                                                                                                                                                                                               │
╰────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────╯

  /model to try Opus 4.5

❯ 你好 

● 你好！我是 Claude Code，一个专门用于软件工程任务的交互式 CLI 工具。我可以帮助你解决编程问题、解释代码、重构代码、添加新功能等。

  如果你有任何具体的任务或问题需要帮助，请告诉我。例如：

  - 解释某段代码的作用
  - 帮助调试代码中的错误
  - 添加新的功能或修改现有功能
  - 重构代码以提高可读性或性能
  - 回答关于代码库结构的问题

  你可以随时输入 /help 获取更多关于如何使用我的信息。

  有什么我可以帮你的吗？

❯ /init 

● I'll analyze the codebase and create a CLAUDE.md file with the essential information for future instances of Claude Code to be productive quickly.

  First, let me explore the codebase structure to understand its architecture:

● Searched for 1 pattern (ctrl+o to expand)

● Let me look at the README.md to understand the project better:

● Read 1 file (ctrl+o to expand)

● Now let me check the CMakeLists.txt to understand the build system:

● Read 1 file (ctrl+o to expand)

● Let me check if there's already a CLAUDE.md file:

● Searched for 1 pattern (ctrl+o to expand)

● Let me check for any existing development documentation:

● Searched for 1 pattern (ctrl+o to expand)

● Let me read the INSTALL.md file to understand the installation process better:

● Read 1 file (ctrl+o to expand)

● Now let me look at the test files to understand how testing works:

● Searched for 1 pattern (ctrl+o to expand)

● Let me look at a few test files to understand the testing structure:

● Read 1 file (ctrl+o to expand)

● Let me also look at the tools directory to understand the command-line interface:

● Searched for 1 pattern (ctrl+o to expand)

● Let me look at the main gmssl.c file to understand the command-line interface:

● Read 1 file (ctrl+o to expand)

● Let me check a few more key files to understand the structure better:

● Read 1 file (ctrl+o to expand)

● Let me check the include directory structure to understand the API:

● Searched for 1 pattern (ctrl+o to expand)

● Let me look at the SM4 header to understand the API:

● Read 1 file (ctrl+o to expand)

● Now let me check the build directory to see if there are any build artifacts or specific configurations:

● Read 1 file (ctrl+o to expand)

● Let me check if there's a build directory already:

● Read 1 file (ctrl+o to expand)

● Based on my analysis of the GmSSL codebase, I'll now create a CLAUDE.md file with the essential information for future instances of Claude Code to operate effectively in this repository.

● Wrote 1 memory (ctrl+o to expand)   

● I've successfully created a CLAUDE.md file for the GmSSL repository. This file provides essential guidance for future instances of Claude Code to understand and work effectively with this codebase.

  The CLAUDE.md file includes:                                                                                                                                                                                                                                                    
   
  1. Overview - A brief introduction to what GmSSL is and its purpose                                                                                                                                                                                                             
  2. Build System and Common Commands - Instructions for building, configuring, and testing the project
  3. Command Line Interface - Information about the main gmssl tool and its subcommands
  4. Code Architecture and Structure - High-level organization of the codebase including core components and library organization

  This should give future Claude Code instances a solid foundation to understand the repository structure, build process, and key components without needing to explore the entire codebase from scratch.

✻ Churned for 2m 55s

──────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────
❯ run the tests
──────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────────
  ⏵⏵ accept edits on (shift+tab to cycle)

初始化完成后，生成的CLAUDE.md

CLAUDE.md

This file provides guidance to Claude Code (claude.ai/code) when working with code in this repository.

Overview

GmSSL is a Chinese cryptographic library developed by Peking University that implements Chinese national cryptographic standards and secure communication protocols. It provides comprehensive coverage of national cryptographic algorithms and supports mainstream operating systems and processors including mobile platforms.

Build System and Common Commands

Basic Build Process

mkdir build
cd build
cmake ..
make
make test
sudo make install

Configuration Options

Key CMake options that can be set during configuration:

• -DBUILD_SHARED_LIBS=ON/OFF - Build dynamic/static libraries (default ON)
• -DENABLE_TEST_SPEED=ON - Enable performance testing
• Architecture-specific optimizations:
  • -DENABLE_SM4_AVX2=ON - SM4 AVX2 implementation
  • -DENABLE_SM4_AESNI=ON - SM4 AES-NI implementation
  • -DENABLE_SM2_AMD64=ON - SM2 X86_64 assembly
  • -DENABLE_INTEL_RDRAND=ON - Intel RDRAND instructions

Testing

Tests are located in the tests/ directory with naming convention <algorithm>test.c. Run individual tests with:

./build/bin/<testname>test

Run all tests with:

cd build && make test

Command Line Interface

The main CLI tool is gmssl with various subcommands:

• gmssl sm2keygen - Generate SM2 keypair
• gmssl sm2sign/sm2verify - SM2 signature generation/verification
• gmssl sm2encrypt/sm2decrypt - SM2 encryption/decryption
• gmssl sm3 - Generate SM3 hash
• gmssl sm4_* - Various SM4 encryption modes (cbc, ctr, gcm, etc.)
• gmssl certgen/certparse - Certificate generation and parsing
• Run gmssl help for complete command list

Code Architecture and Structure

Core Components

1. Cryptographic Algorithms (src/ and include/gmssl/)

   • Block ciphers: SM4 (various modes), AES
   • Stream ciphers: ZUC/ZUC-256, ChaCha20
   • Hash functions: SM3, SHA series
   • Public key cryptography: SM2 (signature/encryption), SM9
   • Post-quantum cryptography: LMS/HSS, XMSS, SPHINCS+, Kyber

2. Certificate Infrastructure (src/x509*.c, include/gmssl/x509*.h)

   • X.509 certificate handling
   • CSR (certificate signing requests)
   • CRL (certificate revocation lists)
   • CMS (cryptographic message syntax)

3. Transport Layer Security (src/tls*.c, include/gmssl/tls.h)

   • TLCP 1.1 (Chinese standard)
   • TLS 1.2 and TLS 1.3 with Chinese cipher suites
   • Secure communication protocols

4. Hardware Support

   • SDF (Security Device Framework) for PCI-E crypto cards
   • SKF (Security Key Framework) for USB crypto tokens

Library Organization

• Header files in include/gmssl/ define the public API
• Source files in src/ implement the core algorithms
• Command-line tools in tools/ provide user interfaces
• Test files in tests/ validate functionality
• Hardware support modules in src/sdf/ and src/skf/

Key API Patterns

Most cryptographic algorithms follow consistent patterns:

1. Key setup: algorithm_set_encrypt_key() and algorithm_set_decrypt_key()
2. Basic operation: algorithm_encrypt()
3. Block processing: algorithm_encrypt_blocks()
4. Streaming/context-based processing with init/update/finish pattern

The library emphasizes modularity with compile-time options to include/exclude specific algorithms or features.yeqiang@yeqiang-Default-string:~/code/GmSSL$

可以看到云端提供的qwen3-coder:480b-cloud可以正常运行。

注意，已实测不可用的模型

ministral-3:14b
qwen2.5-coder:14b
deepseek-r1:32b
codegeex4:9b-all-q8_0

虽然ministral显示支持工具调用，但是不支持claude的调用协议。